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8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 122
Alfalfa
Germinationamp Growth
A3681
Dan Undersander
Marvin H Hall
Paul Vassalotti
Dennis Cosgrove
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 222
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 3221
Contents
Basics of alfalfa growth 2
The seed 3
Germination and emergence 4
Seedling growth and establishment 6
Crown formation and development 9
Vegetative stage 10
Spring green-up 10
Growth after cutting 11
Winter hardening and winter survival 12
When to cut 13
Flowering process 14
Estimating preharvest alfalfa quality 17
Summary of management tips 17
Glossary 18
Knowing how alfalfa germinates
will help producers create
conditions necessary for good
stand establishment Knowing how
seedlings develop will be useful in
determining when to control diseases
insects and weeds Understanding
patterns of growthmdashspring green-up
and growth after cuttingmdashwill aid in
identifying winter injury and disease
problems and in managing weeds
And being familiar with the mature
stages of alfalfa growth will be helpful
when making decisions about when
to cut in order to ensure the maximum
yield of forage of the quality required
8122019 Alfalfa Germination amp Growth
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2 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
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Basics of alfalfa growth
A
lfalfa growth is driven byphotosynthesis a process thatcaptures the sunrsquos energy and
converts it into chemical energy Glucosesugar is the primary chemical energyproduct of photosynthesis Glucosecombines with other nutrient elementsto provide all the components neededfor alfalfa growth
Alfalfa requires nitrogen phosphoruspotassium sulfur calcium magnesiumiron boron manganese zinc coppermolybdenum and a few othermicronutrients for growth These
nutrients along with water are absorbedby the root from the soil Also sometrace minerals may be taken up throughthe leaves if they are applied foliarlyPart of the nitrogen needed for growthis obtained from bacterial nitrogenfixation in the root nodules if soil pH issufficiently high (65 or more)
Living cells extract energy from glucosethrough a process called respiration Foralfalfa to have sustained growth glucoseproduction by photosynthesis must begreater than glucose use by respiration
Alfalfa cells divide to produce new cellsat the tips of stems and roots in tissueknown as the apical meristem Belowthe apical meristem of the stem cells ofthe stems (but not the leaves) developthicker walls which contain more ligninand are less digestible Consequentlythe oldest and least digestible part ofthe alfalfa stem is at the bottom whilethe youngest and most digestible part is
at the top
At points where leaf petioles and stembranches attach to the stem are axillarybuds (see figure 1) Axillary buds contain
meristematic (growing) tissue whichcan develop into leaves stem branchesor new stems Axillary buds generallyremain inactive until the apical meristembegins producing flower buds or isremoved Alfalfa cut high may regrowfrom axillary buds rather than fromcrown buds which generally meansyield will be reduced because of theexcessive forage left in the field as aresult of cutting the alfalfa higher
Leaflets
Petiol
Axillary buds
Radicle
Hypocotyl
Unifoliate leaf
Apical meristem
Figure 1 The parts of an alfalfa plant
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Figure 2 Alfalfa seed external and internal views
The seed
A
lfalfa seeds are generally kidneyshaped small (983090frasl9830911048626 by 983089frasl9830911048626 by 983089frasl9830911048626inch with about 225000 seeds
to a pound) and yellow-brown to olivegreen in color The seed consists of twocotyledons (embryonic leaves) a radicle(embryonic root) a hypocotyl (the areaof radicle just below the cotyledons)and an epicotyl (embryonic stem) Allof these embryonic plant parts aresurrounded by a protective seed coat(see figure 2) Carbohydrates proteinsand fats stored in the cotyledonssupply the energy needed duringgermination until the true leaves beginphotosynthesis The radicle becomesthe primary root and is the initialanchoring and absorption structureduring alfalfa emergence The epicotylis the growing point (where themeristematic tissue is located) of thefuture stem and is protected betweenthe two cotyledons until the cotyledonsare above ground and separate Thescar tissue on the seed coat knownas the hilum is the previous point of
attachment of the seed to the pod
Sometimes an alfalfa seed may have acoat not permeable to water and this isknown as a ldquohard seedrdquo A hard seed can
lie dormant in the soil for several weeksor years before germinating Hard seedpercentage is noted on the seed tagand is included in the total germinationcalculation Most hard seed germinateswithin 30 to 60 days of planting Alfalfahard seed cannot be depended upon tothicken a thin stand
Several kinds of coatingsmdashfor examplefungicide Rhizobium bacteria nutrientslime or claymdashmay be applied to the
seed as it is processed and preparedfor marketing In general these seedcoatings have no effect on seed qualitybut are placed on the seed to aidgrowth and development after planting
Management tipsbull Store seed at cool temperatures
and in low humidity Manyprecautions are taken by the alfalfa
seed industry to ensure that thepurchaser receives very high-qualityweed-free seed Decline in seedquality on the farm can be slowed bystoring seed in a cool dry place
bull Re-inoculate with Rhizobium
bacteria if stored beyond
expiration date Alfalfa is generallyinoculated with Rhizobium (a bacteriaresponsible for nitrogen fixation)during seed processing How long
Rhizobium will live depends on
environmental conditions during seedstorage Preinoculated seed storedbeyond the Rhizobium expirationdate (printed on the seed bag label)should be inoculated again with freshRhizobium before planting
External Internal
Seed coat
Cotyledon
Hilum
Radicle
Epicotyl
Hypocotyl
G R O W I N G A L F A L F A
3
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4 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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Germination amp emergence
A
lfalfa seeds begin to germinateafter absorbing about 125percent of their weight in water
and swelling to break the seed coat(see figure 3) Alfalfa can germinateat temperatures greater than 37˚F butoptimum germination temperature isbetween 65 and 77˚F As soil warms therate of germination increases becauseof increased water movement intothe seed and because of increases inthe rate of other metabolic activitiesassociated with germination
Germination begins with the radicle(young root) emerging through theseed coat near the hilum (see figure 4)
and anchoring itself in the soil as anunbranched tap root (see figure 5)
Supplying the right conditionswill help to assure maximumgermination Prepare a firm weed-
free seedbed to minimize competitionfrom weeds and to ensure good seed-
to-soil contact Avoid overworking thesoil surface as rainfall following seedingmay crust the surface preventingseedling emergence
Management tipsbull Optimize seed-to-soil contact
Poor seed-to-soil contact restrictswater movement from the soil to theseed and causes poor or sporadicgermination In conventionally tilled
seedbeds the best seed-to-soilcontact is achieved when the seedbedis free of clods and when press wheelsor a cultipacker are used to press thesoil onto the seed Many no-till alfalfaplantings fail because they are donewhen the soil is too wet and the seedfurrow does not close resulting inpoor seed-to-soil contact
bull Plant no deeper than frac12 inch
Seeding alfalfa at depths greaterthan frac12 inch makes it difficult or
impossible for the hypocotyl topull the cotyledons above groundespecially in heavy-textured soilsAlfalfa seedlings that do emergefrom deeper than frac12 inch usually areweaker because of greater energyexpenditure during emergence Afirm seedbed is extremely helpful inregulating and maintaining seedingdepth If seed is drilled and noseeds are visible on the surface afterplanting it is likely that the seed wasplanted too deep
Figure 3 The seed on the right is
swollen with water taken up from the
soil This condition marks the first step
in seed germination Under favorable
conditions water uptake begins within
24 to 48 hours after planting
Figure 4 The first part of the seedling to
emerge is the root radicle The radicle
anchors the seedling in the soil and
always grows downward regardless ofthe direction it is pointing when it first
comes out of the seed
G R O W I N G A L F A L F A
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As the radicle tip grows deeper intothe soil the hypocotyl elongatesand pulls the cotyledons and
epicotyl (growing point) above thesoil surface As the cotyledons emerge
above the soil surface the seed coatfalls off and cotyledons open to exposethe epicotyl
Management tipsbull Avoid planting outside
recommended planting window
Planting too early will reduce thegermination rate and increasethe likelihood of disease infectingthe crop Also a few hours of air
temperatures of 24˚
F or lower can killan alfalfa seedling when the secondtrifoliolate leaf has just emerged
bull Provide adequate levels of
nutrients Adequate levels ofnutrients are important for alfalfashoot and root development Nutrientlevels are especially important duringearly seedling establishment toensure a root system large enough tosupport maximum herbage growthfor the life of the plant
bull Minimize risk of soil crusting Soilsthat crust easily create an additionalproblem during alfalfa emergenceThe germinated seed will die ifthe elongating hypocotyl cannot
penetrate this crusted soil and pullthe cotyledons above the soil surfaceExcessive tillage can increase thepotential for crusting Rain irrigationor light tillage may be required tosoften or break the crusted layer
bull Donrsquot plant alfalfa into established
alfalfa fields Established alfalfaplants release a compound into thesoil that reduces germination andgrowth of new alfalfa seedlings aphenomenon known as autotoxicity
or ldquoself-toxicityrdquo The extent ofautotoxicity in a field depends on theamount of alfalfa residue in the soilhow long since the previous stand ofalfalfa was killed soil type amount ofrain or irrigation prior to the seedingof the new crop soil temperature andother factors At high autotoxicityalfalfa germination will be inhibitedat somewhat lower autotoxicity seedwill germinate but plants will bestunted and never yield well To avoidalfalfa autotoxicity in medium toheavy soils plow under or chemicallykill an established alfalfa field thengrow a crop other than alfalfa for oneseason or preferably two seasonsThis also will help reduce disease andinsect populations that may havedeveloped in the original alfalfa field
Figure 5 As the radicle grows the
portion nearest the seed enlarges
and forms a hook It pushes up
through the soil surface dragging
the cotyledons and seed coat with
it Once the seedling emerges aboveground and is exposed to light it
straightens out At the same time
small root hairs are developing on
the lower radicle The root hairs
absorb water and nutrients from the
soil
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6 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Seedling growthamp establishment
The establishment phase isthe period between seedlingemergence and first harvest
Cotyledons turn green after openingbut have limited photosynthetic activityfor the energy stored in the cotelydonsis quickly used up and they soon shrivelturn brown and die The epicotylproduces the first leaf which is a singleleaflet (unifoliolate) The meristematicregion of the epicotyl continues to growadding trifoliate leaves (three-leaflet
leaves) or multifoliolate leaves (morethan three leaflets per leaf) on alternatesides of the developing stem (seefigures 7 8 and 9)
While the epicotyl continues to addstem leaves and flowers the bud inthe axil of the unifoliolate leaf beginsto grow and form a secondary stemAdditional secondary stems developfrom the axillary buds at the cotyledonnodes (the points where cotyledonsattach to the stem) Temperaturesof 68 to 85983770F during early seedlingdevelopment are optimum for growthand development however as theseedling continues to develop slightly
cooler temperatures (60 to 75˚F) areideal
Young seedlings are particularlyvulnerable to diseases andherbicide damage As the seedlings
mature they become more resistant toseedling diseases and less susceptible
to herbicide damage Many herbicideshave application restrictions untila specific growth stage is reachedIt is important to be able recognizeeach growth stage so you can applytreatments at the correct time
Management tipsbull Minimize risks of seedling diseases
Soil moisture is necessary for nutrientabsorption by the roots and for rapidseedling development but excessivesoil moisture can stop root growthWet soil conditions also can leadto fungal diseases such as Pythium
(damping off ) Phytophthora (rootrot) Aphanomyces (damping off) and
Rhizoctonia (stem and root canker)Seed-applied fungicides can reducethe incidence of these diseases butplanting in well-drained soils can dothe same
bull Ensure that there are adequate
amounts of Rhizobium in thesoil Rhizobium bacteria may notbe present if alfalfa has not beengrown recently in the field or if soilpH is low Once pH is corrected usepreinoculated alfalfa seed or inoculatethe seed with live Rhizobium prior toplanting in order to provide adequatebacteria In general inoculation isan inexpensive way of ensuring thatadequate Rhizobium bacteria arepresent
bull Optimize nitrogen-fixing potential
Low soil pH (below 65) limitsnodulation and the availability ofmolybdenum which is essential in thenitrogen fixation process Apply limeif a soil test indicates low pH
Figure 6 Cotyledons are usually
the first visible portion of an alfalfa
seedling as they emerge above the soil
surface
Figure 7 The first true leaf to develop
on an alfalfa seedling has just one
leaflet and is called the unifoliate leaf
G R O W I N G A L F A L F A
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Management tipsbull Control weeds during the first 60
days to prevent stand loss Weeds inestablishing stands may out-compete
and shade young alfalfa plantsthinning the stand All weeds shouldbe controlled in new seedings bothspring and fall Herbicides shouldgenerally be applied as early asalfalfa will tolerate the herbicide I ffor example five leaflets are requiredbefore the herbicide should be usedthis means five trifoliate leaflets (notcounting the unifoliate leaf) mustbe visible with each of the leafletsexpanded so they are not touching
each other (see figure 10)bull When to harvest a new seeding
New plantings should notbe harvested until sufficientcarbohydrates have been stored inthe roots to support rapid regrowthDepending on growing conditionsthis generally occurs around 60days after emergence Delayingharvesting beyond 60 days generallydoes not improve regrowth and maydramatically reduce forage quality
Figure 8 The second
leaf to appear has three
leaflets This is called
a trifoliate leaf Most
subsequent leaves are
trifoliate althoughsome varieties produce
leaves with four or
more leaflets per leaf
and these are called
multifoliate leaves
Figure 10 Counting
only the fully expanded
trifoliate leaves reveals
that this plant is at
the five-leaf stage
A leaf is considered
fully expanded when
the outer edges of all
leaflets are no longer
touching
Figure 9 This plant isat the two-leaf stage
Note the two trifoliate
leaves in addition to
the unifoliate leaf At
this stage the seedling
can manufacture all
of its energy through
photosynthesis
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1022
8 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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The radicle tip continues to grow deeperinto the soil The hypocotyl and upperportion of the radicle begin contractilegrowth a process in which these organsenlarge laterally and contract vertically
The radicle begins to thicken anddevelop into the primary taproot (seefigure 13) At the same time smallersecondary roots begin to develop onthe radicle as it grows deeper The
location and extent of secondary rootformation is genetically regulatedRoot growth during establishment isgenerally about 80 percent of herbagegrowth That is for every ounce ofherbage growth there is 08 ounceof root growth However under hottemperatures (greater than 90degF) rootgrowth may drop to 40 percent ofherbage growth
Within four weeks after germinationroot hairs on the radicle become
infected with the nitrogen fixingbacteria Rhizobium meliloti and beginto form the nodules (see figure 11)where atmospheric nitrogen fixationoccurs The rate of Rhizobium infectiondepends on the soil nitrogen contentand the rate of seedling growth Only
Rhizobium meliloti bacteria will infectalfalfa root hairs Rhizobium bacteria thatinfect other legumes (eg soybeans)are incapable of infecting alfalfa andRhizobium meliloti is incapable ofinfecting other legumes Only about 5percent of the alfalfa root hairs becomeinfected and only about 30 percentof these infections result in noduleformation regardless of the quantity of
Rhizobium present
Management tipsbull Ensure that soil pH and fertility is
optimum for nitrogen fixing Lowsoil pH (below 65) limits nodulation
and the availability of molybdenumwhich is essential in the nitrogenfixation process
bull Factors reducing nitrogen fixation
Waterlogged soils inhibit oxygen andnitrogen movement to the roots andnodules Harvesting alfalfa herbagewill cause nitrogen fixation to declineuntil herbage regrowth is adequateto supply the nodules with sugars(energy) from photosynthesis
Figure 11 Within four weeks after
germination if Rhizobium bacteria
are present round structures called
nodules will form on alfalfa roots The
bacteria help the plant use nitrogen
from the air in a process known as
nitrogen fixation
G R O W I N G A L F A L F A
Nitrogen fixing nodules
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Crown formation anddevelopment
Contractile growth (that pulls thelowermost buds below groundto form a crown) begins as early
as one week after emergence and isusually complete within 16 weeksContractile growth pulls the axillarybuds below the soil and forms thecrown (area between the soil surfaceand the cotyledonary nodes) Alfalfavarieties with greater fall dormancy tendto have more pronounced contractilegrowth than those with less dormancy
their nodes are pulled farther below thesoil surface Plants with deep crownstend to be more persistent than plantswith shallow crowns because they haveincreased soil protection from extremelycold air temperatures Axillary buds thatare pulled below the soil surface duringcontractile growth are referred to ascrown buds
Management tipsbull To allow enough time for crown
development avoid seeding afterthe recommended late-summer
planting dates Plants that have notformed a crown will not survivethe winter Following contractilegrowth alfalfa stems may be frostedbut the plant can survive freezingair temperatures because thecrown buds are protected belowthe soil surface Planting laterthan recommended reduces theprobability of having a successfulyield for the crop will face highertemperatures more soil drying and
more weed problems Summer-seeded alfalfa generally needs aminimum of six weeks of growth afteremergence to survive winter withoutinjury and to produce maximumyields the following year
Even brief exposures to airtemperatures below 27˚ F will killyoung alfalfa seedlings Alfalfa plantssurvive cold temperatures by pullingthe lowermost buds below ground toform a crown
Figure 12 Crown development has not
yet begun on these young plants The
cotyledons though brown are still
present Note the distance between
the nodes on the plants in this picture
compared to the distance between
nodes on the plant in figure 13
Figure 13 The lowermost
buds have been pulled
below ground to form the
crown Crown development
on this plant is already
sufficient for winter survival
The crown will continue to
enlarge throughout the life
of the plant
G R O W I N G A L F A L F A
9
8122019 Alfalfa Germination amp Growth
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10 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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Vegetative stage
D
uring early vegetative growth in the spring or after harvest the alfalfahas insufficient leaf area to produce enough energy purely throughphotosynthesis to support growth Energy for early regrowth comes from
carbohydrates and other nutrients stored in the root and crown Once vegetativegrowth has attained about 8 inches of height leaf area and photosynthesis haveincreased enough to supply adequate energy for continued growth and to beginreplenishing the root and crown reserves
Alfalfa growth in the spring is predominantly from crown buds and depends ontemperature (see figure 14)
Springgreen-up
Spring growth ideally comes fromcrown buds formed the previousyear during late summer and fall
Green-up occurs when the buds locatedon the crown begin to grow in responseto warm spring temperatures Inaddition to weather the timing of springgreen-up depends on plant health thegenetic fall dormancy of the variety andthe amount of dormancy developed inthe plants during the fall (determinedby fall weather conditions) If plants are
injured or slow to green up considerplanting more winter-hardy varieties
Figure 14 This well-developed crown shows healthy crown buds growing to
produce the seasonrsquos first cutting
Crown buds
Developing shoot
Figure 15 Carbohydrate content of alfalfa roots
growthinitiation
6-8 inchheight
budstage
fullflower
r o o t c a r b o h y
d r a t e
cut at full flower
cut atbud stage
8122019 Alfalfa Germination amp Growth
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Growth after cutting
R
egrowth after harvest is primarilyfrom crown buds (figure 14) butmay also come from axillary
buds if cutting is high The number ofstems that develop from either axillaryor crown buds depends on the varietythe developmental stage at the time ofharvest the health of the crown and thecutting height
Environmental conditions play animportant role in determining the rateand amount of vegetative growth Themaximum number of stems on a plantis set within 14 days after harvest and
declines as the plant matures Droughtor flooding stress during the first 14days after harvest can greatly reduce thenumber of stems a plant will produce inthat regrowth period Drought reducesstem growth more than leaf growthcausing shortened plants that are low-yielding but generally high in qualitybecause of increased leaf-to-stem ratio
Immediately after harvest alfalfaregrowth is fastest when temperaturesare 85 to 90˚F However as alfalfa
growth continues maximum growthrate occurs when temperatures arebetween 50 and 80˚F Leaf-to-stem ratiodeclines as the plant matures withineach regrowth period Leaf-to-stemratio is less for growth in spring than inmidsummer The warmer temperaturesand longer days of summer cause morerapid plant development and greatercell wall lignification than occurs in thecooler temperatures and shorter days ofspring
Alfalfa yield is determined by thenumber of stems in a given landarea and the weight of each stemThe maximum number of stems perplant and the weight of each stemare determined during the period ofvegetative development Consequentlyit is important that pH fertility moistureand pests be carefully controlled duringthis period
Management tipsbull The ideal cutting height is at least
2 inches above the soil surface (3 to4 inches if a grass is mixed with the
alfalfa)bull Maximize stem density Short
cutting intervals (less than 35 days)will reduce the number of axillarybuds Moisture stress immediatelyafter cutting will reduce the numberof crown and axillary buds andtherefore will reduce stem densityand yield even if rain occurs later inthe growth cycle
Figure 16 and 17 Regrowth after cutting arises primarily from
crown buds and also from axillary buds if forage is cut high
Axillary buds occur wherever a leaf petiol attaches to the stem
G R O W I N G A L F A L F A
11
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12 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Figure 18 The plant on
the left has suffered
winter injury while
the plant on the right
has not Injured plants
become less vigorous
and are slow to recover
G R O W I N G A L F A L F A
Winter hardeningand winter survival
Shortening days and decliningtemperatures in the fall can cause
some alfalfa varieties to changetheir vegetative growth pattern Stemgrowth in the fall serves as the basisfor assigning varieties a relative falldormancy rating A fall dormancy of1 indicates the greatest fall dormancyand least height of fall growth whilea rating of 11 indicates the least falldormancy and greatest height of fallgrowth Usually the more fall-dormantthe variety the slower it regrowsafter harvest but the better it survives
adverse winter conditions
During the fall dormant varieties altertheir chemical processes to prepare for
winter survival Some of the starch inthe crown and root is converted intosugars that function as antifreeze andhelp keep the crown crown buds androot from freezing at temperatures wellbelow 32˚F Crown buds which willbe the source of growth the followingspring are formed during the fall
Dormant alfalfa varieties can survivetemperatures of about 5˚F after theyhave been prepared for winter survivalby having had at least two weeks oftemperatures alternating between near-freezing nights and 60˚F days Planttissue below the soil surface is insulatedfrom cold air temperatures by soil andlayers of snow When there is no snowcover extremely cold air temperaturescan cause the soil temperature to dropbelow 5˚F This will injure or possibly killthe alfalfa plant
When to cutManagement tips
When to cut for hay or haylageForage yield quality and standpersistence are affected by the
cutting schedule chosen Forage yieldincreases until the plant reaches fullflower while forage quality decreasescontinually during growth Cutting forhigh quality will reduce total seasonyield so one must ensure that the highquality will produce a return to offsetthe yield loss Early season growth maynot flower normally and quality will
decline if it doesnrsquot Therefore using aforage quality stick (available from somestate forage associations and somealfalfa seed marketing companies) ormeasuring forage height and plantstage (as described later) is crucial indetermining when to do the first cuttingin order to harvest alfalfa of the desiredquality The stage to cut alfalfa foroptimum forage quality for dairy cattleranges from the vegetative to early budstage on first cutting and is generally at
bud stage on later cuttings Later stagesmay be harvested for animals with lowernutritional requirements
bull Watch for pests Some insect pestsfeed on the alfalfa bud and flowerExcessive numbers of these insectsin an alfalfa field can remove budsas they form causing the casualobserver to assume that the alfalfahas not begun to form buds Ifinitiation of alfalfa harvesting is based
on plant development then carefulmonitoring of insect populations andplant development is necessary
Figure 19 If crown buds have been
killed the plant must form new
buds to replace them The taller
shoots are from buds that survived
the winter the lower layer of shoots
are from spring-formed buds
8122019 Alfalfa Germination amp Growth
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bull Understand the risks of harvesting
during the bud stage Alfalfavarieties developed in the past 10
years have greater disease resistancethan older varieties With adequatefertility and pest control these newervarieties can survive aggressiveharvest schedules better than oldervarieties In addition newer alfalfavarieties have been selected for rapidregrowth which increases their yieldpotential Faster regrowth is a resultof decreased production of auxin (aplant hormone) during the flower budstage allowing earlier regrowth fromcrown buds Harvesting during theflower bud stage provides relativelyhigh forage quality but continuouslyharvesting at this stage will result inlow root carbohydrate reserves andstand decline Alfalfa stands that areintended to remain in productionfor more than three years must beallowed to mature beyond the flowerbud stage at least once during theseason to replenish root reserves
bull Forage yield quality and stand
persistence are considerations
when deciding when to cut
Forage yield increases until the plantreaches full flower while foragequality decreases continually duringgrowth or regrowth (see figure 20)The optimum balance between yieldand quality depends on the cuttingand the forage quality desired Earlyin the growing season plants maynot flower normally and quality maydecline even though the plant is notflowering This can be determinedusing a forage quality stick or bymeasuring plant height Take latercuttings based on growth stage ortime interval (35 to 45 days)
bull The stage to cut alfalfa for
optimum yield and forage quality for milking dairy cows ranges fromthe vegetative to early bud stageon the first cutting to 10 percentflower on the second and thirdcuttings to full flower on a latefall cutting For animals with lower
nutritional requirements later stagesmay be harvested The pictures onthe following pages depict growthstages commonly referred to whendiscussing cutting management
forage yield
first-cut forage quality
late-season forage
quality
vegetative bud first-flower full-flower post-flower
Figure 20 Forage yield and quality at various stages of growth
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Flowering processFlower bud stage
The formation of a flower budmarks a major transition in alfalfagrowth and development Up
to this point the alfalfa plant has beenusing energy from photosynthesis tobuild a larger photosynthetic factory(more leaves) and to store energyin the crown and roots When floraldevelopment begins the plant shifts alarge portion of its energy into flowerproduction and ultimately seedproduction
Alfalfa has an indeterminate growthpattern meaning it continues toproduce both leaves and stems along
with reproductive (bud) structuresBecause of this it is possible to have asingle alfalfa stem with newly emergedleaves flower buds flowers andseedpods Continued vegetative growthmeans the alfalfa crop will increasethrough the flower bud and early flowerstage of development
The onset of floral development iscontrolled primarily by temperatureand photoperiod In midsummer flower
buds may appear on alfalfa regrowththree weeks earlier than in the springwhen temperatures are lower andthe photoperiod shorter Flower budsbegin to appear at the 6th through14th node on the stem depending onenvironmental and genetic factorsFlower bud formation usually beginsat lower nodes in summer (6th through8th nodes) than in spring After the firstflower bud appears a new bud willappear about every three days until the
stem is harvested or reaches maturity
Early budFigure 21 The flowering process
begins when small buds form in the
top one or two leaf axils These buds
are detectable as small swellings in
the axils of the leaves Forage cut at
this stage will be very high in quality
However yield will be reduced Cutting
several times per season at this stage
will decrease persistence
Mid budFigure 22 At the mid bud stage flower
buds are larger and easier to detect
Some buds are beginning to lengthen
Additional buds are forming lower on
the stem
Late budFigure 23 At the late bud stage flower
buds are large and lengthening rapidly
Buds begin developing at three or more
leaf axils lower on the stem
8122019 Alfalfa Germination amp Growth
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The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
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16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
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Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
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18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
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Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
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Contents
Basics of alfalfa growth 2
The seed 3
Germination and emergence 4
Seedling growth and establishment 6
Crown formation and development 9
Vegetative stage 10
Spring green-up 10
Growth after cutting 11
Winter hardening and winter survival 12
When to cut 13
Flowering process 14
Estimating preharvest alfalfa quality 17
Summary of management tips 17
Glossary 18
Knowing how alfalfa germinates
will help producers create
conditions necessary for good
stand establishment Knowing how
seedlings develop will be useful in
determining when to control diseases
insects and weeds Understanding
patterns of growthmdashspring green-up
and growth after cuttingmdashwill aid in
identifying winter injury and disease
problems and in managing weeds
And being familiar with the mature
stages of alfalfa growth will be helpful
when making decisions about when
to cut in order to ensure the maximum
yield of forage of the quality required
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2 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
Basics of alfalfa growth
A
lfalfa growth is driven byphotosynthesis a process thatcaptures the sunrsquos energy and
converts it into chemical energy Glucosesugar is the primary chemical energyproduct of photosynthesis Glucosecombines with other nutrient elementsto provide all the components neededfor alfalfa growth
Alfalfa requires nitrogen phosphoruspotassium sulfur calcium magnesiumiron boron manganese zinc coppermolybdenum and a few othermicronutrients for growth These
nutrients along with water are absorbedby the root from the soil Also sometrace minerals may be taken up throughthe leaves if they are applied foliarlyPart of the nitrogen needed for growthis obtained from bacterial nitrogenfixation in the root nodules if soil pH issufficiently high (65 or more)
Living cells extract energy from glucosethrough a process called respiration Foralfalfa to have sustained growth glucoseproduction by photosynthesis must begreater than glucose use by respiration
Alfalfa cells divide to produce new cellsat the tips of stems and roots in tissueknown as the apical meristem Belowthe apical meristem of the stem cells ofthe stems (but not the leaves) developthicker walls which contain more ligninand are less digestible Consequentlythe oldest and least digestible part ofthe alfalfa stem is at the bottom whilethe youngest and most digestible part is
at the top
At points where leaf petioles and stembranches attach to the stem are axillarybuds (see figure 1) Axillary buds contain
meristematic (growing) tissue whichcan develop into leaves stem branchesor new stems Axillary buds generallyremain inactive until the apical meristembegins producing flower buds or isremoved Alfalfa cut high may regrowfrom axillary buds rather than fromcrown buds which generally meansyield will be reduced because of theexcessive forage left in the field as aresult of cutting the alfalfa higher
Leaflets
Petiol
Axillary buds
Radicle
Hypocotyl
Unifoliate leaf
Apical meristem
Figure 1 The parts of an alfalfa plant
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Figure 2 Alfalfa seed external and internal views
The seed
A
lfalfa seeds are generally kidneyshaped small (983090frasl9830911048626 by 983089frasl9830911048626 by 983089frasl9830911048626inch with about 225000 seeds
to a pound) and yellow-brown to olivegreen in color The seed consists of twocotyledons (embryonic leaves) a radicle(embryonic root) a hypocotyl (the areaof radicle just below the cotyledons)and an epicotyl (embryonic stem) Allof these embryonic plant parts aresurrounded by a protective seed coat(see figure 2) Carbohydrates proteinsand fats stored in the cotyledonssupply the energy needed duringgermination until the true leaves beginphotosynthesis The radicle becomesthe primary root and is the initialanchoring and absorption structureduring alfalfa emergence The epicotylis the growing point (where themeristematic tissue is located) of thefuture stem and is protected betweenthe two cotyledons until the cotyledonsare above ground and separate Thescar tissue on the seed coat knownas the hilum is the previous point of
attachment of the seed to the pod
Sometimes an alfalfa seed may have acoat not permeable to water and this isknown as a ldquohard seedrdquo A hard seed can
lie dormant in the soil for several weeksor years before germinating Hard seedpercentage is noted on the seed tagand is included in the total germinationcalculation Most hard seed germinateswithin 30 to 60 days of planting Alfalfahard seed cannot be depended upon tothicken a thin stand
Several kinds of coatingsmdashfor examplefungicide Rhizobium bacteria nutrientslime or claymdashmay be applied to the
seed as it is processed and preparedfor marketing In general these seedcoatings have no effect on seed qualitybut are placed on the seed to aidgrowth and development after planting
Management tipsbull Store seed at cool temperatures
and in low humidity Manyprecautions are taken by the alfalfa
seed industry to ensure that thepurchaser receives very high-qualityweed-free seed Decline in seedquality on the farm can be slowed bystoring seed in a cool dry place
bull Re-inoculate with Rhizobium
bacteria if stored beyond
expiration date Alfalfa is generallyinoculated with Rhizobium (a bacteriaresponsible for nitrogen fixation)during seed processing How long
Rhizobium will live depends on
environmental conditions during seedstorage Preinoculated seed storedbeyond the Rhizobium expirationdate (printed on the seed bag label)should be inoculated again with freshRhizobium before planting
External Internal
Seed coat
Cotyledon
Hilum
Radicle
Epicotyl
Hypocotyl
G R O W I N G A L F A L F A
3
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4 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
Germination amp emergence
A
lfalfa seeds begin to germinateafter absorbing about 125percent of their weight in water
and swelling to break the seed coat(see figure 3) Alfalfa can germinateat temperatures greater than 37˚F butoptimum germination temperature isbetween 65 and 77˚F As soil warms therate of germination increases becauseof increased water movement intothe seed and because of increases inthe rate of other metabolic activitiesassociated with germination
Germination begins with the radicle(young root) emerging through theseed coat near the hilum (see figure 4)
and anchoring itself in the soil as anunbranched tap root (see figure 5)
Supplying the right conditionswill help to assure maximumgermination Prepare a firm weed-
free seedbed to minimize competitionfrom weeds and to ensure good seed-
to-soil contact Avoid overworking thesoil surface as rainfall following seedingmay crust the surface preventingseedling emergence
Management tipsbull Optimize seed-to-soil contact
Poor seed-to-soil contact restrictswater movement from the soil to theseed and causes poor or sporadicgermination In conventionally tilled
seedbeds the best seed-to-soilcontact is achieved when the seedbedis free of clods and when press wheelsor a cultipacker are used to press thesoil onto the seed Many no-till alfalfaplantings fail because they are donewhen the soil is too wet and the seedfurrow does not close resulting inpoor seed-to-soil contact
bull Plant no deeper than frac12 inch
Seeding alfalfa at depths greaterthan frac12 inch makes it difficult or
impossible for the hypocotyl topull the cotyledons above groundespecially in heavy-textured soilsAlfalfa seedlings that do emergefrom deeper than frac12 inch usually areweaker because of greater energyexpenditure during emergence Afirm seedbed is extremely helpful inregulating and maintaining seedingdepth If seed is drilled and noseeds are visible on the surface afterplanting it is likely that the seed wasplanted too deep
Figure 3 The seed on the right is
swollen with water taken up from the
soil This condition marks the first step
in seed germination Under favorable
conditions water uptake begins within
24 to 48 hours after planting
Figure 4 The first part of the seedling to
emerge is the root radicle The radicle
anchors the seedling in the soil and
always grows downward regardless ofthe direction it is pointing when it first
comes out of the seed
G R O W I N G A L F A L F A
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As the radicle tip grows deeper intothe soil the hypocotyl elongatesand pulls the cotyledons and
epicotyl (growing point) above thesoil surface As the cotyledons emerge
above the soil surface the seed coatfalls off and cotyledons open to exposethe epicotyl
Management tipsbull Avoid planting outside
recommended planting window
Planting too early will reduce thegermination rate and increasethe likelihood of disease infectingthe crop Also a few hours of air
temperatures of 24˚
F or lower can killan alfalfa seedling when the secondtrifoliolate leaf has just emerged
bull Provide adequate levels of
nutrients Adequate levels ofnutrients are important for alfalfashoot and root development Nutrientlevels are especially important duringearly seedling establishment toensure a root system large enough tosupport maximum herbage growthfor the life of the plant
bull Minimize risk of soil crusting Soilsthat crust easily create an additionalproblem during alfalfa emergenceThe germinated seed will die ifthe elongating hypocotyl cannot
penetrate this crusted soil and pullthe cotyledons above the soil surfaceExcessive tillage can increase thepotential for crusting Rain irrigationor light tillage may be required tosoften or break the crusted layer
bull Donrsquot plant alfalfa into established
alfalfa fields Established alfalfaplants release a compound into thesoil that reduces germination andgrowth of new alfalfa seedlings aphenomenon known as autotoxicity
or ldquoself-toxicityrdquo The extent ofautotoxicity in a field depends on theamount of alfalfa residue in the soilhow long since the previous stand ofalfalfa was killed soil type amount ofrain or irrigation prior to the seedingof the new crop soil temperature andother factors At high autotoxicityalfalfa germination will be inhibitedat somewhat lower autotoxicity seedwill germinate but plants will bestunted and never yield well To avoidalfalfa autotoxicity in medium toheavy soils plow under or chemicallykill an established alfalfa field thengrow a crop other than alfalfa for oneseason or preferably two seasonsThis also will help reduce disease andinsect populations that may havedeveloped in the original alfalfa field
Figure 5 As the radicle grows the
portion nearest the seed enlarges
and forms a hook It pushes up
through the soil surface dragging
the cotyledons and seed coat with
it Once the seedling emerges aboveground and is exposed to light it
straightens out At the same time
small root hairs are developing on
the lower radicle The root hairs
absorb water and nutrients from the
soil
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6 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
Seedling growthamp establishment
The establishment phase isthe period between seedlingemergence and first harvest
Cotyledons turn green after openingbut have limited photosynthetic activityfor the energy stored in the cotelydonsis quickly used up and they soon shrivelturn brown and die The epicotylproduces the first leaf which is a singleleaflet (unifoliolate) The meristematicregion of the epicotyl continues to growadding trifoliate leaves (three-leaflet
leaves) or multifoliolate leaves (morethan three leaflets per leaf) on alternatesides of the developing stem (seefigures 7 8 and 9)
While the epicotyl continues to addstem leaves and flowers the bud inthe axil of the unifoliolate leaf beginsto grow and form a secondary stemAdditional secondary stems developfrom the axillary buds at the cotyledonnodes (the points where cotyledonsattach to the stem) Temperaturesof 68 to 85983770F during early seedlingdevelopment are optimum for growthand development however as theseedling continues to develop slightly
cooler temperatures (60 to 75˚F) areideal
Young seedlings are particularlyvulnerable to diseases andherbicide damage As the seedlings
mature they become more resistant toseedling diseases and less susceptible
to herbicide damage Many herbicideshave application restrictions untila specific growth stage is reachedIt is important to be able recognizeeach growth stage so you can applytreatments at the correct time
Management tipsbull Minimize risks of seedling diseases
Soil moisture is necessary for nutrientabsorption by the roots and for rapidseedling development but excessivesoil moisture can stop root growthWet soil conditions also can leadto fungal diseases such as Pythium
(damping off ) Phytophthora (rootrot) Aphanomyces (damping off) and
Rhizoctonia (stem and root canker)Seed-applied fungicides can reducethe incidence of these diseases butplanting in well-drained soils can dothe same
bull Ensure that there are adequate
amounts of Rhizobium in thesoil Rhizobium bacteria may notbe present if alfalfa has not beengrown recently in the field or if soilpH is low Once pH is corrected usepreinoculated alfalfa seed or inoculatethe seed with live Rhizobium prior toplanting in order to provide adequatebacteria In general inoculation isan inexpensive way of ensuring thatadequate Rhizobium bacteria arepresent
bull Optimize nitrogen-fixing potential
Low soil pH (below 65) limitsnodulation and the availability ofmolybdenum which is essential in thenitrogen fixation process Apply limeif a soil test indicates low pH
Figure 6 Cotyledons are usually
the first visible portion of an alfalfa
seedling as they emerge above the soil
surface
Figure 7 The first true leaf to develop
on an alfalfa seedling has just one
leaflet and is called the unifoliate leaf
G R O W I N G A L F A L F A
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Management tipsbull Control weeds during the first 60
days to prevent stand loss Weeds inestablishing stands may out-compete
and shade young alfalfa plantsthinning the stand All weeds shouldbe controlled in new seedings bothspring and fall Herbicides shouldgenerally be applied as early asalfalfa will tolerate the herbicide I ffor example five leaflets are requiredbefore the herbicide should be usedthis means five trifoliate leaflets (notcounting the unifoliate leaf) mustbe visible with each of the leafletsexpanded so they are not touching
each other (see figure 10)bull When to harvest a new seeding
New plantings should notbe harvested until sufficientcarbohydrates have been stored inthe roots to support rapid regrowthDepending on growing conditionsthis generally occurs around 60days after emergence Delayingharvesting beyond 60 days generallydoes not improve regrowth and maydramatically reduce forage quality
Figure 8 The second
leaf to appear has three
leaflets This is called
a trifoliate leaf Most
subsequent leaves are
trifoliate althoughsome varieties produce
leaves with four or
more leaflets per leaf
and these are called
multifoliate leaves
Figure 10 Counting
only the fully expanded
trifoliate leaves reveals
that this plant is at
the five-leaf stage
A leaf is considered
fully expanded when
the outer edges of all
leaflets are no longer
touching
Figure 9 This plant isat the two-leaf stage
Note the two trifoliate
leaves in addition to
the unifoliate leaf At
this stage the seedling
can manufacture all
of its energy through
photosynthesis
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8 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
The radicle tip continues to grow deeperinto the soil The hypocotyl and upperportion of the radicle begin contractilegrowth a process in which these organsenlarge laterally and contract vertically
The radicle begins to thicken anddevelop into the primary taproot (seefigure 13) At the same time smallersecondary roots begin to develop onthe radicle as it grows deeper The
location and extent of secondary rootformation is genetically regulatedRoot growth during establishment isgenerally about 80 percent of herbagegrowth That is for every ounce ofherbage growth there is 08 ounceof root growth However under hottemperatures (greater than 90degF) rootgrowth may drop to 40 percent ofherbage growth
Within four weeks after germinationroot hairs on the radicle become
infected with the nitrogen fixingbacteria Rhizobium meliloti and beginto form the nodules (see figure 11)where atmospheric nitrogen fixationoccurs The rate of Rhizobium infectiondepends on the soil nitrogen contentand the rate of seedling growth Only
Rhizobium meliloti bacteria will infectalfalfa root hairs Rhizobium bacteria thatinfect other legumes (eg soybeans)are incapable of infecting alfalfa andRhizobium meliloti is incapable ofinfecting other legumes Only about 5percent of the alfalfa root hairs becomeinfected and only about 30 percentof these infections result in noduleformation regardless of the quantity of
Rhizobium present
Management tipsbull Ensure that soil pH and fertility is
optimum for nitrogen fixing Lowsoil pH (below 65) limits nodulation
and the availability of molybdenumwhich is essential in the nitrogenfixation process
bull Factors reducing nitrogen fixation
Waterlogged soils inhibit oxygen andnitrogen movement to the roots andnodules Harvesting alfalfa herbagewill cause nitrogen fixation to declineuntil herbage regrowth is adequateto supply the nodules with sugars(energy) from photosynthesis
Figure 11 Within four weeks after
germination if Rhizobium bacteria
are present round structures called
nodules will form on alfalfa roots The
bacteria help the plant use nitrogen
from the air in a process known as
nitrogen fixation
G R O W I N G A L F A L F A
Nitrogen fixing nodules
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Crown formation anddevelopment
Contractile growth (that pulls thelowermost buds below groundto form a crown) begins as early
as one week after emergence and isusually complete within 16 weeksContractile growth pulls the axillarybuds below the soil and forms thecrown (area between the soil surfaceand the cotyledonary nodes) Alfalfavarieties with greater fall dormancy tendto have more pronounced contractilegrowth than those with less dormancy
their nodes are pulled farther below thesoil surface Plants with deep crownstend to be more persistent than plantswith shallow crowns because they haveincreased soil protection from extremelycold air temperatures Axillary buds thatare pulled below the soil surface duringcontractile growth are referred to ascrown buds
Management tipsbull To allow enough time for crown
development avoid seeding afterthe recommended late-summer
planting dates Plants that have notformed a crown will not survivethe winter Following contractilegrowth alfalfa stems may be frostedbut the plant can survive freezingair temperatures because thecrown buds are protected belowthe soil surface Planting laterthan recommended reduces theprobability of having a successfulyield for the crop will face highertemperatures more soil drying and
more weed problems Summer-seeded alfalfa generally needs aminimum of six weeks of growth afteremergence to survive winter withoutinjury and to produce maximumyields the following year
Even brief exposures to airtemperatures below 27˚ F will killyoung alfalfa seedlings Alfalfa plantssurvive cold temperatures by pullingthe lowermost buds below ground toform a crown
Figure 12 Crown development has not
yet begun on these young plants The
cotyledons though brown are still
present Note the distance between
the nodes on the plants in this picture
compared to the distance between
nodes on the plant in figure 13
Figure 13 The lowermost
buds have been pulled
below ground to form the
crown Crown development
on this plant is already
sufficient for winter survival
The crown will continue to
enlarge throughout the life
of the plant
G R O W I N G A L F A L F A
9
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10 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Vegetative stage
D
uring early vegetative growth in the spring or after harvest the alfalfahas insufficient leaf area to produce enough energy purely throughphotosynthesis to support growth Energy for early regrowth comes from
carbohydrates and other nutrients stored in the root and crown Once vegetativegrowth has attained about 8 inches of height leaf area and photosynthesis haveincreased enough to supply adequate energy for continued growth and to beginreplenishing the root and crown reserves
Alfalfa growth in the spring is predominantly from crown buds and depends ontemperature (see figure 14)
Springgreen-up
Spring growth ideally comes fromcrown buds formed the previousyear during late summer and fall
Green-up occurs when the buds locatedon the crown begin to grow in responseto warm spring temperatures Inaddition to weather the timing of springgreen-up depends on plant health thegenetic fall dormancy of the variety andthe amount of dormancy developed inthe plants during the fall (determinedby fall weather conditions) If plants are
injured or slow to green up considerplanting more winter-hardy varieties
Figure 14 This well-developed crown shows healthy crown buds growing to
produce the seasonrsquos first cutting
Crown buds
Developing shoot
Figure 15 Carbohydrate content of alfalfa roots
growthinitiation
6-8 inchheight
budstage
fullflower
r o o t c a r b o h y
d r a t e
cut at full flower
cut atbud stage
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Growth after cutting
R
egrowth after harvest is primarilyfrom crown buds (figure 14) butmay also come from axillary
buds if cutting is high The number ofstems that develop from either axillaryor crown buds depends on the varietythe developmental stage at the time ofharvest the health of the crown and thecutting height
Environmental conditions play animportant role in determining the rateand amount of vegetative growth Themaximum number of stems on a plantis set within 14 days after harvest and
declines as the plant matures Droughtor flooding stress during the first 14days after harvest can greatly reduce thenumber of stems a plant will produce inthat regrowth period Drought reducesstem growth more than leaf growthcausing shortened plants that are low-yielding but generally high in qualitybecause of increased leaf-to-stem ratio
Immediately after harvest alfalfaregrowth is fastest when temperaturesare 85 to 90˚F However as alfalfa
growth continues maximum growthrate occurs when temperatures arebetween 50 and 80˚F Leaf-to-stem ratiodeclines as the plant matures withineach regrowth period Leaf-to-stemratio is less for growth in spring than inmidsummer The warmer temperaturesand longer days of summer cause morerapid plant development and greatercell wall lignification than occurs in thecooler temperatures and shorter days ofspring
Alfalfa yield is determined by thenumber of stems in a given landarea and the weight of each stemThe maximum number of stems perplant and the weight of each stemare determined during the period ofvegetative development Consequentlyit is important that pH fertility moistureand pests be carefully controlled duringthis period
Management tipsbull The ideal cutting height is at least
2 inches above the soil surface (3 to4 inches if a grass is mixed with the
alfalfa)bull Maximize stem density Short
cutting intervals (less than 35 days)will reduce the number of axillarybuds Moisture stress immediatelyafter cutting will reduce the numberof crown and axillary buds andtherefore will reduce stem densityand yield even if rain occurs later inthe growth cycle
Figure 16 and 17 Regrowth after cutting arises primarily from
crown buds and also from axillary buds if forage is cut high
Axillary buds occur wherever a leaf petiol attaches to the stem
G R O W I N G A L F A L F A
11
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12 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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Figure 18 The plant on
the left has suffered
winter injury while
the plant on the right
has not Injured plants
become less vigorous
and are slow to recover
G R O W I N G A L F A L F A
Winter hardeningand winter survival
Shortening days and decliningtemperatures in the fall can cause
some alfalfa varieties to changetheir vegetative growth pattern Stemgrowth in the fall serves as the basisfor assigning varieties a relative falldormancy rating A fall dormancy of1 indicates the greatest fall dormancyand least height of fall growth whilea rating of 11 indicates the least falldormancy and greatest height of fallgrowth Usually the more fall-dormantthe variety the slower it regrowsafter harvest but the better it survives
adverse winter conditions
During the fall dormant varieties altertheir chemical processes to prepare for
winter survival Some of the starch inthe crown and root is converted intosugars that function as antifreeze andhelp keep the crown crown buds androot from freezing at temperatures wellbelow 32˚F Crown buds which willbe the source of growth the followingspring are formed during the fall
Dormant alfalfa varieties can survivetemperatures of about 5˚F after theyhave been prepared for winter survivalby having had at least two weeks oftemperatures alternating between near-freezing nights and 60˚F days Planttissue below the soil surface is insulatedfrom cold air temperatures by soil andlayers of snow When there is no snowcover extremely cold air temperaturescan cause the soil temperature to dropbelow 5˚F This will injure or possibly killthe alfalfa plant
When to cutManagement tips
When to cut for hay or haylageForage yield quality and standpersistence are affected by the
cutting schedule chosen Forage yieldincreases until the plant reaches fullflower while forage quality decreasescontinually during growth Cutting forhigh quality will reduce total seasonyield so one must ensure that the highquality will produce a return to offsetthe yield loss Early season growth maynot flower normally and quality will
decline if it doesnrsquot Therefore using aforage quality stick (available from somestate forage associations and somealfalfa seed marketing companies) ormeasuring forage height and plantstage (as described later) is crucial indetermining when to do the first cuttingin order to harvest alfalfa of the desiredquality The stage to cut alfalfa foroptimum forage quality for dairy cattleranges from the vegetative to early budstage on first cutting and is generally at
bud stage on later cuttings Later stagesmay be harvested for animals with lowernutritional requirements
bull Watch for pests Some insect pestsfeed on the alfalfa bud and flowerExcessive numbers of these insectsin an alfalfa field can remove budsas they form causing the casualobserver to assume that the alfalfahas not begun to form buds Ifinitiation of alfalfa harvesting is based
on plant development then carefulmonitoring of insect populations andplant development is necessary
Figure 19 If crown buds have been
killed the plant must form new
buds to replace them The taller
shoots are from buds that survived
the winter the lower layer of shoots
are from spring-formed buds
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bull Understand the risks of harvesting
during the bud stage Alfalfavarieties developed in the past 10
years have greater disease resistancethan older varieties With adequatefertility and pest control these newervarieties can survive aggressiveharvest schedules better than oldervarieties In addition newer alfalfavarieties have been selected for rapidregrowth which increases their yieldpotential Faster regrowth is a resultof decreased production of auxin (aplant hormone) during the flower budstage allowing earlier regrowth fromcrown buds Harvesting during theflower bud stage provides relativelyhigh forage quality but continuouslyharvesting at this stage will result inlow root carbohydrate reserves andstand decline Alfalfa stands that areintended to remain in productionfor more than three years must beallowed to mature beyond the flowerbud stage at least once during theseason to replenish root reserves
bull Forage yield quality and stand
persistence are considerations
when deciding when to cut
Forage yield increases until the plantreaches full flower while foragequality decreases continually duringgrowth or regrowth (see figure 20)The optimum balance between yieldand quality depends on the cuttingand the forage quality desired Earlyin the growing season plants maynot flower normally and quality maydecline even though the plant is notflowering This can be determinedusing a forage quality stick or bymeasuring plant height Take latercuttings based on growth stage ortime interval (35 to 45 days)
bull The stage to cut alfalfa for
optimum yield and forage quality for milking dairy cows ranges fromthe vegetative to early bud stageon the first cutting to 10 percentflower on the second and thirdcuttings to full flower on a latefall cutting For animals with lower
nutritional requirements later stagesmay be harvested The pictures onthe following pages depict growthstages commonly referred to whendiscussing cutting management
forage yield
first-cut forage quality
late-season forage
quality
vegetative bud first-flower full-flower post-flower
Figure 20 Forage yield and quality at various stages of growth
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Flowering processFlower bud stage
The formation of a flower budmarks a major transition in alfalfagrowth and development Up
to this point the alfalfa plant has beenusing energy from photosynthesis tobuild a larger photosynthetic factory(more leaves) and to store energyin the crown and roots When floraldevelopment begins the plant shifts alarge portion of its energy into flowerproduction and ultimately seedproduction
Alfalfa has an indeterminate growthpattern meaning it continues toproduce both leaves and stems along
with reproductive (bud) structuresBecause of this it is possible to have asingle alfalfa stem with newly emergedleaves flower buds flowers andseedpods Continued vegetative growthmeans the alfalfa crop will increasethrough the flower bud and early flowerstage of development
The onset of floral development iscontrolled primarily by temperatureand photoperiod In midsummer flower
buds may appear on alfalfa regrowththree weeks earlier than in the springwhen temperatures are lower andthe photoperiod shorter Flower budsbegin to appear at the 6th through14th node on the stem depending onenvironmental and genetic factorsFlower bud formation usually beginsat lower nodes in summer (6th through8th nodes) than in spring After the firstflower bud appears a new bud willappear about every three days until the
stem is harvested or reaches maturity
Early budFigure 21 The flowering process
begins when small buds form in the
top one or two leaf axils These buds
are detectable as small swellings in
the axils of the leaves Forage cut at
this stage will be very high in quality
However yield will be reduced Cutting
several times per season at this stage
will decrease persistence
Mid budFigure 22 At the mid bud stage flower
buds are larger and easier to detect
Some buds are beginning to lengthen
Additional buds are forming lower on
the stem
Late budFigure 23 At the late bud stage flower
buds are large and lengthening rapidly
Buds begin developing at three or more
leaf axils lower on the stem
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The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
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16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
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Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
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18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
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Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
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Contents
Basics of alfalfa growth 2
The seed 3
Germination and emergence 4
Seedling growth and establishment 6
Crown formation and development 9
Vegetative stage 10
Spring green-up 10
Growth after cutting 11
Winter hardening and winter survival 12
When to cut 13
Flowering process 14
Estimating preharvest alfalfa quality 17
Summary of management tips 17
Glossary 18
Knowing how alfalfa germinates
will help producers create
conditions necessary for good
stand establishment Knowing how
seedlings develop will be useful in
determining when to control diseases
insects and weeds Understanding
patterns of growthmdashspring green-up
and growth after cuttingmdashwill aid in
identifying winter injury and disease
problems and in managing weeds
And being familiar with the mature
stages of alfalfa growth will be helpful
when making decisions about when
to cut in order to ensure the maximum
yield of forage of the quality required
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2 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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N
Y
Basics of alfalfa growth
A
lfalfa growth is driven byphotosynthesis a process thatcaptures the sunrsquos energy and
converts it into chemical energy Glucosesugar is the primary chemical energyproduct of photosynthesis Glucosecombines with other nutrient elementsto provide all the components neededfor alfalfa growth
Alfalfa requires nitrogen phosphoruspotassium sulfur calcium magnesiumiron boron manganese zinc coppermolybdenum and a few othermicronutrients for growth These
nutrients along with water are absorbedby the root from the soil Also sometrace minerals may be taken up throughthe leaves if they are applied foliarlyPart of the nitrogen needed for growthis obtained from bacterial nitrogenfixation in the root nodules if soil pH issufficiently high (65 or more)
Living cells extract energy from glucosethrough a process called respiration Foralfalfa to have sustained growth glucoseproduction by photosynthesis must begreater than glucose use by respiration
Alfalfa cells divide to produce new cellsat the tips of stems and roots in tissueknown as the apical meristem Belowthe apical meristem of the stem cells ofthe stems (but not the leaves) developthicker walls which contain more ligninand are less digestible Consequentlythe oldest and least digestible part ofthe alfalfa stem is at the bottom whilethe youngest and most digestible part is
at the top
At points where leaf petioles and stembranches attach to the stem are axillarybuds (see figure 1) Axillary buds contain
meristematic (growing) tissue whichcan develop into leaves stem branchesor new stems Axillary buds generallyremain inactive until the apical meristembegins producing flower buds or isremoved Alfalfa cut high may regrowfrom axillary buds rather than fromcrown buds which generally meansyield will be reduced because of theexcessive forage left in the field as aresult of cutting the alfalfa higher
Leaflets
Petiol
Axillary buds
Radicle
Hypocotyl
Unifoliate leaf
Apical meristem
Figure 1 The parts of an alfalfa plant
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Figure 2 Alfalfa seed external and internal views
The seed
A
lfalfa seeds are generally kidneyshaped small (983090frasl9830911048626 by 983089frasl9830911048626 by 983089frasl9830911048626inch with about 225000 seeds
to a pound) and yellow-brown to olivegreen in color The seed consists of twocotyledons (embryonic leaves) a radicle(embryonic root) a hypocotyl (the areaof radicle just below the cotyledons)and an epicotyl (embryonic stem) Allof these embryonic plant parts aresurrounded by a protective seed coat(see figure 2) Carbohydrates proteinsand fats stored in the cotyledonssupply the energy needed duringgermination until the true leaves beginphotosynthesis The radicle becomesthe primary root and is the initialanchoring and absorption structureduring alfalfa emergence The epicotylis the growing point (where themeristematic tissue is located) of thefuture stem and is protected betweenthe two cotyledons until the cotyledonsare above ground and separate Thescar tissue on the seed coat knownas the hilum is the previous point of
attachment of the seed to the pod
Sometimes an alfalfa seed may have acoat not permeable to water and this isknown as a ldquohard seedrdquo A hard seed can
lie dormant in the soil for several weeksor years before germinating Hard seedpercentage is noted on the seed tagand is included in the total germinationcalculation Most hard seed germinateswithin 30 to 60 days of planting Alfalfahard seed cannot be depended upon tothicken a thin stand
Several kinds of coatingsmdashfor examplefungicide Rhizobium bacteria nutrientslime or claymdashmay be applied to the
seed as it is processed and preparedfor marketing In general these seedcoatings have no effect on seed qualitybut are placed on the seed to aidgrowth and development after planting
Management tipsbull Store seed at cool temperatures
and in low humidity Manyprecautions are taken by the alfalfa
seed industry to ensure that thepurchaser receives very high-qualityweed-free seed Decline in seedquality on the farm can be slowed bystoring seed in a cool dry place
bull Re-inoculate with Rhizobium
bacteria if stored beyond
expiration date Alfalfa is generallyinoculated with Rhizobium (a bacteriaresponsible for nitrogen fixation)during seed processing How long
Rhizobium will live depends on
environmental conditions during seedstorage Preinoculated seed storedbeyond the Rhizobium expirationdate (printed on the seed bag label)should be inoculated again with freshRhizobium before planting
External Internal
Seed coat
Cotyledon
Hilum
Radicle
Epicotyl
Hypocotyl
G R O W I N G A L F A L F A
3
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4 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
Germination amp emergence
A
lfalfa seeds begin to germinateafter absorbing about 125percent of their weight in water
and swelling to break the seed coat(see figure 3) Alfalfa can germinateat temperatures greater than 37˚F butoptimum germination temperature isbetween 65 and 77˚F As soil warms therate of germination increases becauseof increased water movement intothe seed and because of increases inthe rate of other metabolic activitiesassociated with germination
Germination begins with the radicle(young root) emerging through theseed coat near the hilum (see figure 4)
and anchoring itself in the soil as anunbranched tap root (see figure 5)
Supplying the right conditionswill help to assure maximumgermination Prepare a firm weed-
free seedbed to minimize competitionfrom weeds and to ensure good seed-
to-soil contact Avoid overworking thesoil surface as rainfall following seedingmay crust the surface preventingseedling emergence
Management tipsbull Optimize seed-to-soil contact
Poor seed-to-soil contact restrictswater movement from the soil to theseed and causes poor or sporadicgermination In conventionally tilled
seedbeds the best seed-to-soilcontact is achieved when the seedbedis free of clods and when press wheelsor a cultipacker are used to press thesoil onto the seed Many no-till alfalfaplantings fail because they are donewhen the soil is too wet and the seedfurrow does not close resulting inpoor seed-to-soil contact
bull Plant no deeper than frac12 inch
Seeding alfalfa at depths greaterthan frac12 inch makes it difficult or
impossible for the hypocotyl topull the cotyledons above groundespecially in heavy-textured soilsAlfalfa seedlings that do emergefrom deeper than frac12 inch usually areweaker because of greater energyexpenditure during emergence Afirm seedbed is extremely helpful inregulating and maintaining seedingdepth If seed is drilled and noseeds are visible on the surface afterplanting it is likely that the seed wasplanted too deep
Figure 3 The seed on the right is
swollen with water taken up from the
soil This condition marks the first step
in seed germination Under favorable
conditions water uptake begins within
24 to 48 hours after planting
Figure 4 The first part of the seedling to
emerge is the root radicle The radicle
anchors the seedling in the soil and
always grows downward regardless ofthe direction it is pointing when it first
comes out of the seed
G R O W I N G A L F A L F A
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As the radicle tip grows deeper intothe soil the hypocotyl elongatesand pulls the cotyledons and
epicotyl (growing point) above thesoil surface As the cotyledons emerge
above the soil surface the seed coatfalls off and cotyledons open to exposethe epicotyl
Management tipsbull Avoid planting outside
recommended planting window
Planting too early will reduce thegermination rate and increasethe likelihood of disease infectingthe crop Also a few hours of air
temperatures of 24˚
F or lower can killan alfalfa seedling when the secondtrifoliolate leaf has just emerged
bull Provide adequate levels of
nutrients Adequate levels ofnutrients are important for alfalfashoot and root development Nutrientlevels are especially important duringearly seedling establishment toensure a root system large enough tosupport maximum herbage growthfor the life of the plant
bull Minimize risk of soil crusting Soilsthat crust easily create an additionalproblem during alfalfa emergenceThe germinated seed will die ifthe elongating hypocotyl cannot
penetrate this crusted soil and pullthe cotyledons above the soil surfaceExcessive tillage can increase thepotential for crusting Rain irrigationor light tillage may be required tosoften or break the crusted layer
bull Donrsquot plant alfalfa into established
alfalfa fields Established alfalfaplants release a compound into thesoil that reduces germination andgrowth of new alfalfa seedlings aphenomenon known as autotoxicity
or ldquoself-toxicityrdquo The extent ofautotoxicity in a field depends on theamount of alfalfa residue in the soilhow long since the previous stand ofalfalfa was killed soil type amount ofrain or irrigation prior to the seedingof the new crop soil temperature andother factors At high autotoxicityalfalfa germination will be inhibitedat somewhat lower autotoxicity seedwill germinate but plants will bestunted and never yield well To avoidalfalfa autotoxicity in medium toheavy soils plow under or chemicallykill an established alfalfa field thengrow a crop other than alfalfa for oneseason or preferably two seasonsThis also will help reduce disease andinsect populations that may havedeveloped in the original alfalfa field
Figure 5 As the radicle grows the
portion nearest the seed enlarges
and forms a hook It pushes up
through the soil surface dragging
the cotyledons and seed coat with
it Once the seedling emerges aboveground and is exposed to light it
straightens out At the same time
small root hairs are developing on
the lower radicle The root hairs
absorb water and nutrients from the
soil
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6 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Seedling growthamp establishment
The establishment phase isthe period between seedlingemergence and first harvest
Cotyledons turn green after openingbut have limited photosynthetic activityfor the energy stored in the cotelydonsis quickly used up and they soon shrivelturn brown and die The epicotylproduces the first leaf which is a singleleaflet (unifoliolate) The meristematicregion of the epicotyl continues to growadding trifoliate leaves (three-leaflet
leaves) or multifoliolate leaves (morethan three leaflets per leaf) on alternatesides of the developing stem (seefigures 7 8 and 9)
While the epicotyl continues to addstem leaves and flowers the bud inthe axil of the unifoliolate leaf beginsto grow and form a secondary stemAdditional secondary stems developfrom the axillary buds at the cotyledonnodes (the points where cotyledonsattach to the stem) Temperaturesof 68 to 85983770F during early seedlingdevelopment are optimum for growthand development however as theseedling continues to develop slightly
cooler temperatures (60 to 75˚F) areideal
Young seedlings are particularlyvulnerable to diseases andherbicide damage As the seedlings
mature they become more resistant toseedling diseases and less susceptible
to herbicide damage Many herbicideshave application restrictions untila specific growth stage is reachedIt is important to be able recognizeeach growth stage so you can applytreatments at the correct time
Management tipsbull Minimize risks of seedling diseases
Soil moisture is necessary for nutrientabsorption by the roots and for rapidseedling development but excessivesoil moisture can stop root growthWet soil conditions also can leadto fungal diseases such as Pythium
(damping off ) Phytophthora (rootrot) Aphanomyces (damping off) and
Rhizoctonia (stem and root canker)Seed-applied fungicides can reducethe incidence of these diseases butplanting in well-drained soils can dothe same
bull Ensure that there are adequate
amounts of Rhizobium in thesoil Rhizobium bacteria may notbe present if alfalfa has not beengrown recently in the field or if soilpH is low Once pH is corrected usepreinoculated alfalfa seed or inoculatethe seed with live Rhizobium prior toplanting in order to provide adequatebacteria In general inoculation isan inexpensive way of ensuring thatadequate Rhizobium bacteria arepresent
bull Optimize nitrogen-fixing potential
Low soil pH (below 65) limitsnodulation and the availability ofmolybdenum which is essential in thenitrogen fixation process Apply limeif a soil test indicates low pH
Figure 6 Cotyledons are usually
the first visible portion of an alfalfa
seedling as they emerge above the soil
surface
Figure 7 The first true leaf to develop
on an alfalfa seedling has just one
leaflet and is called the unifoliate leaf
G R O W I N G A L F A L F A
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Management tipsbull Control weeds during the first 60
days to prevent stand loss Weeds inestablishing stands may out-compete
and shade young alfalfa plantsthinning the stand All weeds shouldbe controlled in new seedings bothspring and fall Herbicides shouldgenerally be applied as early asalfalfa will tolerate the herbicide I ffor example five leaflets are requiredbefore the herbicide should be usedthis means five trifoliate leaflets (notcounting the unifoliate leaf) mustbe visible with each of the leafletsexpanded so they are not touching
each other (see figure 10)bull When to harvest a new seeding
New plantings should notbe harvested until sufficientcarbohydrates have been stored inthe roots to support rapid regrowthDepending on growing conditionsthis generally occurs around 60days after emergence Delayingharvesting beyond 60 days generallydoes not improve regrowth and maydramatically reduce forage quality
Figure 8 The second
leaf to appear has three
leaflets This is called
a trifoliate leaf Most
subsequent leaves are
trifoliate althoughsome varieties produce
leaves with four or
more leaflets per leaf
and these are called
multifoliate leaves
Figure 10 Counting
only the fully expanded
trifoliate leaves reveals
that this plant is at
the five-leaf stage
A leaf is considered
fully expanded when
the outer edges of all
leaflets are no longer
touching
Figure 9 This plant isat the two-leaf stage
Note the two trifoliate
leaves in addition to
the unifoliate leaf At
this stage the seedling
can manufacture all
of its energy through
photosynthesis
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8 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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The radicle tip continues to grow deeperinto the soil The hypocotyl and upperportion of the radicle begin contractilegrowth a process in which these organsenlarge laterally and contract vertically
The radicle begins to thicken anddevelop into the primary taproot (seefigure 13) At the same time smallersecondary roots begin to develop onthe radicle as it grows deeper The
location and extent of secondary rootformation is genetically regulatedRoot growth during establishment isgenerally about 80 percent of herbagegrowth That is for every ounce ofherbage growth there is 08 ounceof root growth However under hottemperatures (greater than 90degF) rootgrowth may drop to 40 percent ofherbage growth
Within four weeks after germinationroot hairs on the radicle become
infected with the nitrogen fixingbacteria Rhizobium meliloti and beginto form the nodules (see figure 11)where atmospheric nitrogen fixationoccurs The rate of Rhizobium infectiondepends on the soil nitrogen contentand the rate of seedling growth Only
Rhizobium meliloti bacteria will infectalfalfa root hairs Rhizobium bacteria thatinfect other legumes (eg soybeans)are incapable of infecting alfalfa andRhizobium meliloti is incapable ofinfecting other legumes Only about 5percent of the alfalfa root hairs becomeinfected and only about 30 percentof these infections result in noduleformation regardless of the quantity of
Rhizobium present
Management tipsbull Ensure that soil pH and fertility is
optimum for nitrogen fixing Lowsoil pH (below 65) limits nodulation
and the availability of molybdenumwhich is essential in the nitrogenfixation process
bull Factors reducing nitrogen fixation
Waterlogged soils inhibit oxygen andnitrogen movement to the roots andnodules Harvesting alfalfa herbagewill cause nitrogen fixation to declineuntil herbage regrowth is adequateto supply the nodules with sugars(energy) from photosynthesis
Figure 11 Within four weeks after
germination if Rhizobium bacteria
are present round structures called
nodules will form on alfalfa roots The
bacteria help the plant use nitrogen
from the air in a process known as
nitrogen fixation
G R O W I N G A L F A L F A
Nitrogen fixing nodules
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Crown formation anddevelopment
Contractile growth (that pulls thelowermost buds below groundto form a crown) begins as early
as one week after emergence and isusually complete within 16 weeksContractile growth pulls the axillarybuds below the soil and forms thecrown (area between the soil surfaceand the cotyledonary nodes) Alfalfavarieties with greater fall dormancy tendto have more pronounced contractilegrowth than those with less dormancy
their nodes are pulled farther below thesoil surface Plants with deep crownstend to be more persistent than plantswith shallow crowns because they haveincreased soil protection from extremelycold air temperatures Axillary buds thatare pulled below the soil surface duringcontractile growth are referred to ascrown buds
Management tipsbull To allow enough time for crown
development avoid seeding afterthe recommended late-summer
planting dates Plants that have notformed a crown will not survivethe winter Following contractilegrowth alfalfa stems may be frostedbut the plant can survive freezingair temperatures because thecrown buds are protected belowthe soil surface Planting laterthan recommended reduces theprobability of having a successfulyield for the crop will face highertemperatures more soil drying and
more weed problems Summer-seeded alfalfa generally needs aminimum of six weeks of growth afteremergence to survive winter withoutinjury and to produce maximumyields the following year
Even brief exposures to airtemperatures below 27˚ F will killyoung alfalfa seedlings Alfalfa plantssurvive cold temperatures by pullingthe lowermost buds below ground toform a crown
Figure 12 Crown development has not
yet begun on these young plants The
cotyledons though brown are still
present Note the distance between
the nodes on the plants in this picture
compared to the distance between
nodes on the plant in figure 13
Figure 13 The lowermost
buds have been pulled
below ground to form the
crown Crown development
on this plant is already
sufficient for winter survival
The crown will continue to
enlarge throughout the life
of the plant
G R O W I N G A L F A L F A
9
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10 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Vegetative stage
D
uring early vegetative growth in the spring or after harvest the alfalfahas insufficient leaf area to produce enough energy purely throughphotosynthesis to support growth Energy for early regrowth comes from
carbohydrates and other nutrients stored in the root and crown Once vegetativegrowth has attained about 8 inches of height leaf area and photosynthesis haveincreased enough to supply adequate energy for continued growth and to beginreplenishing the root and crown reserves
Alfalfa growth in the spring is predominantly from crown buds and depends ontemperature (see figure 14)
Springgreen-up
Spring growth ideally comes fromcrown buds formed the previousyear during late summer and fall
Green-up occurs when the buds locatedon the crown begin to grow in responseto warm spring temperatures Inaddition to weather the timing of springgreen-up depends on plant health thegenetic fall dormancy of the variety andthe amount of dormancy developed inthe plants during the fall (determinedby fall weather conditions) If plants are
injured or slow to green up considerplanting more winter-hardy varieties
Figure 14 This well-developed crown shows healthy crown buds growing to
produce the seasonrsquos first cutting
Crown buds
Developing shoot
Figure 15 Carbohydrate content of alfalfa roots
growthinitiation
6-8 inchheight
budstage
fullflower
r o o t c a r b o h y
d r a t e
cut at full flower
cut atbud stage
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Growth after cutting
R
egrowth after harvest is primarilyfrom crown buds (figure 14) butmay also come from axillary
buds if cutting is high The number ofstems that develop from either axillaryor crown buds depends on the varietythe developmental stage at the time ofharvest the health of the crown and thecutting height
Environmental conditions play animportant role in determining the rateand amount of vegetative growth Themaximum number of stems on a plantis set within 14 days after harvest and
declines as the plant matures Droughtor flooding stress during the first 14days after harvest can greatly reduce thenumber of stems a plant will produce inthat regrowth period Drought reducesstem growth more than leaf growthcausing shortened plants that are low-yielding but generally high in qualitybecause of increased leaf-to-stem ratio
Immediately after harvest alfalfaregrowth is fastest when temperaturesare 85 to 90˚F However as alfalfa
growth continues maximum growthrate occurs when temperatures arebetween 50 and 80˚F Leaf-to-stem ratiodeclines as the plant matures withineach regrowth period Leaf-to-stemratio is less for growth in spring than inmidsummer The warmer temperaturesand longer days of summer cause morerapid plant development and greatercell wall lignification than occurs in thecooler temperatures and shorter days ofspring
Alfalfa yield is determined by thenumber of stems in a given landarea and the weight of each stemThe maximum number of stems perplant and the weight of each stemare determined during the period ofvegetative development Consequentlyit is important that pH fertility moistureand pests be carefully controlled duringthis period
Management tipsbull The ideal cutting height is at least
2 inches above the soil surface (3 to4 inches if a grass is mixed with the
alfalfa)bull Maximize stem density Short
cutting intervals (less than 35 days)will reduce the number of axillarybuds Moisture stress immediatelyafter cutting will reduce the numberof crown and axillary buds andtherefore will reduce stem densityand yield even if rain occurs later inthe growth cycle
Figure 16 and 17 Regrowth after cutting arises primarily from
crown buds and also from axillary buds if forage is cut high
Axillary buds occur wherever a leaf petiol attaches to the stem
G R O W I N G A L F A L F A
11
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Figure 18 The plant on
the left has suffered
winter injury while
the plant on the right
has not Injured plants
become less vigorous
and are slow to recover
G R O W I N G A L F A L F A
Winter hardeningand winter survival
Shortening days and decliningtemperatures in the fall can cause
some alfalfa varieties to changetheir vegetative growth pattern Stemgrowth in the fall serves as the basisfor assigning varieties a relative falldormancy rating A fall dormancy of1 indicates the greatest fall dormancyand least height of fall growth whilea rating of 11 indicates the least falldormancy and greatest height of fallgrowth Usually the more fall-dormantthe variety the slower it regrowsafter harvest but the better it survives
adverse winter conditions
During the fall dormant varieties altertheir chemical processes to prepare for
winter survival Some of the starch inthe crown and root is converted intosugars that function as antifreeze andhelp keep the crown crown buds androot from freezing at temperatures wellbelow 32˚F Crown buds which willbe the source of growth the followingspring are formed during the fall
Dormant alfalfa varieties can survivetemperatures of about 5˚F after theyhave been prepared for winter survivalby having had at least two weeks oftemperatures alternating between near-freezing nights and 60˚F days Planttissue below the soil surface is insulatedfrom cold air temperatures by soil andlayers of snow When there is no snowcover extremely cold air temperaturescan cause the soil temperature to dropbelow 5˚F This will injure or possibly killthe alfalfa plant
When to cutManagement tips
When to cut for hay or haylageForage yield quality and standpersistence are affected by the
cutting schedule chosen Forage yieldincreases until the plant reaches fullflower while forage quality decreasescontinually during growth Cutting forhigh quality will reduce total seasonyield so one must ensure that the highquality will produce a return to offsetthe yield loss Early season growth maynot flower normally and quality will
decline if it doesnrsquot Therefore using aforage quality stick (available from somestate forage associations and somealfalfa seed marketing companies) ormeasuring forage height and plantstage (as described later) is crucial indetermining when to do the first cuttingin order to harvest alfalfa of the desiredquality The stage to cut alfalfa foroptimum forage quality for dairy cattleranges from the vegetative to early budstage on first cutting and is generally at
bud stage on later cuttings Later stagesmay be harvested for animals with lowernutritional requirements
bull Watch for pests Some insect pestsfeed on the alfalfa bud and flowerExcessive numbers of these insectsin an alfalfa field can remove budsas they form causing the casualobserver to assume that the alfalfahas not begun to form buds Ifinitiation of alfalfa harvesting is based
on plant development then carefulmonitoring of insect populations andplant development is necessary
Figure 19 If crown buds have been
killed the plant must form new
buds to replace them The taller
shoots are from buds that survived
the winter the lower layer of shoots
are from spring-formed buds
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bull Understand the risks of harvesting
during the bud stage Alfalfavarieties developed in the past 10
years have greater disease resistancethan older varieties With adequatefertility and pest control these newervarieties can survive aggressiveharvest schedules better than oldervarieties In addition newer alfalfavarieties have been selected for rapidregrowth which increases their yieldpotential Faster regrowth is a resultof decreased production of auxin (aplant hormone) during the flower budstage allowing earlier regrowth fromcrown buds Harvesting during theflower bud stage provides relativelyhigh forage quality but continuouslyharvesting at this stage will result inlow root carbohydrate reserves andstand decline Alfalfa stands that areintended to remain in productionfor more than three years must beallowed to mature beyond the flowerbud stage at least once during theseason to replenish root reserves
bull Forage yield quality and stand
persistence are considerations
when deciding when to cut
Forage yield increases until the plantreaches full flower while foragequality decreases continually duringgrowth or regrowth (see figure 20)The optimum balance between yieldand quality depends on the cuttingand the forage quality desired Earlyin the growing season plants maynot flower normally and quality maydecline even though the plant is notflowering This can be determinedusing a forage quality stick or bymeasuring plant height Take latercuttings based on growth stage ortime interval (35 to 45 days)
bull The stage to cut alfalfa for
optimum yield and forage quality for milking dairy cows ranges fromthe vegetative to early bud stageon the first cutting to 10 percentflower on the second and thirdcuttings to full flower on a latefall cutting For animals with lower
nutritional requirements later stagesmay be harvested The pictures onthe following pages depict growthstages commonly referred to whendiscussing cutting management
forage yield
first-cut forage quality
late-season forage
quality
vegetative bud first-flower full-flower post-flower
Figure 20 Forage yield and quality at various stages of growth
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Flowering processFlower bud stage
The formation of a flower budmarks a major transition in alfalfagrowth and development Up
to this point the alfalfa plant has beenusing energy from photosynthesis tobuild a larger photosynthetic factory(more leaves) and to store energyin the crown and roots When floraldevelopment begins the plant shifts alarge portion of its energy into flowerproduction and ultimately seedproduction
Alfalfa has an indeterminate growthpattern meaning it continues toproduce both leaves and stems along
with reproductive (bud) structuresBecause of this it is possible to have asingle alfalfa stem with newly emergedleaves flower buds flowers andseedpods Continued vegetative growthmeans the alfalfa crop will increasethrough the flower bud and early flowerstage of development
The onset of floral development iscontrolled primarily by temperatureand photoperiod In midsummer flower
buds may appear on alfalfa regrowththree weeks earlier than in the springwhen temperatures are lower andthe photoperiod shorter Flower budsbegin to appear at the 6th through14th node on the stem depending onenvironmental and genetic factorsFlower bud formation usually beginsat lower nodes in summer (6th through8th nodes) than in spring After the firstflower bud appears a new bud willappear about every three days until the
stem is harvested or reaches maturity
Early budFigure 21 The flowering process
begins when small buds form in the
top one or two leaf axils These buds
are detectable as small swellings in
the axils of the leaves Forage cut at
this stage will be very high in quality
However yield will be reduced Cutting
several times per season at this stage
will decrease persistence
Mid budFigure 22 At the mid bud stage flower
buds are larger and easier to detect
Some buds are beginning to lengthen
Additional buds are forming lower on
the stem
Late budFigure 23 At the late bud stage flower
buds are large and lengthening rapidly
Buds begin developing at three or more
leaf axils lower on the stem
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The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
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Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
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Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
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18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
8122019 Alfalfa Germination amp Growth
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8122019 Alfalfa Germination amp Growth
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Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
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2 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
Basics of alfalfa growth
A
lfalfa growth is driven byphotosynthesis a process thatcaptures the sunrsquos energy and
converts it into chemical energy Glucosesugar is the primary chemical energyproduct of photosynthesis Glucosecombines with other nutrient elementsto provide all the components neededfor alfalfa growth
Alfalfa requires nitrogen phosphoruspotassium sulfur calcium magnesiumiron boron manganese zinc coppermolybdenum and a few othermicronutrients for growth These
nutrients along with water are absorbedby the root from the soil Also sometrace minerals may be taken up throughthe leaves if they are applied foliarlyPart of the nitrogen needed for growthis obtained from bacterial nitrogenfixation in the root nodules if soil pH issufficiently high (65 or more)
Living cells extract energy from glucosethrough a process called respiration Foralfalfa to have sustained growth glucoseproduction by photosynthesis must begreater than glucose use by respiration
Alfalfa cells divide to produce new cellsat the tips of stems and roots in tissueknown as the apical meristem Belowthe apical meristem of the stem cells ofthe stems (but not the leaves) developthicker walls which contain more ligninand are less digestible Consequentlythe oldest and least digestible part ofthe alfalfa stem is at the bottom whilethe youngest and most digestible part is
at the top
At points where leaf petioles and stembranches attach to the stem are axillarybuds (see figure 1) Axillary buds contain
meristematic (growing) tissue whichcan develop into leaves stem branchesor new stems Axillary buds generallyremain inactive until the apical meristembegins producing flower buds or isremoved Alfalfa cut high may regrowfrom axillary buds rather than fromcrown buds which generally meansyield will be reduced because of theexcessive forage left in the field as aresult of cutting the alfalfa higher
Leaflets
Petiol
Axillary buds
Radicle
Hypocotyl
Unifoliate leaf
Apical meristem
Figure 1 The parts of an alfalfa plant
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Figure 2 Alfalfa seed external and internal views
The seed
A
lfalfa seeds are generally kidneyshaped small (983090frasl9830911048626 by 983089frasl9830911048626 by 983089frasl9830911048626inch with about 225000 seeds
to a pound) and yellow-brown to olivegreen in color The seed consists of twocotyledons (embryonic leaves) a radicle(embryonic root) a hypocotyl (the areaof radicle just below the cotyledons)and an epicotyl (embryonic stem) Allof these embryonic plant parts aresurrounded by a protective seed coat(see figure 2) Carbohydrates proteinsand fats stored in the cotyledonssupply the energy needed duringgermination until the true leaves beginphotosynthesis The radicle becomesthe primary root and is the initialanchoring and absorption structureduring alfalfa emergence The epicotylis the growing point (where themeristematic tissue is located) of thefuture stem and is protected betweenthe two cotyledons until the cotyledonsare above ground and separate Thescar tissue on the seed coat knownas the hilum is the previous point of
attachment of the seed to the pod
Sometimes an alfalfa seed may have acoat not permeable to water and this isknown as a ldquohard seedrdquo A hard seed can
lie dormant in the soil for several weeksor years before germinating Hard seedpercentage is noted on the seed tagand is included in the total germinationcalculation Most hard seed germinateswithin 30 to 60 days of planting Alfalfahard seed cannot be depended upon tothicken a thin stand
Several kinds of coatingsmdashfor examplefungicide Rhizobium bacteria nutrientslime or claymdashmay be applied to the
seed as it is processed and preparedfor marketing In general these seedcoatings have no effect on seed qualitybut are placed on the seed to aidgrowth and development after planting
Management tipsbull Store seed at cool temperatures
and in low humidity Manyprecautions are taken by the alfalfa
seed industry to ensure that thepurchaser receives very high-qualityweed-free seed Decline in seedquality on the farm can be slowed bystoring seed in a cool dry place
bull Re-inoculate with Rhizobium
bacteria if stored beyond
expiration date Alfalfa is generallyinoculated with Rhizobium (a bacteriaresponsible for nitrogen fixation)during seed processing How long
Rhizobium will live depends on
environmental conditions during seedstorage Preinoculated seed storedbeyond the Rhizobium expirationdate (printed on the seed bag label)should be inoculated again with freshRhizobium before planting
External Internal
Seed coat
Cotyledon
Hilum
Radicle
Epicotyl
Hypocotyl
G R O W I N G A L F A L F A
3
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4 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
Germination amp emergence
A
lfalfa seeds begin to germinateafter absorbing about 125percent of their weight in water
and swelling to break the seed coat(see figure 3) Alfalfa can germinateat temperatures greater than 37˚F butoptimum germination temperature isbetween 65 and 77˚F As soil warms therate of germination increases becauseof increased water movement intothe seed and because of increases inthe rate of other metabolic activitiesassociated with germination
Germination begins with the radicle(young root) emerging through theseed coat near the hilum (see figure 4)
and anchoring itself in the soil as anunbranched tap root (see figure 5)
Supplying the right conditionswill help to assure maximumgermination Prepare a firm weed-
free seedbed to minimize competitionfrom weeds and to ensure good seed-
to-soil contact Avoid overworking thesoil surface as rainfall following seedingmay crust the surface preventingseedling emergence
Management tipsbull Optimize seed-to-soil contact
Poor seed-to-soil contact restrictswater movement from the soil to theseed and causes poor or sporadicgermination In conventionally tilled
seedbeds the best seed-to-soilcontact is achieved when the seedbedis free of clods and when press wheelsor a cultipacker are used to press thesoil onto the seed Many no-till alfalfaplantings fail because they are donewhen the soil is too wet and the seedfurrow does not close resulting inpoor seed-to-soil contact
bull Plant no deeper than frac12 inch
Seeding alfalfa at depths greaterthan frac12 inch makes it difficult or
impossible for the hypocotyl topull the cotyledons above groundespecially in heavy-textured soilsAlfalfa seedlings that do emergefrom deeper than frac12 inch usually areweaker because of greater energyexpenditure during emergence Afirm seedbed is extremely helpful inregulating and maintaining seedingdepth If seed is drilled and noseeds are visible on the surface afterplanting it is likely that the seed wasplanted too deep
Figure 3 The seed on the right is
swollen with water taken up from the
soil This condition marks the first step
in seed germination Under favorable
conditions water uptake begins within
24 to 48 hours after planting
Figure 4 The first part of the seedling to
emerge is the root radicle The radicle
anchors the seedling in the soil and
always grows downward regardless ofthe direction it is pointing when it first
comes out of the seed
G R O W I N G A L F A L F A
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As the radicle tip grows deeper intothe soil the hypocotyl elongatesand pulls the cotyledons and
epicotyl (growing point) above thesoil surface As the cotyledons emerge
above the soil surface the seed coatfalls off and cotyledons open to exposethe epicotyl
Management tipsbull Avoid planting outside
recommended planting window
Planting too early will reduce thegermination rate and increasethe likelihood of disease infectingthe crop Also a few hours of air
temperatures of 24˚
F or lower can killan alfalfa seedling when the secondtrifoliolate leaf has just emerged
bull Provide adequate levels of
nutrients Adequate levels ofnutrients are important for alfalfashoot and root development Nutrientlevels are especially important duringearly seedling establishment toensure a root system large enough tosupport maximum herbage growthfor the life of the plant
bull Minimize risk of soil crusting Soilsthat crust easily create an additionalproblem during alfalfa emergenceThe germinated seed will die ifthe elongating hypocotyl cannot
penetrate this crusted soil and pullthe cotyledons above the soil surfaceExcessive tillage can increase thepotential for crusting Rain irrigationor light tillage may be required tosoften or break the crusted layer
bull Donrsquot plant alfalfa into established
alfalfa fields Established alfalfaplants release a compound into thesoil that reduces germination andgrowth of new alfalfa seedlings aphenomenon known as autotoxicity
or ldquoself-toxicityrdquo The extent ofautotoxicity in a field depends on theamount of alfalfa residue in the soilhow long since the previous stand ofalfalfa was killed soil type amount ofrain or irrigation prior to the seedingof the new crop soil temperature andother factors At high autotoxicityalfalfa germination will be inhibitedat somewhat lower autotoxicity seedwill germinate but plants will bestunted and never yield well To avoidalfalfa autotoxicity in medium toheavy soils plow under or chemicallykill an established alfalfa field thengrow a crop other than alfalfa for oneseason or preferably two seasonsThis also will help reduce disease andinsect populations that may havedeveloped in the original alfalfa field
Figure 5 As the radicle grows the
portion nearest the seed enlarges
and forms a hook It pushes up
through the soil surface dragging
the cotyledons and seed coat with
it Once the seedling emerges aboveground and is exposed to light it
straightens out At the same time
small root hairs are developing on
the lower radicle The root hairs
absorb water and nutrients from the
soil
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6 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
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Y
Seedling growthamp establishment
The establishment phase isthe period between seedlingemergence and first harvest
Cotyledons turn green after openingbut have limited photosynthetic activityfor the energy stored in the cotelydonsis quickly used up and they soon shrivelturn brown and die The epicotylproduces the first leaf which is a singleleaflet (unifoliolate) The meristematicregion of the epicotyl continues to growadding trifoliate leaves (three-leaflet
leaves) or multifoliolate leaves (morethan three leaflets per leaf) on alternatesides of the developing stem (seefigures 7 8 and 9)
While the epicotyl continues to addstem leaves and flowers the bud inthe axil of the unifoliolate leaf beginsto grow and form a secondary stemAdditional secondary stems developfrom the axillary buds at the cotyledonnodes (the points where cotyledonsattach to the stem) Temperaturesof 68 to 85983770F during early seedlingdevelopment are optimum for growthand development however as theseedling continues to develop slightly
cooler temperatures (60 to 75˚F) areideal
Young seedlings are particularlyvulnerable to diseases andherbicide damage As the seedlings
mature they become more resistant toseedling diseases and less susceptible
to herbicide damage Many herbicideshave application restrictions untila specific growth stage is reachedIt is important to be able recognizeeach growth stage so you can applytreatments at the correct time
Management tipsbull Minimize risks of seedling diseases
Soil moisture is necessary for nutrientabsorption by the roots and for rapidseedling development but excessivesoil moisture can stop root growthWet soil conditions also can leadto fungal diseases such as Pythium
(damping off ) Phytophthora (rootrot) Aphanomyces (damping off) and
Rhizoctonia (stem and root canker)Seed-applied fungicides can reducethe incidence of these diseases butplanting in well-drained soils can dothe same
bull Ensure that there are adequate
amounts of Rhizobium in thesoil Rhizobium bacteria may notbe present if alfalfa has not beengrown recently in the field or if soilpH is low Once pH is corrected usepreinoculated alfalfa seed or inoculatethe seed with live Rhizobium prior toplanting in order to provide adequatebacteria In general inoculation isan inexpensive way of ensuring thatadequate Rhizobium bacteria arepresent
bull Optimize nitrogen-fixing potential
Low soil pH (below 65) limitsnodulation and the availability ofmolybdenum which is essential in thenitrogen fixation process Apply limeif a soil test indicates low pH
Figure 6 Cotyledons are usually
the first visible portion of an alfalfa
seedling as they emerge above the soil
surface
Figure 7 The first true leaf to develop
on an alfalfa seedling has just one
leaflet and is called the unifoliate leaf
G R O W I N G A L F A L F A
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Management tipsbull Control weeds during the first 60
days to prevent stand loss Weeds inestablishing stands may out-compete
and shade young alfalfa plantsthinning the stand All weeds shouldbe controlled in new seedings bothspring and fall Herbicides shouldgenerally be applied as early asalfalfa will tolerate the herbicide I ffor example five leaflets are requiredbefore the herbicide should be usedthis means five trifoliate leaflets (notcounting the unifoliate leaf) mustbe visible with each of the leafletsexpanded so they are not touching
each other (see figure 10)bull When to harvest a new seeding
New plantings should notbe harvested until sufficientcarbohydrates have been stored inthe roots to support rapid regrowthDepending on growing conditionsthis generally occurs around 60days after emergence Delayingharvesting beyond 60 days generallydoes not improve regrowth and maydramatically reduce forage quality
Figure 8 The second
leaf to appear has three
leaflets This is called
a trifoliate leaf Most
subsequent leaves are
trifoliate althoughsome varieties produce
leaves with four or
more leaflets per leaf
and these are called
multifoliate leaves
Figure 10 Counting
only the fully expanded
trifoliate leaves reveals
that this plant is at
the five-leaf stage
A leaf is considered
fully expanded when
the outer edges of all
leaflets are no longer
touching
Figure 9 This plant isat the two-leaf stage
Note the two trifoliate
leaves in addition to
the unifoliate leaf At
this stage the seedling
can manufacture all
of its energy through
photosynthesis
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8 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
The radicle tip continues to grow deeperinto the soil The hypocotyl and upperportion of the radicle begin contractilegrowth a process in which these organsenlarge laterally and contract vertically
The radicle begins to thicken anddevelop into the primary taproot (seefigure 13) At the same time smallersecondary roots begin to develop onthe radicle as it grows deeper The
location and extent of secondary rootformation is genetically regulatedRoot growth during establishment isgenerally about 80 percent of herbagegrowth That is for every ounce ofherbage growth there is 08 ounceof root growth However under hottemperatures (greater than 90degF) rootgrowth may drop to 40 percent ofherbage growth
Within four weeks after germinationroot hairs on the radicle become
infected with the nitrogen fixingbacteria Rhizobium meliloti and beginto form the nodules (see figure 11)where atmospheric nitrogen fixationoccurs The rate of Rhizobium infectiondepends on the soil nitrogen contentand the rate of seedling growth Only
Rhizobium meliloti bacteria will infectalfalfa root hairs Rhizobium bacteria thatinfect other legumes (eg soybeans)are incapable of infecting alfalfa andRhizobium meliloti is incapable ofinfecting other legumes Only about 5percent of the alfalfa root hairs becomeinfected and only about 30 percentof these infections result in noduleformation regardless of the quantity of
Rhizobium present
Management tipsbull Ensure that soil pH and fertility is
optimum for nitrogen fixing Lowsoil pH (below 65) limits nodulation
and the availability of molybdenumwhich is essential in the nitrogenfixation process
bull Factors reducing nitrogen fixation
Waterlogged soils inhibit oxygen andnitrogen movement to the roots andnodules Harvesting alfalfa herbagewill cause nitrogen fixation to declineuntil herbage regrowth is adequateto supply the nodules with sugars(energy) from photosynthesis
Figure 11 Within four weeks after
germination if Rhizobium bacteria
are present round structures called
nodules will form on alfalfa roots The
bacteria help the plant use nitrogen
from the air in a process known as
nitrogen fixation
G R O W I N G A L F A L F A
Nitrogen fixing nodules
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Crown formation anddevelopment
Contractile growth (that pulls thelowermost buds below groundto form a crown) begins as early
as one week after emergence and isusually complete within 16 weeksContractile growth pulls the axillarybuds below the soil and forms thecrown (area between the soil surfaceand the cotyledonary nodes) Alfalfavarieties with greater fall dormancy tendto have more pronounced contractilegrowth than those with less dormancy
their nodes are pulled farther below thesoil surface Plants with deep crownstend to be more persistent than plantswith shallow crowns because they haveincreased soil protection from extremelycold air temperatures Axillary buds thatare pulled below the soil surface duringcontractile growth are referred to ascrown buds
Management tipsbull To allow enough time for crown
development avoid seeding afterthe recommended late-summer
planting dates Plants that have notformed a crown will not survivethe winter Following contractilegrowth alfalfa stems may be frostedbut the plant can survive freezingair temperatures because thecrown buds are protected belowthe soil surface Planting laterthan recommended reduces theprobability of having a successfulyield for the crop will face highertemperatures more soil drying and
more weed problems Summer-seeded alfalfa generally needs aminimum of six weeks of growth afteremergence to survive winter withoutinjury and to produce maximumyields the following year
Even brief exposures to airtemperatures below 27˚ F will killyoung alfalfa seedlings Alfalfa plantssurvive cold temperatures by pullingthe lowermost buds below ground toform a crown
Figure 12 Crown development has not
yet begun on these young plants The
cotyledons though brown are still
present Note the distance between
the nodes on the plants in this picture
compared to the distance between
nodes on the plant in figure 13
Figure 13 The lowermost
buds have been pulled
below ground to form the
crown Crown development
on this plant is already
sufficient for winter survival
The crown will continue to
enlarge throughout the life
of the plant
G R O W I N G A L F A L F A
9
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10 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
Vegetative stage
D
uring early vegetative growth in the spring or after harvest the alfalfahas insufficient leaf area to produce enough energy purely throughphotosynthesis to support growth Energy for early regrowth comes from
carbohydrates and other nutrients stored in the root and crown Once vegetativegrowth has attained about 8 inches of height leaf area and photosynthesis haveincreased enough to supply adequate energy for continued growth and to beginreplenishing the root and crown reserves
Alfalfa growth in the spring is predominantly from crown buds and depends ontemperature (see figure 14)
Springgreen-up
Spring growth ideally comes fromcrown buds formed the previousyear during late summer and fall
Green-up occurs when the buds locatedon the crown begin to grow in responseto warm spring temperatures Inaddition to weather the timing of springgreen-up depends on plant health thegenetic fall dormancy of the variety andthe amount of dormancy developed inthe plants during the fall (determinedby fall weather conditions) If plants are
injured or slow to green up considerplanting more winter-hardy varieties
Figure 14 This well-developed crown shows healthy crown buds growing to
produce the seasonrsquos first cutting
Crown buds
Developing shoot
Figure 15 Carbohydrate content of alfalfa roots
growthinitiation
6-8 inchheight
budstage
fullflower
r o o t c a r b o h y
d r a t e
cut at full flower
cut atbud stage
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Growth after cutting
R
egrowth after harvest is primarilyfrom crown buds (figure 14) butmay also come from axillary
buds if cutting is high The number ofstems that develop from either axillaryor crown buds depends on the varietythe developmental stage at the time ofharvest the health of the crown and thecutting height
Environmental conditions play animportant role in determining the rateand amount of vegetative growth Themaximum number of stems on a plantis set within 14 days after harvest and
declines as the plant matures Droughtor flooding stress during the first 14days after harvest can greatly reduce thenumber of stems a plant will produce inthat regrowth period Drought reducesstem growth more than leaf growthcausing shortened plants that are low-yielding but generally high in qualitybecause of increased leaf-to-stem ratio
Immediately after harvest alfalfaregrowth is fastest when temperaturesare 85 to 90˚F However as alfalfa
growth continues maximum growthrate occurs when temperatures arebetween 50 and 80˚F Leaf-to-stem ratiodeclines as the plant matures withineach regrowth period Leaf-to-stemratio is less for growth in spring than inmidsummer The warmer temperaturesand longer days of summer cause morerapid plant development and greatercell wall lignification than occurs in thecooler temperatures and shorter days ofspring
Alfalfa yield is determined by thenumber of stems in a given landarea and the weight of each stemThe maximum number of stems perplant and the weight of each stemare determined during the period ofvegetative development Consequentlyit is important that pH fertility moistureand pests be carefully controlled duringthis period
Management tipsbull The ideal cutting height is at least
2 inches above the soil surface (3 to4 inches if a grass is mixed with the
alfalfa)bull Maximize stem density Short
cutting intervals (less than 35 days)will reduce the number of axillarybuds Moisture stress immediatelyafter cutting will reduce the numberof crown and axillary buds andtherefore will reduce stem densityand yield even if rain occurs later inthe growth cycle
Figure 16 and 17 Regrowth after cutting arises primarily from
crown buds and also from axillary buds if forage is cut high
Axillary buds occur wherever a leaf petiol attaches to the stem
G R O W I N G A L F A L F A
11
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12 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
Figure 18 The plant on
the left has suffered
winter injury while
the plant on the right
has not Injured plants
become less vigorous
and are slow to recover
G R O W I N G A L F A L F A
Winter hardeningand winter survival
Shortening days and decliningtemperatures in the fall can cause
some alfalfa varieties to changetheir vegetative growth pattern Stemgrowth in the fall serves as the basisfor assigning varieties a relative falldormancy rating A fall dormancy of1 indicates the greatest fall dormancyand least height of fall growth whilea rating of 11 indicates the least falldormancy and greatest height of fallgrowth Usually the more fall-dormantthe variety the slower it regrowsafter harvest but the better it survives
adverse winter conditions
During the fall dormant varieties altertheir chemical processes to prepare for
winter survival Some of the starch inthe crown and root is converted intosugars that function as antifreeze andhelp keep the crown crown buds androot from freezing at temperatures wellbelow 32˚F Crown buds which willbe the source of growth the followingspring are formed during the fall
Dormant alfalfa varieties can survivetemperatures of about 5˚F after theyhave been prepared for winter survivalby having had at least two weeks oftemperatures alternating between near-freezing nights and 60˚F days Planttissue below the soil surface is insulatedfrom cold air temperatures by soil andlayers of snow When there is no snowcover extremely cold air temperaturescan cause the soil temperature to dropbelow 5˚F This will injure or possibly killthe alfalfa plant
When to cutManagement tips
When to cut for hay or haylageForage yield quality and standpersistence are affected by the
cutting schedule chosen Forage yieldincreases until the plant reaches fullflower while forage quality decreasescontinually during growth Cutting forhigh quality will reduce total seasonyield so one must ensure that the highquality will produce a return to offsetthe yield loss Early season growth maynot flower normally and quality will
decline if it doesnrsquot Therefore using aforage quality stick (available from somestate forage associations and somealfalfa seed marketing companies) ormeasuring forage height and plantstage (as described later) is crucial indetermining when to do the first cuttingin order to harvest alfalfa of the desiredquality The stage to cut alfalfa foroptimum forage quality for dairy cattleranges from the vegetative to early budstage on first cutting and is generally at
bud stage on later cuttings Later stagesmay be harvested for animals with lowernutritional requirements
bull Watch for pests Some insect pestsfeed on the alfalfa bud and flowerExcessive numbers of these insectsin an alfalfa field can remove budsas they form causing the casualobserver to assume that the alfalfahas not begun to form buds Ifinitiation of alfalfa harvesting is based
on plant development then carefulmonitoring of insect populations andplant development is necessary
Figure 19 If crown buds have been
killed the plant must form new
buds to replace them The taller
shoots are from buds that survived
the winter the lower layer of shoots
are from spring-formed buds
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bull Understand the risks of harvesting
during the bud stage Alfalfavarieties developed in the past 10
years have greater disease resistancethan older varieties With adequatefertility and pest control these newervarieties can survive aggressiveharvest schedules better than oldervarieties In addition newer alfalfavarieties have been selected for rapidregrowth which increases their yieldpotential Faster regrowth is a resultof decreased production of auxin (aplant hormone) during the flower budstage allowing earlier regrowth fromcrown buds Harvesting during theflower bud stage provides relativelyhigh forage quality but continuouslyharvesting at this stage will result inlow root carbohydrate reserves andstand decline Alfalfa stands that areintended to remain in productionfor more than three years must beallowed to mature beyond the flowerbud stage at least once during theseason to replenish root reserves
bull Forage yield quality and stand
persistence are considerations
when deciding when to cut
Forage yield increases until the plantreaches full flower while foragequality decreases continually duringgrowth or regrowth (see figure 20)The optimum balance between yieldand quality depends on the cuttingand the forage quality desired Earlyin the growing season plants maynot flower normally and quality maydecline even though the plant is notflowering This can be determinedusing a forage quality stick or bymeasuring plant height Take latercuttings based on growth stage ortime interval (35 to 45 days)
bull The stage to cut alfalfa for
optimum yield and forage quality for milking dairy cows ranges fromthe vegetative to early bud stageon the first cutting to 10 percentflower on the second and thirdcuttings to full flower on a latefall cutting For animals with lower
nutritional requirements later stagesmay be harvested The pictures onthe following pages depict growthstages commonly referred to whendiscussing cutting management
forage yield
first-cut forage quality
late-season forage
quality
vegetative bud first-flower full-flower post-flower
Figure 20 Forage yield and quality at various stages of growth
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
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Y
14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Flowering processFlower bud stage
The formation of a flower budmarks a major transition in alfalfagrowth and development Up
to this point the alfalfa plant has beenusing energy from photosynthesis tobuild a larger photosynthetic factory(more leaves) and to store energyin the crown and roots When floraldevelopment begins the plant shifts alarge portion of its energy into flowerproduction and ultimately seedproduction
Alfalfa has an indeterminate growthpattern meaning it continues toproduce both leaves and stems along
with reproductive (bud) structuresBecause of this it is possible to have asingle alfalfa stem with newly emergedleaves flower buds flowers andseedpods Continued vegetative growthmeans the alfalfa crop will increasethrough the flower bud and early flowerstage of development
The onset of floral development iscontrolled primarily by temperatureand photoperiod In midsummer flower
buds may appear on alfalfa regrowththree weeks earlier than in the springwhen temperatures are lower andthe photoperiod shorter Flower budsbegin to appear at the 6th through14th node on the stem depending onenvironmental and genetic factorsFlower bud formation usually beginsat lower nodes in summer (6th through8th nodes) than in spring After the firstflower bud appears a new bud willappear about every three days until the
stem is harvested or reaches maturity
Early budFigure 21 The flowering process
begins when small buds form in the
top one or two leaf axils These buds
are detectable as small swellings in
the axils of the leaves Forage cut at
this stage will be very high in quality
However yield will be reduced Cutting
several times per season at this stage
will decrease persistence
Mid budFigure 22 At the mid bud stage flower
buds are larger and easier to detect
Some buds are beginning to lengthen
Additional buds are forming lower on
the stem
Late budFigure 23 At the late bud stage flower
buds are large and lengthening rapidly
Buds begin developing at three or more
leaf axils lower on the stem
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The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
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16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
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Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
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Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
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18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
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Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
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Figure 2 Alfalfa seed external and internal views
The seed
A
lfalfa seeds are generally kidneyshaped small (983090frasl9830911048626 by 983089frasl9830911048626 by 983089frasl9830911048626inch with about 225000 seeds
to a pound) and yellow-brown to olivegreen in color The seed consists of twocotyledons (embryonic leaves) a radicle(embryonic root) a hypocotyl (the areaof radicle just below the cotyledons)and an epicotyl (embryonic stem) Allof these embryonic plant parts aresurrounded by a protective seed coat(see figure 2) Carbohydrates proteinsand fats stored in the cotyledonssupply the energy needed duringgermination until the true leaves beginphotosynthesis The radicle becomesthe primary root and is the initialanchoring and absorption structureduring alfalfa emergence The epicotylis the growing point (where themeristematic tissue is located) of thefuture stem and is protected betweenthe two cotyledons until the cotyledonsare above ground and separate Thescar tissue on the seed coat knownas the hilum is the previous point of
attachment of the seed to the pod
Sometimes an alfalfa seed may have acoat not permeable to water and this isknown as a ldquohard seedrdquo A hard seed can
lie dormant in the soil for several weeksor years before germinating Hard seedpercentage is noted on the seed tagand is included in the total germinationcalculation Most hard seed germinateswithin 30 to 60 days of planting Alfalfahard seed cannot be depended upon tothicken a thin stand
Several kinds of coatingsmdashfor examplefungicide Rhizobium bacteria nutrientslime or claymdashmay be applied to the
seed as it is processed and preparedfor marketing In general these seedcoatings have no effect on seed qualitybut are placed on the seed to aidgrowth and development after planting
Management tipsbull Store seed at cool temperatures
and in low humidity Manyprecautions are taken by the alfalfa
seed industry to ensure that thepurchaser receives very high-qualityweed-free seed Decline in seedquality on the farm can be slowed bystoring seed in a cool dry place
bull Re-inoculate with Rhizobium
bacteria if stored beyond
expiration date Alfalfa is generallyinoculated with Rhizobium (a bacteriaresponsible for nitrogen fixation)during seed processing How long
Rhizobium will live depends on
environmental conditions during seedstorage Preinoculated seed storedbeyond the Rhizobium expirationdate (printed on the seed bag label)should be inoculated again with freshRhizobium before planting
External Internal
Seed coat
Cotyledon
Hilum
Radicle
Epicotyl
Hypocotyl
G R O W I N G A L F A L F A
3
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4 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
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Germination amp emergence
A
lfalfa seeds begin to germinateafter absorbing about 125percent of their weight in water
and swelling to break the seed coat(see figure 3) Alfalfa can germinateat temperatures greater than 37˚F butoptimum germination temperature isbetween 65 and 77˚F As soil warms therate of germination increases becauseof increased water movement intothe seed and because of increases inthe rate of other metabolic activitiesassociated with germination
Germination begins with the radicle(young root) emerging through theseed coat near the hilum (see figure 4)
and anchoring itself in the soil as anunbranched tap root (see figure 5)
Supplying the right conditionswill help to assure maximumgermination Prepare a firm weed-
free seedbed to minimize competitionfrom weeds and to ensure good seed-
to-soil contact Avoid overworking thesoil surface as rainfall following seedingmay crust the surface preventingseedling emergence
Management tipsbull Optimize seed-to-soil contact
Poor seed-to-soil contact restrictswater movement from the soil to theseed and causes poor or sporadicgermination In conventionally tilled
seedbeds the best seed-to-soilcontact is achieved when the seedbedis free of clods and when press wheelsor a cultipacker are used to press thesoil onto the seed Many no-till alfalfaplantings fail because they are donewhen the soil is too wet and the seedfurrow does not close resulting inpoor seed-to-soil contact
bull Plant no deeper than frac12 inch
Seeding alfalfa at depths greaterthan frac12 inch makes it difficult or
impossible for the hypocotyl topull the cotyledons above groundespecially in heavy-textured soilsAlfalfa seedlings that do emergefrom deeper than frac12 inch usually areweaker because of greater energyexpenditure during emergence Afirm seedbed is extremely helpful inregulating and maintaining seedingdepth If seed is drilled and noseeds are visible on the surface afterplanting it is likely that the seed wasplanted too deep
Figure 3 The seed on the right is
swollen with water taken up from the
soil This condition marks the first step
in seed germination Under favorable
conditions water uptake begins within
24 to 48 hours after planting
Figure 4 The first part of the seedling to
emerge is the root radicle The radicle
anchors the seedling in the soil and
always grows downward regardless ofthe direction it is pointing when it first
comes out of the seed
G R O W I N G A L F A L F A
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As the radicle tip grows deeper intothe soil the hypocotyl elongatesand pulls the cotyledons and
epicotyl (growing point) above thesoil surface As the cotyledons emerge
above the soil surface the seed coatfalls off and cotyledons open to exposethe epicotyl
Management tipsbull Avoid planting outside
recommended planting window
Planting too early will reduce thegermination rate and increasethe likelihood of disease infectingthe crop Also a few hours of air
temperatures of 24˚
F or lower can killan alfalfa seedling when the secondtrifoliolate leaf has just emerged
bull Provide adequate levels of
nutrients Adequate levels ofnutrients are important for alfalfashoot and root development Nutrientlevels are especially important duringearly seedling establishment toensure a root system large enough tosupport maximum herbage growthfor the life of the plant
bull Minimize risk of soil crusting Soilsthat crust easily create an additionalproblem during alfalfa emergenceThe germinated seed will die ifthe elongating hypocotyl cannot
penetrate this crusted soil and pullthe cotyledons above the soil surfaceExcessive tillage can increase thepotential for crusting Rain irrigationor light tillage may be required tosoften or break the crusted layer
bull Donrsquot plant alfalfa into established
alfalfa fields Established alfalfaplants release a compound into thesoil that reduces germination andgrowth of new alfalfa seedlings aphenomenon known as autotoxicity
or ldquoself-toxicityrdquo The extent ofautotoxicity in a field depends on theamount of alfalfa residue in the soilhow long since the previous stand ofalfalfa was killed soil type amount ofrain or irrigation prior to the seedingof the new crop soil temperature andother factors At high autotoxicityalfalfa germination will be inhibitedat somewhat lower autotoxicity seedwill germinate but plants will bestunted and never yield well To avoidalfalfa autotoxicity in medium toheavy soils plow under or chemicallykill an established alfalfa field thengrow a crop other than alfalfa for oneseason or preferably two seasonsThis also will help reduce disease andinsect populations that may havedeveloped in the original alfalfa field
Figure 5 As the radicle grows the
portion nearest the seed enlarges
and forms a hook It pushes up
through the soil surface dragging
the cotyledons and seed coat with
it Once the seedling emerges aboveground and is exposed to light it
straightens out At the same time
small root hairs are developing on
the lower radicle The root hairs
absorb water and nutrients from the
soil
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6 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
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Seedling growthamp establishment
The establishment phase isthe period between seedlingemergence and first harvest
Cotyledons turn green after openingbut have limited photosynthetic activityfor the energy stored in the cotelydonsis quickly used up and they soon shrivelturn brown and die The epicotylproduces the first leaf which is a singleleaflet (unifoliolate) The meristematicregion of the epicotyl continues to growadding trifoliate leaves (three-leaflet
leaves) or multifoliolate leaves (morethan three leaflets per leaf) on alternatesides of the developing stem (seefigures 7 8 and 9)
While the epicotyl continues to addstem leaves and flowers the bud inthe axil of the unifoliolate leaf beginsto grow and form a secondary stemAdditional secondary stems developfrom the axillary buds at the cotyledonnodes (the points where cotyledonsattach to the stem) Temperaturesof 68 to 85983770F during early seedlingdevelopment are optimum for growthand development however as theseedling continues to develop slightly
cooler temperatures (60 to 75˚F) areideal
Young seedlings are particularlyvulnerable to diseases andherbicide damage As the seedlings
mature they become more resistant toseedling diseases and less susceptible
to herbicide damage Many herbicideshave application restrictions untila specific growth stage is reachedIt is important to be able recognizeeach growth stage so you can applytreatments at the correct time
Management tipsbull Minimize risks of seedling diseases
Soil moisture is necessary for nutrientabsorption by the roots and for rapidseedling development but excessivesoil moisture can stop root growthWet soil conditions also can leadto fungal diseases such as Pythium
(damping off ) Phytophthora (rootrot) Aphanomyces (damping off) and
Rhizoctonia (stem and root canker)Seed-applied fungicides can reducethe incidence of these diseases butplanting in well-drained soils can dothe same
bull Ensure that there are adequate
amounts of Rhizobium in thesoil Rhizobium bacteria may notbe present if alfalfa has not beengrown recently in the field or if soilpH is low Once pH is corrected usepreinoculated alfalfa seed or inoculatethe seed with live Rhizobium prior toplanting in order to provide adequatebacteria In general inoculation isan inexpensive way of ensuring thatadequate Rhizobium bacteria arepresent
bull Optimize nitrogen-fixing potential
Low soil pH (below 65) limitsnodulation and the availability ofmolybdenum which is essential in thenitrogen fixation process Apply limeif a soil test indicates low pH
Figure 6 Cotyledons are usually
the first visible portion of an alfalfa
seedling as they emerge above the soil
surface
Figure 7 The first true leaf to develop
on an alfalfa seedling has just one
leaflet and is called the unifoliate leaf
G R O W I N G A L F A L F A
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Management tipsbull Control weeds during the first 60
days to prevent stand loss Weeds inestablishing stands may out-compete
and shade young alfalfa plantsthinning the stand All weeds shouldbe controlled in new seedings bothspring and fall Herbicides shouldgenerally be applied as early asalfalfa will tolerate the herbicide I ffor example five leaflets are requiredbefore the herbicide should be usedthis means five trifoliate leaflets (notcounting the unifoliate leaf) mustbe visible with each of the leafletsexpanded so they are not touching
each other (see figure 10)bull When to harvest a new seeding
New plantings should notbe harvested until sufficientcarbohydrates have been stored inthe roots to support rapid regrowthDepending on growing conditionsthis generally occurs around 60days after emergence Delayingharvesting beyond 60 days generallydoes not improve regrowth and maydramatically reduce forage quality
Figure 8 The second
leaf to appear has three
leaflets This is called
a trifoliate leaf Most
subsequent leaves are
trifoliate althoughsome varieties produce
leaves with four or
more leaflets per leaf
and these are called
multifoliate leaves
Figure 10 Counting
only the fully expanded
trifoliate leaves reveals
that this plant is at
the five-leaf stage
A leaf is considered
fully expanded when
the outer edges of all
leaflets are no longer
touching
Figure 9 This plant isat the two-leaf stage
Note the two trifoliate
leaves in addition to
the unifoliate leaf At
this stage the seedling
can manufacture all
of its energy through
photosynthesis
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8 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
The radicle tip continues to grow deeperinto the soil The hypocotyl and upperportion of the radicle begin contractilegrowth a process in which these organsenlarge laterally and contract vertically
The radicle begins to thicken anddevelop into the primary taproot (seefigure 13) At the same time smallersecondary roots begin to develop onthe radicle as it grows deeper The
location and extent of secondary rootformation is genetically regulatedRoot growth during establishment isgenerally about 80 percent of herbagegrowth That is for every ounce ofherbage growth there is 08 ounceof root growth However under hottemperatures (greater than 90degF) rootgrowth may drop to 40 percent ofherbage growth
Within four weeks after germinationroot hairs on the radicle become
infected with the nitrogen fixingbacteria Rhizobium meliloti and beginto form the nodules (see figure 11)where atmospheric nitrogen fixationoccurs The rate of Rhizobium infectiondepends on the soil nitrogen contentand the rate of seedling growth Only
Rhizobium meliloti bacteria will infectalfalfa root hairs Rhizobium bacteria thatinfect other legumes (eg soybeans)are incapable of infecting alfalfa andRhizobium meliloti is incapable ofinfecting other legumes Only about 5percent of the alfalfa root hairs becomeinfected and only about 30 percentof these infections result in noduleformation regardless of the quantity of
Rhizobium present
Management tipsbull Ensure that soil pH and fertility is
optimum for nitrogen fixing Lowsoil pH (below 65) limits nodulation
and the availability of molybdenumwhich is essential in the nitrogenfixation process
bull Factors reducing nitrogen fixation
Waterlogged soils inhibit oxygen andnitrogen movement to the roots andnodules Harvesting alfalfa herbagewill cause nitrogen fixation to declineuntil herbage regrowth is adequateto supply the nodules with sugars(energy) from photosynthesis
Figure 11 Within four weeks after
germination if Rhizobium bacteria
are present round structures called
nodules will form on alfalfa roots The
bacteria help the plant use nitrogen
from the air in a process known as
nitrogen fixation
G R O W I N G A L F A L F A
Nitrogen fixing nodules
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Crown formation anddevelopment
Contractile growth (that pulls thelowermost buds below groundto form a crown) begins as early
as one week after emergence and isusually complete within 16 weeksContractile growth pulls the axillarybuds below the soil and forms thecrown (area between the soil surfaceand the cotyledonary nodes) Alfalfavarieties with greater fall dormancy tendto have more pronounced contractilegrowth than those with less dormancy
their nodes are pulled farther below thesoil surface Plants with deep crownstend to be more persistent than plantswith shallow crowns because they haveincreased soil protection from extremelycold air temperatures Axillary buds thatare pulled below the soil surface duringcontractile growth are referred to ascrown buds
Management tipsbull To allow enough time for crown
development avoid seeding afterthe recommended late-summer
planting dates Plants that have notformed a crown will not survivethe winter Following contractilegrowth alfalfa stems may be frostedbut the plant can survive freezingair temperatures because thecrown buds are protected belowthe soil surface Planting laterthan recommended reduces theprobability of having a successfulyield for the crop will face highertemperatures more soil drying and
more weed problems Summer-seeded alfalfa generally needs aminimum of six weeks of growth afteremergence to survive winter withoutinjury and to produce maximumyields the following year
Even brief exposures to airtemperatures below 27˚ F will killyoung alfalfa seedlings Alfalfa plantssurvive cold temperatures by pullingthe lowermost buds below ground toform a crown
Figure 12 Crown development has not
yet begun on these young plants The
cotyledons though brown are still
present Note the distance between
the nodes on the plants in this picture
compared to the distance between
nodes on the plant in figure 13
Figure 13 The lowermost
buds have been pulled
below ground to form the
crown Crown development
on this plant is already
sufficient for winter survival
The crown will continue to
enlarge throughout the life
of the plant
G R O W I N G A L F A L F A
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10 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Vegetative stage
D
uring early vegetative growth in the spring or after harvest the alfalfahas insufficient leaf area to produce enough energy purely throughphotosynthesis to support growth Energy for early regrowth comes from
carbohydrates and other nutrients stored in the root and crown Once vegetativegrowth has attained about 8 inches of height leaf area and photosynthesis haveincreased enough to supply adequate energy for continued growth and to beginreplenishing the root and crown reserves
Alfalfa growth in the spring is predominantly from crown buds and depends ontemperature (see figure 14)
Springgreen-up
Spring growth ideally comes fromcrown buds formed the previousyear during late summer and fall
Green-up occurs when the buds locatedon the crown begin to grow in responseto warm spring temperatures Inaddition to weather the timing of springgreen-up depends on plant health thegenetic fall dormancy of the variety andthe amount of dormancy developed inthe plants during the fall (determinedby fall weather conditions) If plants are
injured or slow to green up considerplanting more winter-hardy varieties
Figure 14 This well-developed crown shows healthy crown buds growing to
produce the seasonrsquos first cutting
Crown buds
Developing shoot
Figure 15 Carbohydrate content of alfalfa roots
growthinitiation
6-8 inchheight
budstage
fullflower
r o o t c a r b o h y
d r a t e
cut at full flower
cut atbud stage
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Growth after cutting
R
egrowth after harvest is primarilyfrom crown buds (figure 14) butmay also come from axillary
buds if cutting is high The number ofstems that develop from either axillaryor crown buds depends on the varietythe developmental stage at the time ofharvest the health of the crown and thecutting height
Environmental conditions play animportant role in determining the rateand amount of vegetative growth Themaximum number of stems on a plantis set within 14 days after harvest and
declines as the plant matures Droughtor flooding stress during the first 14days after harvest can greatly reduce thenumber of stems a plant will produce inthat regrowth period Drought reducesstem growth more than leaf growthcausing shortened plants that are low-yielding but generally high in qualitybecause of increased leaf-to-stem ratio
Immediately after harvest alfalfaregrowth is fastest when temperaturesare 85 to 90˚F However as alfalfa
growth continues maximum growthrate occurs when temperatures arebetween 50 and 80˚F Leaf-to-stem ratiodeclines as the plant matures withineach regrowth period Leaf-to-stemratio is less for growth in spring than inmidsummer The warmer temperaturesand longer days of summer cause morerapid plant development and greatercell wall lignification than occurs in thecooler temperatures and shorter days ofspring
Alfalfa yield is determined by thenumber of stems in a given landarea and the weight of each stemThe maximum number of stems perplant and the weight of each stemare determined during the period ofvegetative development Consequentlyit is important that pH fertility moistureand pests be carefully controlled duringthis period
Management tipsbull The ideal cutting height is at least
2 inches above the soil surface (3 to4 inches if a grass is mixed with the
alfalfa)bull Maximize stem density Short
cutting intervals (less than 35 days)will reduce the number of axillarybuds Moisture stress immediatelyafter cutting will reduce the numberof crown and axillary buds andtherefore will reduce stem densityand yield even if rain occurs later inthe growth cycle
Figure 16 and 17 Regrowth after cutting arises primarily from
crown buds and also from axillary buds if forage is cut high
Axillary buds occur wherever a leaf petiol attaches to the stem
G R O W I N G A L F A L F A
11
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12 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Figure 18 The plant on
the left has suffered
winter injury while
the plant on the right
has not Injured plants
become less vigorous
and are slow to recover
G R O W I N G A L F A L F A
Winter hardeningand winter survival
Shortening days and decliningtemperatures in the fall can cause
some alfalfa varieties to changetheir vegetative growth pattern Stemgrowth in the fall serves as the basisfor assigning varieties a relative falldormancy rating A fall dormancy of1 indicates the greatest fall dormancyand least height of fall growth whilea rating of 11 indicates the least falldormancy and greatest height of fallgrowth Usually the more fall-dormantthe variety the slower it regrowsafter harvest but the better it survives
adverse winter conditions
During the fall dormant varieties altertheir chemical processes to prepare for
winter survival Some of the starch inthe crown and root is converted intosugars that function as antifreeze andhelp keep the crown crown buds androot from freezing at temperatures wellbelow 32˚F Crown buds which willbe the source of growth the followingspring are formed during the fall
Dormant alfalfa varieties can survivetemperatures of about 5˚F after theyhave been prepared for winter survivalby having had at least two weeks oftemperatures alternating between near-freezing nights and 60˚F days Planttissue below the soil surface is insulatedfrom cold air temperatures by soil andlayers of snow When there is no snowcover extremely cold air temperaturescan cause the soil temperature to dropbelow 5˚F This will injure or possibly killthe alfalfa plant
When to cutManagement tips
When to cut for hay or haylageForage yield quality and standpersistence are affected by the
cutting schedule chosen Forage yieldincreases until the plant reaches fullflower while forage quality decreasescontinually during growth Cutting forhigh quality will reduce total seasonyield so one must ensure that the highquality will produce a return to offsetthe yield loss Early season growth maynot flower normally and quality will
decline if it doesnrsquot Therefore using aforage quality stick (available from somestate forage associations and somealfalfa seed marketing companies) ormeasuring forage height and plantstage (as described later) is crucial indetermining when to do the first cuttingin order to harvest alfalfa of the desiredquality The stage to cut alfalfa foroptimum forage quality for dairy cattleranges from the vegetative to early budstage on first cutting and is generally at
bud stage on later cuttings Later stagesmay be harvested for animals with lowernutritional requirements
bull Watch for pests Some insect pestsfeed on the alfalfa bud and flowerExcessive numbers of these insectsin an alfalfa field can remove budsas they form causing the casualobserver to assume that the alfalfahas not begun to form buds Ifinitiation of alfalfa harvesting is based
on plant development then carefulmonitoring of insect populations andplant development is necessary
Figure 19 If crown buds have been
killed the plant must form new
buds to replace them The taller
shoots are from buds that survived
the winter the lower layer of shoots
are from spring-formed buds
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bull Understand the risks of harvesting
during the bud stage Alfalfavarieties developed in the past 10
years have greater disease resistancethan older varieties With adequatefertility and pest control these newervarieties can survive aggressiveharvest schedules better than oldervarieties In addition newer alfalfavarieties have been selected for rapidregrowth which increases their yieldpotential Faster regrowth is a resultof decreased production of auxin (aplant hormone) during the flower budstage allowing earlier regrowth fromcrown buds Harvesting during theflower bud stage provides relativelyhigh forage quality but continuouslyharvesting at this stage will result inlow root carbohydrate reserves andstand decline Alfalfa stands that areintended to remain in productionfor more than three years must beallowed to mature beyond the flowerbud stage at least once during theseason to replenish root reserves
bull Forage yield quality and stand
persistence are considerations
when deciding when to cut
Forage yield increases until the plantreaches full flower while foragequality decreases continually duringgrowth or regrowth (see figure 20)The optimum balance between yieldand quality depends on the cuttingand the forage quality desired Earlyin the growing season plants maynot flower normally and quality maydecline even though the plant is notflowering This can be determinedusing a forage quality stick or bymeasuring plant height Take latercuttings based on growth stage ortime interval (35 to 45 days)
bull The stage to cut alfalfa for
optimum yield and forage quality for milking dairy cows ranges fromthe vegetative to early bud stageon the first cutting to 10 percentflower on the second and thirdcuttings to full flower on a latefall cutting For animals with lower
nutritional requirements later stagesmay be harvested The pictures onthe following pages depict growthstages commonly referred to whendiscussing cutting management
forage yield
first-cut forage quality
late-season forage
quality
vegetative bud first-flower full-flower post-flower
Figure 20 Forage yield and quality at various stages of growth
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Flowering processFlower bud stage
The formation of a flower budmarks a major transition in alfalfagrowth and development Up
to this point the alfalfa plant has beenusing energy from photosynthesis tobuild a larger photosynthetic factory(more leaves) and to store energyin the crown and roots When floraldevelopment begins the plant shifts alarge portion of its energy into flowerproduction and ultimately seedproduction
Alfalfa has an indeterminate growthpattern meaning it continues toproduce both leaves and stems along
with reproductive (bud) structuresBecause of this it is possible to have asingle alfalfa stem with newly emergedleaves flower buds flowers andseedpods Continued vegetative growthmeans the alfalfa crop will increasethrough the flower bud and early flowerstage of development
The onset of floral development iscontrolled primarily by temperatureand photoperiod In midsummer flower
buds may appear on alfalfa regrowththree weeks earlier than in the springwhen temperatures are lower andthe photoperiod shorter Flower budsbegin to appear at the 6th through14th node on the stem depending onenvironmental and genetic factorsFlower bud formation usually beginsat lower nodes in summer (6th through8th nodes) than in spring After the firstflower bud appears a new bud willappear about every three days until the
stem is harvested or reaches maturity
Early budFigure 21 The flowering process
begins when small buds form in the
top one or two leaf axils These buds
are detectable as small swellings in
the axils of the leaves Forage cut at
this stage will be very high in quality
However yield will be reduced Cutting
several times per season at this stage
will decrease persistence
Mid budFigure 22 At the mid bud stage flower
buds are larger and easier to detect
Some buds are beginning to lengthen
Additional buds are forming lower on
the stem
Late budFigure 23 At the late bud stage flower
buds are large and lengthening rapidly
Buds begin developing at three or more
leaf axils lower on the stem
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The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
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16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
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Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
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18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
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Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
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4 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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Germination amp emergence
A
lfalfa seeds begin to germinateafter absorbing about 125percent of their weight in water
and swelling to break the seed coat(see figure 3) Alfalfa can germinateat temperatures greater than 37˚F butoptimum germination temperature isbetween 65 and 77˚F As soil warms therate of germination increases becauseof increased water movement intothe seed and because of increases inthe rate of other metabolic activitiesassociated with germination
Germination begins with the radicle(young root) emerging through theseed coat near the hilum (see figure 4)
and anchoring itself in the soil as anunbranched tap root (see figure 5)
Supplying the right conditionswill help to assure maximumgermination Prepare a firm weed-
free seedbed to minimize competitionfrom weeds and to ensure good seed-
to-soil contact Avoid overworking thesoil surface as rainfall following seedingmay crust the surface preventingseedling emergence
Management tipsbull Optimize seed-to-soil contact
Poor seed-to-soil contact restrictswater movement from the soil to theseed and causes poor or sporadicgermination In conventionally tilled
seedbeds the best seed-to-soilcontact is achieved when the seedbedis free of clods and when press wheelsor a cultipacker are used to press thesoil onto the seed Many no-till alfalfaplantings fail because they are donewhen the soil is too wet and the seedfurrow does not close resulting inpoor seed-to-soil contact
bull Plant no deeper than frac12 inch
Seeding alfalfa at depths greaterthan frac12 inch makes it difficult or
impossible for the hypocotyl topull the cotyledons above groundespecially in heavy-textured soilsAlfalfa seedlings that do emergefrom deeper than frac12 inch usually areweaker because of greater energyexpenditure during emergence Afirm seedbed is extremely helpful inregulating and maintaining seedingdepth If seed is drilled and noseeds are visible on the surface afterplanting it is likely that the seed wasplanted too deep
Figure 3 The seed on the right is
swollen with water taken up from the
soil This condition marks the first step
in seed germination Under favorable
conditions water uptake begins within
24 to 48 hours after planting
Figure 4 The first part of the seedling to
emerge is the root radicle The radicle
anchors the seedling in the soil and
always grows downward regardless ofthe direction it is pointing when it first
comes out of the seed
G R O W I N G A L F A L F A
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As the radicle tip grows deeper intothe soil the hypocotyl elongatesand pulls the cotyledons and
epicotyl (growing point) above thesoil surface As the cotyledons emerge
above the soil surface the seed coatfalls off and cotyledons open to exposethe epicotyl
Management tipsbull Avoid planting outside
recommended planting window
Planting too early will reduce thegermination rate and increasethe likelihood of disease infectingthe crop Also a few hours of air
temperatures of 24˚
F or lower can killan alfalfa seedling when the secondtrifoliolate leaf has just emerged
bull Provide adequate levels of
nutrients Adequate levels ofnutrients are important for alfalfashoot and root development Nutrientlevels are especially important duringearly seedling establishment toensure a root system large enough tosupport maximum herbage growthfor the life of the plant
bull Minimize risk of soil crusting Soilsthat crust easily create an additionalproblem during alfalfa emergenceThe germinated seed will die ifthe elongating hypocotyl cannot
penetrate this crusted soil and pullthe cotyledons above the soil surfaceExcessive tillage can increase thepotential for crusting Rain irrigationor light tillage may be required tosoften or break the crusted layer
bull Donrsquot plant alfalfa into established
alfalfa fields Established alfalfaplants release a compound into thesoil that reduces germination andgrowth of new alfalfa seedlings aphenomenon known as autotoxicity
or ldquoself-toxicityrdquo The extent ofautotoxicity in a field depends on theamount of alfalfa residue in the soilhow long since the previous stand ofalfalfa was killed soil type amount ofrain or irrigation prior to the seedingof the new crop soil temperature andother factors At high autotoxicityalfalfa germination will be inhibitedat somewhat lower autotoxicity seedwill germinate but plants will bestunted and never yield well To avoidalfalfa autotoxicity in medium toheavy soils plow under or chemicallykill an established alfalfa field thengrow a crop other than alfalfa for oneseason or preferably two seasonsThis also will help reduce disease andinsect populations that may havedeveloped in the original alfalfa field
Figure 5 As the radicle grows the
portion nearest the seed enlarges
and forms a hook It pushes up
through the soil surface dragging
the cotyledons and seed coat with
it Once the seedling emerges aboveground and is exposed to light it
straightens out At the same time
small root hairs are developing on
the lower radicle The root hairs
absorb water and nutrients from the
soil
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6 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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Seedling growthamp establishment
The establishment phase isthe period between seedlingemergence and first harvest
Cotyledons turn green after openingbut have limited photosynthetic activityfor the energy stored in the cotelydonsis quickly used up and they soon shrivelturn brown and die The epicotylproduces the first leaf which is a singleleaflet (unifoliolate) The meristematicregion of the epicotyl continues to growadding trifoliate leaves (three-leaflet
leaves) or multifoliolate leaves (morethan three leaflets per leaf) on alternatesides of the developing stem (seefigures 7 8 and 9)
While the epicotyl continues to addstem leaves and flowers the bud inthe axil of the unifoliolate leaf beginsto grow and form a secondary stemAdditional secondary stems developfrom the axillary buds at the cotyledonnodes (the points where cotyledonsattach to the stem) Temperaturesof 68 to 85983770F during early seedlingdevelopment are optimum for growthand development however as theseedling continues to develop slightly
cooler temperatures (60 to 75˚F) areideal
Young seedlings are particularlyvulnerable to diseases andherbicide damage As the seedlings
mature they become more resistant toseedling diseases and less susceptible
to herbicide damage Many herbicideshave application restrictions untila specific growth stage is reachedIt is important to be able recognizeeach growth stage so you can applytreatments at the correct time
Management tipsbull Minimize risks of seedling diseases
Soil moisture is necessary for nutrientabsorption by the roots and for rapidseedling development but excessivesoil moisture can stop root growthWet soil conditions also can leadto fungal diseases such as Pythium
(damping off ) Phytophthora (rootrot) Aphanomyces (damping off) and
Rhizoctonia (stem and root canker)Seed-applied fungicides can reducethe incidence of these diseases butplanting in well-drained soils can dothe same
bull Ensure that there are adequate
amounts of Rhizobium in thesoil Rhizobium bacteria may notbe present if alfalfa has not beengrown recently in the field or if soilpH is low Once pH is corrected usepreinoculated alfalfa seed or inoculatethe seed with live Rhizobium prior toplanting in order to provide adequatebacteria In general inoculation isan inexpensive way of ensuring thatadequate Rhizobium bacteria arepresent
bull Optimize nitrogen-fixing potential
Low soil pH (below 65) limitsnodulation and the availability ofmolybdenum which is essential in thenitrogen fixation process Apply limeif a soil test indicates low pH
Figure 6 Cotyledons are usually
the first visible portion of an alfalfa
seedling as they emerge above the soil
surface
Figure 7 The first true leaf to develop
on an alfalfa seedling has just one
leaflet and is called the unifoliate leaf
G R O W I N G A L F A L F A
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Management tipsbull Control weeds during the first 60
days to prevent stand loss Weeds inestablishing stands may out-compete
and shade young alfalfa plantsthinning the stand All weeds shouldbe controlled in new seedings bothspring and fall Herbicides shouldgenerally be applied as early asalfalfa will tolerate the herbicide I ffor example five leaflets are requiredbefore the herbicide should be usedthis means five trifoliate leaflets (notcounting the unifoliate leaf) mustbe visible with each of the leafletsexpanded so they are not touching
each other (see figure 10)bull When to harvest a new seeding
New plantings should notbe harvested until sufficientcarbohydrates have been stored inthe roots to support rapid regrowthDepending on growing conditionsthis generally occurs around 60days after emergence Delayingharvesting beyond 60 days generallydoes not improve regrowth and maydramatically reduce forage quality
Figure 8 The second
leaf to appear has three
leaflets This is called
a trifoliate leaf Most
subsequent leaves are
trifoliate althoughsome varieties produce
leaves with four or
more leaflets per leaf
and these are called
multifoliate leaves
Figure 10 Counting
only the fully expanded
trifoliate leaves reveals
that this plant is at
the five-leaf stage
A leaf is considered
fully expanded when
the outer edges of all
leaflets are no longer
touching
Figure 9 This plant isat the two-leaf stage
Note the two trifoliate
leaves in addition to
the unifoliate leaf At
this stage the seedling
can manufacture all
of its energy through
photosynthesis
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8 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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The radicle tip continues to grow deeperinto the soil The hypocotyl and upperportion of the radicle begin contractilegrowth a process in which these organsenlarge laterally and contract vertically
The radicle begins to thicken anddevelop into the primary taproot (seefigure 13) At the same time smallersecondary roots begin to develop onthe radicle as it grows deeper The
location and extent of secondary rootformation is genetically regulatedRoot growth during establishment isgenerally about 80 percent of herbagegrowth That is for every ounce ofherbage growth there is 08 ounceof root growth However under hottemperatures (greater than 90degF) rootgrowth may drop to 40 percent ofherbage growth
Within four weeks after germinationroot hairs on the radicle become
infected with the nitrogen fixingbacteria Rhizobium meliloti and beginto form the nodules (see figure 11)where atmospheric nitrogen fixationoccurs The rate of Rhizobium infectiondepends on the soil nitrogen contentand the rate of seedling growth Only
Rhizobium meliloti bacteria will infectalfalfa root hairs Rhizobium bacteria thatinfect other legumes (eg soybeans)are incapable of infecting alfalfa andRhizobium meliloti is incapable ofinfecting other legumes Only about 5percent of the alfalfa root hairs becomeinfected and only about 30 percentof these infections result in noduleformation regardless of the quantity of
Rhizobium present
Management tipsbull Ensure that soil pH and fertility is
optimum for nitrogen fixing Lowsoil pH (below 65) limits nodulation
and the availability of molybdenumwhich is essential in the nitrogenfixation process
bull Factors reducing nitrogen fixation
Waterlogged soils inhibit oxygen andnitrogen movement to the roots andnodules Harvesting alfalfa herbagewill cause nitrogen fixation to declineuntil herbage regrowth is adequateto supply the nodules with sugars(energy) from photosynthesis
Figure 11 Within four weeks after
germination if Rhizobium bacteria
are present round structures called
nodules will form on alfalfa roots The
bacteria help the plant use nitrogen
from the air in a process known as
nitrogen fixation
G R O W I N G A L F A L F A
Nitrogen fixing nodules
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Crown formation anddevelopment
Contractile growth (that pulls thelowermost buds below groundto form a crown) begins as early
as one week after emergence and isusually complete within 16 weeksContractile growth pulls the axillarybuds below the soil and forms thecrown (area between the soil surfaceand the cotyledonary nodes) Alfalfavarieties with greater fall dormancy tendto have more pronounced contractilegrowth than those with less dormancy
their nodes are pulled farther below thesoil surface Plants with deep crownstend to be more persistent than plantswith shallow crowns because they haveincreased soil protection from extremelycold air temperatures Axillary buds thatare pulled below the soil surface duringcontractile growth are referred to ascrown buds
Management tipsbull To allow enough time for crown
development avoid seeding afterthe recommended late-summer
planting dates Plants that have notformed a crown will not survivethe winter Following contractilegrowth alfalfa stems may be frostedbut the plant can survive freezingair temperatures because thecrown buds are protected belowthe soil surface Planting laterthan recommended reduces theprobability of having a successfulyield for the crop will face highertemperatures more soil drying and
more weed problems Summer-seeded alfalfa generally needs aminimum of six weeks of growth afteremergence to survive winter withoutinjury and to produce maximumyields the following year
Even brief exposures to airtemperatures below 27˚ F will killyoung alfalfa seedlings Alfalfa plantssurvive cold temperatures by pullingthe lowermost buds below ground toform a crown
Figure 12 Crown development has not
yet begun on these young plants The
cotyledons though brown are still
present Note the distance between
the nodes on the plants in this picture
compared to the distance between
nodes on the plant in figure 13
Figure 13 The lowermost
buds have been pulled
below ground to form the
crown Crown development
on this plant is already
sufficient for winter survival
The crown will continue to
enlarge throughout the life
of the plant
G R O W I N G A L F A L F A
9
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10 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Vegetative stage
D
uring early vegetative growth in the spring or after harvest the alfalfahas insufficient leaf area to produce enough energy purely throughphotosynthesis to support growth Energy for early regrowth comes from
carbohydrates and other nutrients stored in the root and crown Once vegetativegrowth has attained about 8 inches of height leaf area and photosynthesis haveincreased enough to supply adequate energy for continued growth and to beginreplenishing the root and crown reserves
Alfalfa growth in the spring is predominantly from crown buds and depends ontemperature (see figure 14)
Springgreen-up
Spring growth ideally comes fromcrown buds formed the previousyear during late summer and fall
Green-up occurs when the buds locatedon the crown begin to grow in responseto warm spring temperatures Inaddition to weather the timing of springgreen-up depends on plant health thegenetic fall dormancy of the variety andthe amount of dormancy developed inthe plants during the fall (determinedby fall weather conditions) If plants are
injured or slow to green up considerplanting more winter-hardy varieties
Figure 14 This well-developed crown shows healthy crown buds growing to
produce the seasonrsquos first cutting
Crown buds
Developing shoot
Figure 15 Carbohydrate content of alfalfa roots
growthinitiation
6-8 inchheight
budstage
fullflower
r o o t c a r b o h y
d r a t e
cut at full flower
cut atbud stage
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Growth after cutting
R
egrowth after harvest is primarilyfrom crown buds (figure 14) butmay also come from axillary
buds if cutting is high The number ofstems that develop from either axillaryor crown buds depends on the varietythe developmental stage at the time ofharvest the health of the crown and thecutting height
Environmental conditions play animportant role in determining the rateand amount of vegetative growth Themaximum number of stems on a plantis set within 14 days after harvest and
declines as the plant matures Droughtor flooding stress during the first 14days after harvest can greatly reduce thenumber of stems a plant will produce inthat regrowth period Drought reducesstem growth more than leaf growthcausing shortened plants that are low-yielding but generally high in qualitybecause of increased leaf-to-stem ratio
Immediately after harvest alfalfaregrowth is fastest when temperaturesare 85 to 90˚F However as alfalfa
growth continues maximum growthrate occurs when temperatures arebetween 50 and 80˚F Leaf-to-stem ratiodeclines as the plant matures withineach regrowth period Leaf-to-stemratio is less for growth in spring than inmidsummer The warmer temperaturesand longer days of summer cause morerapid plant development and greatercell wall lignification than occurs in thecooler temperatures and shorter days ofspring
Alfalfa yield is determined by thenumber of stems in a given landarea and the weight of each stemThe maximum number of stems perplant and the weight of each stemare determined during the period ofvegetative development Consequentlyit is important that pH fertility moistureand pests be carefully controlled duringthis period
Management tipsbull The ideal cutting height is at least
2 inches above the soil surface (3 to4 inches if a grass is mixed with the
alfalfa)bull Maximize stem density Short
cutting intervals (less than 35 days)will reduce the number of axillarybuds Moisture stress immediatelyafter cutting will reduce the numberof crown and axillary buds andtherefore will reduce stem densityand yield even if rain occurs later inthe growth cycle
Figure 16 and 17 Regrowth after cutting arises primarily from
crown buds and also from axillary buds if forage is cut high
Axillary buds occur wherever a leaf petiol attaches to the stem
G R O W I N G A L F A L F A
11
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12 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Figure 18 The plant on
the left has suffered
winter injury while
the plant on the right
has not Injured plants
become less vigorous
and are slow to recover
G R O W I N G A L F A L F A
Winter hardeningand winter survival
Shortening days and decliningtemperatures in the fall can cause
some alfalfa varieties to changetheir vegetative growth pattern Stemgrowth in the fall serves as the basisfor assigning varieties a relative falldormancy rating A fall dormancy of1 indicates the greatest fall dormancyand least height of fall growth whilea rating of 11 indicates the least falldormancy and greatest height of fallgrowth Usually the more fall-dormantthe variety the slower it regrowsafter harvest but the better it survives
adverse winter conditions
During the fall dormant varieties altertheir chemical processes to prepare for
winter survival Some of the starch inthe crown and root is converted intosugars that function as antifreeze andhelp keep the crown crown buds androot from freezing at temperatures wellbelow 32˚F Crown buds which willbe the source of growth the followingspring are formed during the fall
Dormant alfalfa varieties can survivetemperatures of about 5˚F after theyhave been prepared for winter survivalby having had at least two weeks oftemperatures alternating between near-freezing nights and 60˚F days Planttissue below the soil surface is insulatedfrom cold air temperatures by soil andlayers of snow When there is no snowcover extremely cold air temperaturescan cause the soil temperature to dropbelow 5˚F This will injure or possibly killthe alfalfa plant
When to cutManagement tips
When to cut for hay or haylageForage yield quality and standpersistence are affected by the
cutting schedule chosen Forage yieldincreases until the plant reaches fullflower while forage quality decreasescontinually during growth Cutting forhigh quality will reduce total seasonyield so one must ensure that the highquality will produce a return to offsetthe yield loss Early season growth maynot flower normally and quality will
decline if it doesnrsquot Therefore using aforage quality stick (available from somestate forage associations and somealfalfa seed marketing companies) ormeasuring forage height and plantstage (as described later) is crucial indetermining when to do the first cuttingin order to harvest alfalfa of the desiredquality The stage to cut alfalfa foroptimum forage quality for dairy cattleranges from the vegetative to early budstage on first cutting and is generally at
bud stage on later cuttings Later stagesmay be harvested for animals with lowernutritional requirements
bull Watch for pests Some insect pestsfeed on the alfalfa bud and flowerExcessive numbers of these insectsin an alfalfa field can remove budsas they form causing the casualobserver to assume that the alfalfahas not begun to form buds Ifinitiation of alfalfa harvesting is based
on plant development then carefulmonitoring of insect populations andplant development is necessary
Figure 19 If crown buds have been
killed the plant must form new
buds to replace them The taller
shoots are from buds that survived
the winter the lower layer of shoots
are from spring-formed buds
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bull Understand the risks of harvesting
during the bud stage Alfalfavarieties developed in the past 10
years have greater disease resistancethan older varieties With adequatefertility and pest control these newervarieties can survive aggressiveharvest schedules better than oldervarieties In addition newer alfalfavarieties have been selected for rapidregrowth which increases their yieldpotential Faster regrowth is a resultof decreased production of auxin (aplant hormone) during the flower budstage allowing earlier regrowth fromcrown buds Harvesting during theflower bud stage provides relativelyhigh forage quality but continuouslyharvesting at this stage will result inlow root carbohydrate reserves andstand decline Alfalfa stands that areintended to remain in productionfor more than three years must beallowed to mature beyond the flowerbud stage at least once during theseason to replenish root reserves
bull Forage yield quality and stand
persistence are considerations
when deciding when to cut
Forage yield increases until the plantreaches full flower while foragequality decreases continually duringgrowth or regrowth (see figure 20)The optimum balance between yieldand quality depends on the cuttingand the forage quality desired Earlyin the growing season plants maynot flower normally and quality maydecline even though the plant is notflowering This can be determinedusing a forage quality stick or bymeasuring plant height Take latercuttings based on growth stage ortime interval (35 to 45 days)
bull The stage to cut alfalfa for
optimum yield and forage quality for milking dairy cows ranges fromthe vegetative to early bud stageon the first cutting to 10 percentflower on the second and thirdcuttings to full flower on a latefall cutting For animals with lower
nutritional requirements later stagesmay be harvested The pictures onthe following pages depict growthstages commonly referred to whendiscussing cutting management
forage yield
first-cut forage quality
late-season forage
quality
vegetative bud first-flower full-flower post-flower
Figure 20 Forage yield and quality at various stages of growth
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Flowering processFlower bud stage
The formation of a flower budmarks a major transition in alfalfagrowth and development Up
to this point the alfalfa plant has beenusing energy from photosynthesis tobuild a larger photosynthetic factory(more leaves) and to store energyin the crown and roots When floraldevelopment begins the plant shifts alarge portion of its energy into flowerproduction and ultimately seedproduction
Alfalfa has an indeterminate growthpattern meaning it continues toproduce both leaves and stems along
with reproductive (bud) structuresBecause of this it is possible to have asingle alfalfa stem with newly emergedleaves flower buds flowers andseedpods Continued vegetative growthmeans the alfalfa crop will increasethrough the flower bud and early flowerstage of development
The onset of floral development iscontrolled primarily by temperatureand photoperiod In midsummer flower
buds may appear on alfalfa regrowththree weeks earlier than in the springwhen temperatures are lower andthe photoperiod shorter Flower budsbegin to appear at the 6th through14th node on the stem depending onenvironmental and genetic factorsFlower bud formation usually beginsat lower nodes in summer (6th through8th nodes) than in spring After the firstflower bud appears a new bud willappear about every three days until the
stem is harvested or reaches maturity
Early budFigure 21 The flowering process
begins when small buds form in the
top one or two leaf axils These buds
are detectable as small swellings in
the axils of the leaves Forage cut at
this stage will be very high in quality
However yield will be reduced Cutting
several times per season at this stage
will decrease persistence
Mid budFigure 22 At the mid bud stage flower
buds are larger and easier to detect
Some buds are beginning to lengthen
Additional buds are forming lower on
the stem
Late budFigure 23 At the late bud stage flower
buds are large and lengthening rapidly
Buds begin developing at three or more
leaf axils lower on the stem
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The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
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16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
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Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
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18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
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Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
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As the radicle tip grows deeper intothe soil the hypocotyl elongatesand pulls the cotyledons and
epicotyl (growing point) above thesoil surface As the cotyledons emerge
above the soil surface the seed coatfalls off and cotyledons open to exposethe epicotyl
Management tipsbull Avoid planting outside
recommended planting window
Planting too early will reduce thegermination rate and increasethe likelihood of disease infectingthe crop Also a few hours of air
temperatures of 24˚
F or lower can killan alfalfa seedling when the secondtrifoliolate leaf has just emerged
bull Provide adequate levels of
nutrients Adequate levels ofnutrients are important for alfalfashoot and root development Nutrientlevels are especially important duringearly seedling establishment toensure a root system large enough tosupport maximum herbage growthfor the life of the plant
bull Minimize risk of soil crusting Soilsthat crust easily create an additionalproblem during alfalfa emergenceThe germinated seed will die ifthe elongating hypocotyl cannot
penetrate this crusted soil and pullthe cotyledons above the soil surfaceExcessive tillage can increase thepotential for crusting Rain irrigationor light tillage may be required tosoften or break the crusted layer
bull Donrsquot plant alfalfa into established
alfalfa fields Established alfalfaplants release a compound into thesoil that reduces germination andgrowth of new alfalfa seedlings aphenomenon known as autotoxicity
or ldquoself-toxicityrdquo The extent ofautotoxicity in a field depends on theamount of alfalfa residue in the soilhow long since the previous stand ofalfalfa was killed soil type amount ofrain or irrigation prior to the seedingof the new crop soil temperature andother factors At high autotoxicityalfalfa germination will be inhibitedat somewhat lower autotoxicity seedwill germinate but plants will bestunted and never yield well To avoidalfalfa autotoxicity in medium toheavy soils plow under or chemicallykill an established alfalfa field thengrow a crop other than alfalfa for oneseason or preferably two seasonsThis also will help reduce disease andinsect populations that may havedeveloped in the original alfalfa field
Figure 5 As the radicle grows the
portion nearest the seed enlarges
and forms a hook It pushes up
through the soil surface dragging
the cotyledons and seed coat with
it Once the seedling emerges aboveground and is exposed to light it
straightens out At the same time
small root hairs are developing on
the lower radicle The root hairs
absorb water and nutrients from the
soil
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6 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Seedling growthamp establishment
The establishment phase isthe period between seedlingemergence and first harvest
Cotyledons turn green after openingbut have limited photosynthetic activityfor the energy stored in the cotelydonsis quickly used up and they soon shrivelturn brown and die The epicotylproduces the first leaf which is a singleleaflet (unifoliolate) The meristematicregion of the epicotyl continues to growadding trifoliate leaves (three-leaflet
leaves) or multifoliolate leaves (morethan three leaflets per leaf) on alternatesides of the developing stem (seefigures 7 8 and 9)
While the epicotyl continues to addstem leaves and flowers the bud inthe axil of the unifoliolate leaf beginsto grow and form a secondary stemAdditional secondary stems developfrom the axillary buds at the cotyledonnodes (the points where cotyledonsattach to the stem) Temperaturesof 68 to 85983770F during early seedlingdevelopment are optimum for growthand development however as theseedling continues to develop slightly
cooler temperatures (60 to 75˚F) areideal
Young seedlings are particularlyvulnerable to diseases andherbicide damage As the seedlings
mature they become more resistant toseedling diseases and less susceptible
to herbicide damage Many herbicideshave application restrictions untila specific growth stage is reachedIt is important to be able recognizeeach growth stage so you can applytreatments at the correct time
Management tipsbull Minimize risks of seedling diseases
Soil moisture is necessary for nutrientabsorption by the roots and for rapidseedling development but excessivesoil moisture can stop root growthWet soil conditions also can leadto fungal diseases such as Pythium
(damping off ) Phytophthora (rootrot) Aphanomyces (damping off) and
Rhizoctonia (stem and root canker)Seed-applied fungicides can reducethe incidence of these diseases butplanting in well-drained soils can dothe same
bull Ensure that there are adequate
amounts of Rhizobium in thesoil Rhizobium bacteria may notbe present if alfalfa has not beengrown recently in the field or if soilpH is low Once pH is corrected usepreinoculated alfalfa seed or inoculatethe seed with live Rhizobium prior toplanting in order to provide adequatebacteria In general inoculation isan inexpensive way of ensuring thatadequate Rhizobium bacteria arepresent
bull Optimize nitrogen-fixing potential
Low soil pH (below 65) limitsnodulation and the availability ofmolybdenum which is essential in thenitrogen fixation process Apply limeif a soil test indicates low pH
Figure 6 Cotyledons are usually
the first visible portion of an alfalfa
seedling as they emerge above the soil
surface
Figure 7 The first true leaf to develop
on an alfalfa seedling has just one
leaflet and is called the unifoliate leaf
G R O W I N G A L F A L F A
8122019 Alfalfa Germination amp Growth
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Management tipsbull Control weeds during the first 60
days to prevent stand loss Weeds inestablishing stands may out-compete
and shade young alfalfa plantsthinning the stand All weeds shouldbe controlled in new seedings bothspring and fall Herbicides shouldgenerally be applied as early asalfalfa will tolerate the herbicide I ffor example five leaflets are requiredbefore the herbicide should be usedthis means five trifoliate leaflets (notcounting the unifoliate leaf) mustbe visible with each of the leafletsexpanded so they are not touching
each other (see figure 10)bull When to harvest a new seeding
New plantings should notbe harvested until sufficientcarbohydrates have been stored inthe roots to support rapid regrowthDepending on growing conditionsthis generally occurs around 60days after emergence Delayingharvesting beyond 60 days generallydoes not improve regrowth and maydramatically reduce forage quality
Figure 8 The second
leaf to appear has three
leaflets This is called
a trifoliate leaf Most
subsequent leaves are
trifoliate althoughsome varieties produce
leaves with four or
more leaflets per leaf
and these are called
multifoliate leaves
Figure 10 Counting
only the fully expanded
trifoliate leaves reveals
that this plant is at
the five-leaf stage
A leaf is considered
fully expanded when
the outer edges of all
leaflets are no longer
touching
Figure 9 This plant isat the two-leaf stage
Note the two trifoliate
leaves in addition to
the unifoliate leaf At
this stage the seedling
can manufacture all
of its energy through
photosynthesis
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8 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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The radicle tip continues to grow deeperinto the soil The hypocotyl and upperportion of the radicle begin contractilegrowth a process in which these organsenlarge laterally and contract vertically
The radicle begins to thicken anddevelop into the primary taproot (seefigure 13) At the same time smallersecondary roots begin to develop onthe radicle as it grows deeper The
location and extent of secondary rootformation is genetically regulatedRoot growth during establishment isgenerally about 80 percent of herbagegrowth That is for every ounce ofherbage growth there is 08 ounceof root growth However under hottemperatures (greater than 90degF) rootgrowth may drop to 40 percent ofherbage growth
Within four weeks after germinationroot hairs on the radicle become
infected with the nitrogen fixingbacteria Rhizobium meliloti and beginto form the nodules (see figure 11)where atmospheric nitrogen fixationoccurs The rate of Rhizobium infectiondepends on the soil nitrogen contentand the rate of seedling growth Only
Rhizobium meliloti bacteria will infectalfalfa root hairs Rhizobium bacteria thatinfect other legumes (eg soybeans)are incapable of infecting alfalfa andRhizobium meliloti is incapable ofinfecting other legumes Only about 5percent of the alfalfa root hairs becomeinfected and only about 30 percentof these infections result in noduleformation regardless of the quantity of
Rhizobium present
Management tipsbull Ensure that soil pH and fertility is
optimum for nitrogen fixing Lowsoil pH (below 65) limits nodulation
and the availability of molybdenumwhich is essential in the nitrogenfixation process
bull Factors reducing nitrogen fixation
Waterlogged soils inhibit oxygen andnitrogen movement to the roots andnodules Harvesting alfalfa herbagewill cause nitrogen fixation to declineuntil herbage regrowth is adequateto supply the nodules with sugars(energy) from photosynthesis
Figure 11 Within four weeks after
germination if Rhizobium bacteria
are present round structures called
nodules will form on alfalfa roots The
bacteria help the plant use nitrogen
from the air in a process known as
nitrogen fixation
G R O W I N G A L F A L F A
Nitrogen fixing nodules
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Crown formation anddevelopment
Contractile growth (that pulls thelowermost buds below groundto form a crown) begins as early
as one week after emergence and isusually complete within 16 weeksContractile growth pulls the axillarybuds below the soil and forms thecrown (area between the soil surfaceand the cotyledonary nodes) Alfalfavarieties with greater fall dormancy tendto have more pronounced contractilegrowth than those with less dormancy
their nodes are pulled farther below thesoil surface Plants with deep crownstend to be more persistent than plantswith shallow crowns because they haveincreased soil protection from extremelycold air temperatures Axillary buds thatare pulled below the soil surface duringcontractile growth are referred to ascrown buds
Management tipsbull To allow enough time for crown
development avoid seeding afterthe recommended late-summer
planting dates Plants that have notformed a crown will not survivethe winter Following contractilegrowth alfalfa stems may be frostedbut the plant can survive freezingair temperatures because thecrown buds are protected belowthe soil surface Planting laterthan recommended reduces theprobability of having a successfulyield for the crop will face highertemperatures more soil drying and
more weed problems Summer-seeded alfalfa generally needs aminimum of six weeks of growth afteremergence to survive winter withoutinjury and to produce maximumyields the following year
Even brief exposures to airtemperatures below 27˚ F will killyoung alfalfa seedlings Alfalfa plantssurvive cold temperatures by pullingthe lowermost buds below ground toform a crown
Figure 12 Crown development has not
yet begun on these young plants The
cotyledons though brown are still
present Note the distance between
the nodes on the plants in this picture
compared to the distance between
nodes on the plant in figure 13
Figure 13 The lowermost
buds have been pulled
below ground to form the
crown Crown development
on this plant is already
sufficient for winter survival
The crown will continue to
enlarge throughout the life
of the plant
G R O W I N G A L F A L F A
9
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10 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Vegetative stage
D
uring early vegetative growth in the spring or after harvest the alfalfahas insufficient leaf area to produce enough energy purely throughphotosynthesis to support growth Energy for early regrowth comes from
carbohydrates and other nutrients stored in the root and crown Once vegetativegrowth has attained about 8 inches of height leaf area and photosynthesis haveincreased enough to supply adequate energy for continued growth and to beginreplenishing the root and crown reserves
Alfalfa growth in the spring is predominantly from crown buds and depends ontemperature (see figure 14)
Springgreen-up
Spring growth ideally comes fromcrown buds formed the previousyear during late summer and fall
Green-up occurs when the buds locatedon the crown begin to grow in responseto warm spring temperatures Inaddition to weather the timing of springgreen-up depends on plant health thegenetic fall dormancy of the variety andthe amount of dormancy developed inthe plants during the fall (determinedby fall weather conditions) If plants are
injured or slow to green up considerplanting more winter-hardy varieties
Figure 14 This well-developed crown shows healthy crown buds growing to
produce the seasonrsquos first cutting
Crown buds
Developing shoot
Figure 15 Carbohydrate content of alfalfa roots
growthinitiation
6-8 inchheight
budstage
fullflower
r o o t c a r b o h y
d r a t e
cut at full flower
cut atbud stage
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Growth after cutting
R
egrowth after harvest is primarilyfrom crown buds (figure 14) butmay also come from axillary
buds if cutting is high The number ofstems that develop from either axillaryor crown buds depends on the varietythe developmental stage at the time ofharvest the health of the crown and thecutting height
Environmental conditions play animportant role in determining the rateand amount of vegetative growth Themaximum number of stems on a plantis set within 14 days after harvest and
declines as the plant matures Droughtor flooding stress during the first 14days after harvest can greatly reduce thenumber of stems a plant will produce inthat regrowth period Drought reducesstem growth more than leaf growthcausing shortened plants that are low-yielding but generally high in qualitybecause of increased leaf-to-stem ratio
Immediately after harvest alfalfaregrowth is fastest when temperaturesare 85 to 90˚F However as alfalfa
growth continues maximum growthrate occurs when temperatures arebetween 50 and 80˚F Leaf-to-stem ratiodeclines as the plant matures withineach regrowth period Leaf-to-stemratio is less for growth in spring than inmidsummer The warmer temperaturesand longer days of summer cause morerapid plant development and greatercell wall lignification than occurs in thecooler temperatures and shorter days ofspring
Alfalfa yield is determined by thenumber of stems in a given landarea and the weight of each stemThe maximum number of stems perplant and the weight of each stemare determined during the period ofvegetative development Consequentlyit is important that pH fertility moistureand pests be carefully controlled duringthis period
Management tipsbull The ideal cutting height is at least
2 inches above the soil surface (3 to4 inches if a grass is mixed with the
alfalfa)bull Maximize stem density Short
cutting intervals (less than 35 days)will reduce the number of axillarybuds Moisture stress immediatelyafter cutting will reduce the numberof crown and axillary buds andtherefore will reduce stem densityand yield even if rain occurs later inthe growth cycle
Figure 16 and 17 Regrowth after cutting arises primarily from
crown buds and also from axillary buds if forage is cut high
Axillary buds occur wherever a leaf petiol attaches to the stem
G R O W I N G A L F A L F A
11
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12 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Figure 18 The plant on
the left has suffered
winter injury while
the plant on the right
has not Injured plants
become less vigorous
and are slow to recover
G R O W I N G A L F A L F A
Winter hardeningand winter survival
Shortening days and decliningtemperatures in the fall can cause
some alfalfa varieties to changetheir vegetative growth pattern Stemgrowth in the fall serves as the basisfor assigning varieties a relative falldormancy rating A fall dormancy of1 indicates the greatest fall dormancyand least height of fall growth whilea rating of 11 indicates the least falldormancy and greatest height of fallgrowth Usually the more fall-dormantthe variety the slower it regrowsafter harvest but the better it survives
adverse winter conditions
During the fall dormant varieties altertheir chemical processes to prepare for
winter survival Some of the starch inthe crown and root is converted intosugars that function as antifreeze andhelp keep the crown crown buds androot from freezing at temperatures wellbelow 32˚F Crown buds which willbe the source of growth the followingspring are formed during the fall
Dormant alfalfa varieties can survivetemperatures of about 5˚F after theyhave been prepared for winter survivalby having had at least two weeks oftemperatures alternating between near-freezing nights and 60˚F days Planttissue below the soil surface is insulatedfrom cold air temperatures by soil andlayers of snow When there is no snowcover extremely cold air temperaturescan cause the soil temperature to dropbelow 5˚F This will injure or possibly killthe alfalfa plant
When to cutManagement tips
When to cut for hay or haylageForage yield quality and standpersistence are affected by the
cutting schedule chosen Forage yieldincreases until the plant reaches fullflower while forage quality decreasescontinually during growth Cutting forhigh quality will reduce total seasonyield so one must ensure that the highquality will produce a return to offsetthe yield loss Early season growth maynot flower normally and quality will
decline if it doesnrsquot Therefore using aforage quality stick (available from somestate forage associations and somealfalfa seed marketing companies) ormeasuring forage height and plantstage (as described later) is crucial indetermining when to do the first cuttingin order to harvest alfalfa of the desiredquality The stage to cut alfalfa foroptimum forage quality for dairy cattleranges from the vegetative to early budstage on first cutting and is generally at
bud stage on later cuttings Later stagesmay be harvested for animals with lowernutritional requirements
bull Watch for pests Some insect pestsfeed on the alfalfa bud and flowerExcessive numbers of these insectsin an alfalfa field can remove budsas they form causing the casualobserver to assume that the alfalfahas not begun to form buds Ifinitiation of alfalfa harvesting is based
on plant development then carefulmonitoring of insect populations andplant development is necessary
Figure 19 If crown buds have been
killed the plant must form new
buds to replace them The taller
shoots are from buds that survived
the winter the lower layer of shoots
are from spring-formed buds
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bull Understand the risks of harvesting
during the bud stage Alfalfavarieties developed in the past 10
years have greater disease resistancethan older varieties With adequatefertility and pest control these newervarieties can survive aggressiveharvest schedules better than oldervarieties In addition newer alfalfavarieties have been selected for rapidregrowth which increases their yieldpotential Faster regrowth is a resultof decreased production of auxin (aplant hormone) during the flower budstage allowing earlier regrowth fromcrown buds Harvesting during theflower bud stage provides relativelyhigh forage quality but continuouslyharvesting at this stage will result inlow root carbohydrate reserves andstand decline Alfalfa stands that areintended to remain in productionfor more than three years must beallowed to mature beyond the flowerbud stage at least once during theseason to replenish root reserves
bull Forage yield quality and stand
persistence are considerations
when deciding when to cut
Forage yield increases until the plantreaches full flower while foragequality decreases continually duringgrowth or regrowth (see figure 20)The optimum balance between yieldand quality depends on the cuttingand the forage quality desired Earlyin the growing season plants maynot flower normally and quality maydecline even though the plant is notflowering This can be determinedusing a forage quality stick or bymeasuring plant height Take latercuttings based on growth stage ortime interval (35 to 45 days)
bull The stage to cut alfalfa for
optimum yield and forage quality for milking dairy cows ranges fromthe vegetative to early bud stageon the first cutting to 10 percentflower on the second and thirdcuttings to full flower on a latefall cutting For animals with lower
nutritional requirements later stagesmay be harvested The pictures onthe following pages depict growthstages commonly referred to whendiscussing cutting management
forage yield
first-cut forage quality
late-season forage
quality
vegetative bud first-flower full-flower post-flower
Figure 20 Forage yield and quality at various stages of growth
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Flowering processFlower bud stage
The formation of a flower budmarks a major transition in alfalfagrowth and development Up
to this point the alfalfa plant has beenusing energy from photosynthesis tobuild a larger photosynthetic factory(more leaves) and to store energyin the crown and roots When floraldevelopment begins the plant shifts alarge portion of its energy into flowerproduction and ultimately seedproduction
Alfalfa has an indeterminate growthpattern meaning it continues toproduce both leaves and stems along
with reproductive (bud) structuresBecause of this it is possible to have asingle alfalfa stem with newly emergedleaves flower buds flowers andseedpods Continued vegetative growthmeans the alfalfa crop will increasethrough the flower bud and early flowerstage of development
The onset of floral development iscontrolled primarily by temperatureand photoperiod In midsummer flower
buds may appear on alfalfa regrowththree weeks earlier than in the springwhen temperatures are lower andthe photoperiod shorter Flower budsbegin to appear at the 6th through14th node on the stem depending onenvironmental and genetic factorsFlower bud formation usually beginsat lower nodes in summer (6th through8th nodes) than in spring After the firstflower bud appears a new bud willappear about every three days until the
stem is harvested or reaches maturity
Early budFigure 21 The flowering process
begins when small buds form in the
top one or two leaf axils These buds
are detectable as small swellings in
the axils of the leaves Forage cut at
this stage will be very high in quality
However yield will be reduced Cutting
several times per season at this stage
will decrease persistence
Mid budFigure 22 At the mid bud stage flower
buds are larger and easier to detect
Some buds are beginning to lengthen
Additional buds are forming lower on
the stem
Late budFigure 23 At the late bud stage flower
buds are large and lengthening rapidly
Buds begin developing at three or more
leaf axils lower on the stem
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The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
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16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
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Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
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18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
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8122019 Alfalfa Germination amp Growth
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Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
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6 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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Seedling growthamp establishment
The establishment phase isthe period between seedlingemergence and first harvest
Cotyledons turn green after openingbut have limited photosynthetic activityfor the energy stored in the cotelydonsis quickly used up and they soon shrivelturn brown and die The epicotylproduces the first leaf which is a singleleaflet (unifoliolate) The meristematicregion of the epicotyl continues to growadding trifoliate leaves (three-leaflet
leaves) or multifoliolate leaves (morethan three leaflets per leaf) on alternatesides of the developing stem (seefigures 7 8 and 9)
While the epicotyl continues to addstem leaves and flowers the bud inthe axil of the unifoliolate leaf beginsto grow and form a secondary stemAdditional secondary stems developfrom the axillary buds at the cotyledonnodes (the points where cotyledonsattach to the stem) Temperaturesof 68 to 85983770F during early seedlingdevelopment are optimum for growthand development however as theseedling continues to develop slightly
cooler temperatures (60 to 75˚F) areideal
Young seedlings are particularlyvulnerable to diseases andherbicide damage As the seedlings
mature they become more resistant toseedling diseases and less susceptible
to herbicide damage Many herbicideshave application restrictions untila specific growth stage is reachedIt is important to be able recognizeeach growth stage so you can applytreatments at the correct time
Management tipsbull Minimize risks of seedling diseases
Soil moisture is necessary for nutrientabsorption by the roots and for rapidseedling development but excessivesoil moisture can stop root growthWet soil conditions also can leadto fungal diseases such as Pythium
(damping off ) Phytophthora (rootrot) Aphanomyces (damping off) and
Rhizoctonia (stem and root canker)Seed-applied fungicides can reducethe incidence of these diseases butplanting in well-drained soils can dothe same
bull Ensure that there are adequate
amounts of Rhizobium in thesoil Rhizobium bacteria may notbe present if alfalfa has not beengrown recently in the field or if soilpH is low Once pH is corrected usepreinoculated alfalfa seed or inoculatethe seed with live Rhizobium prior toplanting in order to provide adequatebacteria In general inoculation isan inexpensive way of ensuring thatadequate Rhizobium bacteria arepresent
bull Optimize nitrogen-fixing potential
Low soil pH (below 65) limitsnodulation and the availability ofmolybdenum which is essential in thenitrogen fixation process Apply limeif a soil test indicates low pH
Figure 6 Cotyledons are usually
the first visible portion of an alfalfa
seedling as they emerge above the soil
surface
Figure 7 The first true leaf to develop
on an alfalfa seedling has just one
leaflet and is called the unifoliate leaf
G R O W I N G A L F A L F A
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Management tipsbull Control weeds during the first 60
days to prevent stand loss Weeds inestablishing stands may out-compete
and shade young alfalfa plantsthinning the stand All weeds shouldbe controlled in new seedings bothspring and fall Herbicides shouldgenerally be applied as early asalfalfa will tolerate the herbicide I ffor example five leaflets are requiredbefore the herbicide should be usedthis means five trifoliate leaflets (notcounting the unifoliate leaf) mustbe visible with each of the leafletsexpanded so they are not touching
each other (see figure 10)bull When to harvest a new seeding
New plantings should notbe harvested until sufficientcarbohydrates have been stored inthe roots to support rapid regrowthDepending on growing conditionsthis generally occurs around 60days after emergence Delayingharvesting beyond 60 days generallydoes not improve regrowth and maydramatically reduce forage quality
Figure 8 The second
leaf to appear has three
leaflets This is called
a trifoliate leaf Most
subsequent leaves are
trifoliate althoughsome varieties produce
leaves with four or
more leaflets per leaf
and these are called
multifoliate leaves
Figure 10 Counting
only the fully expanded
trifoliate leaves reveals
that this plant is at
the five-leaf stage
A leaf is considered
fully expanded when
the outer edges of all
leaflets are no longer
touching
Figure 9 This plant isat the two-leaf stage
Note the two trifoliate
leaves in addition to
the unifoliate leaf At
this stage the seedling
can manufacture all
of its energy through
photosynthesis
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8 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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The radicle tip continues to grow deeperinto the soil The hypocotyl and upperportion of the radicle begin contractilegrowth a process in which these organsenlarge laterally and contract vertically
The radicle begins to thicken anddevelop into the primary taproot (seefigure 13) At the same time smallersecondary roots begin to develop onthe radicle as it grows deeper The
location and extent of secondary rootformation is genetically regulatedRoot growth during establishment isgenerally about 80 percent of herbagegrowth That is for every ounce ofherbage growth there is 08 ounceof root growth However under hottemperatures (greater than 90degF) rootgrowth may drop to 40 percent ofherbage growth
Within four weeks after germinationroot hairs on the radicle become
infected with the nitrogen fixingbacteria Rhizobium meliloti and beginto form the nodules (see figure 11)where atmospheric nitrogen fixationoccurs The rate of Rhizobium infectiondepends on the soil nitrogen contentand the rate of seedling growth Only
Rhizobium meliloti bacteria will infectalfalfa root hairs Rhizobium bacteria thatinfect other legumes (eg soybeans)are incapable of infecting alfalfa andRhizobium meliloti is incapable ofinfecting other legumes Only about 5percent of the alfalfa root hairs becomeinfected and only about 30 percentof these infections result in noduleformation regardless of the quantity of
Rhizobium present
Management tipsbull Ensure that soil pH and fertility is
optimum for nitrogen fixing Lowsoil pH (below 65) limits nodulation
and the availability of molybdenumwhich is essential in the nitrogenfixation process
bull Factors reducing nitrogen fixation
Waterlogged soils inhibit oxygen andnitrogen movement to the roots andnodules Harvesting alfalfa herbagewill cause nitrogen fixation to declineuntil herbage regrowth is adequateto supply the nodules with sugars(energy) from photosynthesis
Figure 11 Within four weeks after
germination if Rhizobium bacteria
are present round structures called
nodules will form on alfalfa roots The
bacteria help the plant use nitrogen
from the air in a process known as
nitrogen fixation
G R O W I N G A L F A L F A
Nitrogen fixing nodules
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Crown formation anddevelopment
Contractile growth (that pulls thelowermost buds below groundto form a crown) begins as early
as one week after emergence and isusually complete within 16 weeksContractile growth pulls the axillarybuds below the soil and forms thecrown (area between the soil surfaceand the cotyledonary nodes) Alfalfavarieties with greater fall dormancy tendto have more pronounced contractilegrowth than those with less dormancy
their nodes are pulled farther below thesoil surface Plants with deep crownstend to be more persistent than plantswith shallow crowns because they haveincreased soil protection from extremelycold air temperatures Axillary buds thatare pulled below the soil surface duringcontractile growth are referred to ascrown buds
Management tipsbull To allow enough time for crown
development avoid seeding afterthe recommended late-summer
planting dates Plants that have notformed a crown will not survivethe winter Following contractilegrowth alfalfa stems may be frostedbut the plant can survive freezingair temperatures because thecrown buds are protected belowthe soil surface Planting laterthan recommended reduces theprobability of having a successfulyield for the crop will face highertemperatures more soil drying and
more weed problems Summer-seeded alfalfa generally needs aminimum of six weeks of growth afteremergence to survive winter withoutinjury and to produce maximumyields the following year
Even brief exposures to airtemperatures below 27˚ F will killyoung alfalfa seedlings Alfalfa plantssurvive cold temperatures by pullingthe lowermost buds below ground toform a crown
Figure 12 Crown development has not
yet begun on these young plants The
cotyledons though brown are still
present Note the distance between
the nodes on the plants in this picture
compared to the distance between
nodes on the plant in figure 13
Figure 13 The lowermost
buds have been pulled
below ground to form the
crown Crown development
on this plant is already
sufficient for winter survival
The crown will continue to
enlarge throughout the life
of the plant
G R O W I N G A L F A L F A
9
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10 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Vegetative stage
D
uring early vegetative growth in the spring or after harvest the alfalfahas insufficient leaf area to produce enough energy purely throughphotosynthesis to support growth Energy for early regrowth comes from
carbohydrates and other nutrients stored in the root and crown Once vegetativegrowth has attained about 8 inches of height leaf area and photosynthesis haveincreased enough to supply adequate energy for continued growth and to beginreplenishing the root and crown reserves
Alfalfa growth in the spring is predominantly from crown buds and depends ontemperature (see figure 14)
Springgreen-up
Spring growth ideally comes fromcrown buds formed the previousyear during late summer and fall
Green-up occurs when the buds locatedon the crown begin to grow in responseto warm spring temperatures Inaddition to weather the timing of springgreen-up depends on plant health thegenetic fall dormancy of the variety andthe amount of dormancy developed inthe plants during the fall (determinedby fall weather conditions) If plants are
injured or slow to green up considerplanting more winter-hardy varieties
Figure 14 This well-developed crown shows healthy crown buds growing to
produce the seasonrsquos first cutting
Crown buds
Developing shoot
Figure 15 Carbohydrate content of alfalfa roots
growthinitiation
6-8 inchheight
budstage
fullflower
r o o t c a r b o h y
d r a t e
cut at full flower
cut atbud stage
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Growth after cutting
R
egrowth after harvest is primarilyfrom crown buds (figure 14) butmay also come from axillary
buds if cutting is high The number ofstems that develop from either axillaryor crown buds depends on the varietythe developmental stage at the time ofharvest the health of the crown and thecutting height
Environmental conditions play animportant role in determining the rateand amount of vegetative growth Themaximum number of stems on a plantis set within 14 days after harvest and
declines as the plant matures Droughtor flooding stress during the first 14days after harvest can greatly reduce thenumber of stems a plant will produce inthat regrowth period Drought reducesstem growth more than leaf growthcausing shortened plants that are low-yielding but generally high in qualitybecause of increased leaf-to-stem ratio
Immediately after harvest alfalfaregrowth is fastest when temperaturesare 85 to 90˚F However as alfalfa
growth continues maximum growthrate occurs when temperatures arebetween 50 and 80˚F Leaf-to-stem ratiodeclines as the plant matures withineach regrowth period Leaf-to-stemratio is less for growth in spring than inmidsummer The warmer temperaturesand longer days of summer cause morerapid plant development and greatercell wall lignification than occurs in thecooler temperatures and shorter days ofspring
Alfalfa yield is determined by thenumber of stems in a given landarea and the weight of each stemThe maximum number of stems perplant and the weight of each stemare determined during the period ofvegetative development Consequentlyit is important that pH fertility moistureand pests be carefully controlled duringthis period
Management tipsbull The ideal cutting height is at least
2 inches above the soil surface (3 to4 inches if a grass is mixed with the
alfalfa)bull Maximize stem density Short
cutting intervals (less than 35 days)will reduce the number of axillarybuds Moisture stress immediatelyafter cutting will reduce the numberof crown and axillary buds andtherefore will reduce stem densityand yield even if rain occurs later inthe growth cycle
Figure 16 and 17 Regrowth after cutting arises primarily from
crown buds and also from axillary buds if forage is cut high
Axillary buds occur wherever a leaf petiol attaches to the stem
G R O W I N G A L F A L F A
11
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12 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Figure 18 The plant on
the left has suffered
winter injury while
the plant on the right
has not Injured plants
become less vigorous
and are slow to recover
G R O W I N G A L F A L F A
Winter hardeningand winter survival
Shortening days and decliningtemperatures in the fall can cause
some alfalfa varieties to changetheir vegetative growth pattern Stemgrowth in the fall serves as the basisfor assigning varieties a relative falldormancy rating A fall dormancy of1 indicates the greatest fall dormancyand least height of fall growth whilea rating of 11 indicates the least falldormancy and greatest height of fallgrowth Usually the more fall-dormantthe variety the slower it regrowsafter harvest but the better it survives
adverse winter conditions
During the fall dormant varieties altertheir chemical processes to prepare for
winter survival Some of the starch inthe crown and root is converted intosugars that function as antifreeze andhelp keep the crown crown buds androot from freezing at temperatures wellbelow 32˚F Crown buds which willbe the source of growth the followingspring are formed during the fall
Dormant alfalfa varieties can survivetemperatures of about 5˚F after theyhave been prepared for winter survivalby having had at least two weeks oftemperatures alternating between near-freezing nights and 60˚F days Planttissue below the soil surface is insulatedfrom cold air temperatures by soil andlayers of snow When there is no snowcover extremely cold air temperaturescan cause the soil temperature to dropbelow 5˚F This will injure or possibly killthe alfalfa plant
When to cutManagement tips
When to cut for hay or haylageForage yield quality and standpersistence are affected by the
cutting schedule chosen Forage yieldincreases until the plant reaches fullflower while forage quality decreasescontinually during growth Cutting forhigh quality will reduce total seasonyield so one must ensure that the highquality will produce a return to offsetthe yield loss Early season growth maynot flower normally and quality will
decline if it doesnrsquot Therefore using aforage quality stick (available from somestate forage associations and somealfalfa seed marketing companies) ormeasuring forage height and plantstage (as described later) is crucial indetermining when to do the first cuttingin order to harvest alfalfa of the desiredquality The stage to cut alfalfa foroptimum forage quality for dairy cattleranges from the vegetative to early budstage on first cutting and is generally at
bud stage on later cuttings Later stagesmay be harvested for animals with lowernutritional requirements
bull Watch for pests Some insect pestsfeed on the alfalfa bud and flowerExcessive numbers of these insectsin an alfalfa field can remove budsas they form causing the casualobserver to assume that the alfalfahas not begun to form buds Ifinitiation of alfalfa harvesting is based
on plant development then carefulmonitoring of insect populations andplant development is necessary
Figure 19 If crown buds have been
killed the plant must form new
buds to replace them The taller
shoots are from buds that survived
the winter the lower layer of shoots
are from spring-formed buds
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bull Understand the risks of harvesting
during the bud stage Alfalfavarieties developed in the past 10
years have greater disease resistancethan older varieties With adequatefertility and pest control these newervarieties can survive aggressiveharvest schedules better than oldervarieties In addition newer alfalfavarieties have been selected for rapidregrowth which increases their yieldpotential Faster regrowth is a resultof decreased production of auxin (aplant hormone) during the flower budstage allowing earlier regrowth fromcrown buds Harvesting during theflower bud stage provides relativelyhigh forage quality but continuouslyharvesting at this stage will result inlow root carbohydrate reserves andstand decline Alfalfa stands that areintended to remain in productionfor more than three years must beallowed to mature beyond the flowerbud stage at least once during theseason to replenish root reserves
bull Forage yield quality and stand
persistence are considerations
when deciding when to cut
Forage yield increases until the plantreaches full flower while foragequality decreases continually duringgrowth or regrowth (see figure 20)The optimum balance between yieldand quality depends on the cuttingand the forage quality desired Earlyin the growing season plants maynot flower normally and quality maydecline even though the plant is notflowering This can be determinedusing a forage quality stick or bymeasuring plant height Take latercuttings based on growth stage ortime interval (35 to 45 days)
bull The stage to cut alfalfa for
optimum yield and forage quality for milking dairy cows ranges fromthe vegetative to early bud stageon the first cutting to 10 percentflower on the second and thirdcuttings to full flower on a latefall cutting For animals with lower
nutritional requirements later stagesmay be harvested The pictures onthe following pages depict growthstages commonly referred to whendiscussing cutting management
forage yield
first-cut forage quality
late-season forage
quality
vegetative bud first-flower full-flower post-flower
Figure 20 Forage yield and quality at various stages of growth
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Flowering processFlower bud stage
The formation of a flower budmarks a major transition in alfalfagrowth and development Up
to this point the alfalfa plant has beenusing energy from photosynthesis tobuild a larger photosynthetic factory(more leaves) and to store energyin the crown and roots When floraldevelopment begins the plant shifts alarge portion of its energy into flowerproduction and ultimately seedproduction
Alfalfa has an indeterminate growthpattern meaning it continues toproduce both leaves and stems along
with reproductive (bud) structuresBecause of this it is possible to have asingle alfalfa stem with newly emergedleaves flower buds flowers andseedpods Continued vegetative growthmeans the alfalfa crop will increasethrough the flower bud and early flowerstage of development
The onset of floral development iscontrolled primarily by temperatureand photoperiod In midsummer flower
buds may appear on alfalfa regrowththree weeks earlier than in the springwhen temperatures are lower andthe photoperiod shorter Flower budsbegin to appear at the 6th through14th node on the stem depending onenvironmental and genetic factorsFlower bud formation usually beginsat lower nodes in summer (6th through8th nodes) than in spring After the firstflower bud appears a new bud willappear about every three days until the
stem is harvested or reaches maturity
Early budFigure 21 The flowering process
begins when small buds form in the
top one or two leaf axils These buds
are detectable as small swellings in
the axils of the leaves Forage cut at
this stage will be very high in quality
However yield will be reduced Cutting
several times per season at this stage
will decrease persistence
Mid budFigure 22 At the mid bud stage flower
buds are larger and easier to detect
Some buds are beginning to lengthen
Additional buds are forming lower on
the stem
Late budFigure 23 At the late bud stage flower
buds are large and lengthening rapidly
Buds begin developing at three or more
leaf axils lower on the stem
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The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
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16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
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Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
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18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
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8122019 Alfalfa Germination amp Growth
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Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
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Management tipsbull Control weeds during the first 60
days to prevent stand loss Weeds inestablishing stands may out-compete
and shade young alfalfa plantsthinning the stand All weeds shouldbe controlled in new seedings bothspring and fall Herbicides shouldgenerally be applied as early asalfalfa will tolerate the herbicide I ffor example five leaflets are requiredbefore the herbicide should be usedthis means five trifoliate leaflets (notcounting the unifoliate leaf) mustbe visible with each of the leafletsexpanded so they are not touching
each other (see figure 10)bull When to harvest a new seeding
New plantings should notbe harvested until sufficientcarbohydrates have been stored inthe roots to support rapid regrowthDepending on growing conditionsthis generally occurs around 60days after emergence Delayingharvesting beyond 60 days generallydoes not improve regrowth and maydramatically reduce forage quality
Figure 8 The second
leaf to appear has three
leaflets This is called
a trifoliate leaf Most
subsequent leaves are
trifoliate althoughsome varieties produce
leaves with four or
more leaflets per leaf
and these are called
multifoliate leaves
Figure 10 Counting
only the fully expanded
trifoliate leaves reveals
that this plant is at
the five-leaf stage
A leaf is considered
fully expanded when
the outer edges of all
leaflets are no longer
touching
Figure 9 This plant isat the two-leaf stage
Note the two trifoliate
leaves in addition to
the unifoliate leaf At
this stage the seedling
can manufacture all
of its energy through
photosynthesis
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8 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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The radicle tip continues to grow deeperinto the soil The hypocotyl and upperportion of the radicle begin contractilegrowth a process in which these organsenlarge laterally and contract vertically
The radicle begins to thicken anddevelop into the primary taproot (seefigure 13) At the same time smallersecondary roots begin to develop onthe radicle as it grows deeper The
location and extent of secondary rootformation is genetically regulatedRoot growth during establishment isgenerally about 80 percent of herbagegrowth That is for every ounce ofherbage growth there is 08 ounceof root growth However under hottemperatures (greater than 90degF) rootgrowth may drop to 40 percent ofherbage growth
Within four weeks after germinationroot hairs on the radicle become
infected with the nitrogen fixingbacteria Rhizobium meliloti and beginto form the nodules (see figure 11)where atmospheric nitrogen fixationoccurs The rate of Rhizobium infectiondepends on the soil nitrogen contentand the rate of seedling growth Only
Rhizobium meliloti bacteria will infectalfalfa root hairs Rhizobium bacteria thatinfect other legumes (eg soybeans)are incapable of infecting alfalfa andRhizobium meliloti is incapable ofinfecting other legumes Only about 5percent of the alfalfa root hairs becomeinfected and only about 30 percentof these infections result in noduleformation regardless of the quantity of
Rhizobium present
Management tipsbull Ensure that soil pH and fertility is
optimum for nitrogen fixing Lowsoil pH (below 65) limits nodulation
and the availability of molybdenumwhich is essential in the nitrogenfixation process
bull Factors reducing nitrogen fixation
Waterlogged soils inhibit oxygen andnitrogen movement to the roots andnodules Harvesting alfalfa herbagewill cause nitrogen fixation to declineuntil herbage regrowth is adequateto supply the nodules with sugars(energy) from photosynthesis
Figure 11 Within four weeks after
germination if Rhizobium bacteria
are present round structures called
nodules will form on alfalfa roots The
bacteria help the plant use nitrogen
from the air in a process known as
nitrogen fixation
G R O W I N G A L F A L F A
Nitrogen fixing nodules
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Crown formation anddevelopment
Contractile growth (that pulls thelowermost buds below groundto form a crown) begins as early
as one week after emergence and isusually complete within 16 weeksContractile growth pulls the axillarybuds below the soil and forms thecrown (area between the soil surfaceand the cotyledonary nodes) Alfalfavarieties with greater fall dormancy tendto have more pronounced contractilegrowth than those with less dormancy
their nodes are pulled farther below thesoil surface Plants with deep crownstend to be more persistent than plantswith shallow crowns because they haveincreased soil protection from extremelycold air temperatures Axillary buds thatare pulled below the soil surface duringcontractile growth are referred to ascrown buds
Management tipsbull To allow enough time for crown
development avoid seeding afterthe recommended late-summer
planting dates Plants that have notformed a crown will not survivethe winter Following contractilegrowth alfalfa stems may be frostedbut the plant can survive freezingair temperatures because thecrown buds are protected belowthe soil surface Planting laterthan recommended reduces theprobability of having a successfulyield for the crop will face highertemperatures more soil drying and
more weed problems Summer-seeded alfalfa generally needs aminimum of six weeks of growth afteremergence to survive winter withoutinjury and to produce maximumyields the following year
Even brief exposures to airtemperatures below 27˚ F will killyoung alfalfa seedlings Alfalfa plantssurvive cold temperatures by pullingthe lowermost buds below ground toform a crown
Figure 12 Crown development has not
yet begun on these young plants The
cotyledons though brown are still
present Note the distance between
the nodes on the plants in this picture
compared to the distance between
nodes on the plant in figure 13
Figure 13 The lowermost
buds have been pulled
below ground to form the
crown Crown development
on this plant is already
sufficient for winter survival
The crown will continue to
enlarge throughout the life
of the plant
G R O W I N G A L F A L F A
9
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10 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Vegetative stage
D
uring early vegetative growth in the spring or after harvest the alfalfahas insufficient leaf area to produce enough energy purely throughphotosynthesis to support growth Energy for early regrowth comes from
carbohydrates and other nutrients stored in the root and crown Once vegetativegrowth has attained about 8 inches of height leaf area and photosynthesis haveincreased enough to supply adequate energy for continued growth and to beginreplenishing the root and crown reserves
Alfalfa growth in the spring is predominantly from crown buds and depends ontemperature (see figure 14)
Springgreen-up
Spring growth ideally comes fromcrown buds formed the previousyear during late summer and fall
Green-up occurs when the buds locatedon the crown begin to grow in responseto warm spring temperatures Inaddition to weather the timing of springgreen-up depends on plant health thegenetic fall dormancy of the variety andthe amount of dormancy developed inthe plants during the fall (determinedby fall weather conditions) If plants are
injured or slow to green up considerplanting more winter-hardy varieties
Figure 14 This well-developed crown shows healthy crown buds growing to
produce the seasonrsquos first cutting
Crown buds
Developing shoot
Figure 15 Carbohydrate content of alfalfa roots
growthinitiation
6-8 inchheight
budstage
fullflower
r o o t c a r b o h y
d r a t e
cut at full flower
cut atbud stage
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Growth after cutting
R
egrowth after harvest is primarilyfrom crown buds (figure 14) butmay also come from axillary
buds if cutting is high The number ofstems that develop from either axillaryor crown buds depends on the varietythe developmental stage at the time ofharvest the health of the crown and thecutting height
Environmental conditions play animportant role in determining the rateand amount of vegetative growth Themaximum number of stems on a plantis set within 14 days after harvest and
declines as the plant matures Droughtor flooding stress during the first 14days after harvest can greatly reduce thenumber of stems a plant will produce inthat regrowth period Drought reducesstem growth more than leaf growthcausing shortened plants that are low-yielding but generally high in qualitybecause of increased leaf-to-stem ratio
Immediately after harvest alfalfaregrowth is fastest when temperaturesare 85 to 90˚F However as alfalfa
growth continues maximum growthrate occurs when temperatures arebetween 50 and 80˚F Leaf-to-stem ratiodeclines as the plant matures withineach regrowth period Leaf-to-stemratio is less for growth in spring than inmidsummer The warmer temperaturesand longer days of summer cause morerapid plant development and greatercell wall lignification than occurs in thecooler temperatures and shorter days ofspring
Alfalfa yield is determined by thenumber of stems in a given landarea and the weight of each stemThe maximum number of stems perplant and the weight of each stemare determined during the period ofvegetative development Consequentlyit is important that pH fertility moistureand pests be carefully controlled duringthis period
Management tipsbull The ideal cutting height is at least
2 inches above the soil surface (3 to4 inches if a grass is mixed with the
alfalfa)bull Maximize stem density Short
cutting intervals (less than 35 days)will reduce the number of axillarybuds Moisture stress immediatelyafter cutting will reduce the numberof crown and axillary buds andtherefore will reduce stem densityand yield even if rain occurs later inthe growth cycle
Figure 16 and 17 Regrowth after cutting arises primarily from
crown buds and also from axillary buds if forage is cut high
Axillary buds occur wherever a leaf petiol attaches to the stem
G R O W I N G A L F A L F A
11
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12 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Figure 18 The plant on
the left has suffered
winter injury while
the plant on the right
has not Injured plants
become less vigorous
and are slow to recover
G R O W I N G A L F A L F A
Winter hardeningand winter survival
Shortening days and decliningtemperatures in the fall can cause
some alfalfa varieties to changetheir vegetative growth pattern Stemgrowth in the fall serves as the basisfor assigning varieties a relative falldormancy rating A fall dormancy of1 indicates the greatest fall dormancyand least height of fall growth whilea rating of 11 indicates the least falldormancy and greatest height of fallgrowth Usually the more fall-dormantthe variety the slower it regrowsafter harvest but the better it survives
adverse winter conditions
During the fall dormant varieties altertheir chemical processes to prepare for
winter survival Some of the starch inthe crown and root is converted intosugars that function as antifreeze andhelp keep the crown crown buds androot from freezing at temperatures wellbelow 32˚F Crown buds which willbe the source of growth the followingspring are formed during the fall
Dormant alfalfa varieties can survivetemperatures of about 5˚F after theyhave been prepared for winter survivalby having had at least two weeks oftemperatures alternating between near-freezing nights and 60˚F days Planttissue below the soil surface is insulatedfrom cold air temperatures by soil andlayers of snow When there is no snowcover extremely cold air temperaturescan cause the soil temperature to dropbelow 5˚F This will injure or possibly killthe alfalfa plant
When to cutManagement tips
When to cut for hay or haylageForage yield quality and standpersistence are affected by the
cutting schedule chosen Forage yieldincreases until the plant reaches fullflower while forage quality decreasescontinually during growth Cutting forhigh quality will reduce total seasonyield so one must ensure that the highquality will produce a return to offsetthe yield loss Early season growth maynot flower normally and quality will
decline if it doesnrsquot Therefore using aforage quality stick (available from somestate forage associations and somealfalfa seed marketing companies) ormeasuring forage height and plantstage (as described later) is crucial indetermining when to do the first cuttingin order to harvest alfalfa of the desiredquality The stage to cut alfalfa foroptimum forage quality for dairy cattleranges from the vegetative to early budstage on first cutting and is generally at
bud stage on later cuttings Later stagesmay be harvested for animals with lowernutritional requirements
bull Watch for pests Some insect pestsfeed on the alfalfa bud and flowerExcessive numbers of these insectsin an alfalfa field can remove budsas they form causing the casualobserver to assume that the alfalfahas not begun to form buds Ifinitiation of alfalfa harvesting is based
on plant development then carefulmonitoring of insect populations andplant development is necessary
Figure 19 If crown buds have been
killed the plant must form new
buds to replace them The taller
shoots are from buds that survived
the winter the lower layer of shoots
are from spring-formed buds
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bull Understand the risks of harvesting
during the bud stage Alfalfavarieties developed in the past 10
years have greater disease resistancethan older varieties With adequatefertility and pest control these newervarieties can survive aggressiveharvest schedules better than oldervarieties In addition newer alfalfavarieties have been selected for rapidregrowth which increases their yieldpotential Faster regrowth is a resultof decreased production of auxin (aplant hormone) during the flower budstage allowing earlier regrowth fromcrown buds Harvesting during theflower bud stage provides relativelyhigh forage quality but continuouslyharvesting at this stage will result inlow root carbohydrate reserves andstand decline Alfalfa stands that areintended to remain in productionfor more than three years must beallowed to mature beyond the flowerbud stage at least once during theseason to replenish root reserves
bull Forage yield quality and stand
persistence are considerations
when deciding when to cut
Forage yield increases until the plantreaches full flower while foragequality decreases continually duringgrowth or regrowth (see figure 20)The optimum balance between yieldand quality depends on the cuttingand the forage quality desired Earlyin the growing season plants maynot flower normally and quality maydecline even though the plant is notflowering This can be determinedusing a forage quality stick or bymeasuring plant height Take latercuttings based on growth stage ortime interval (35 to 45 days)
bull The stage to cut alfalfa for
optimum yield and forage quality for milking dairy cows ranges fromthe vegetative to early bud stageon the first cutting to 10 percentflower on the second and thirdcuttings to full flower on a latefall cutting For animals with lower
nutritional requirements later stagesmay be harvested The pictures onthe following pages depict growthstages commonly referred to whendiscussing cutting management
forage yield
first-cut forage quality
late-season forage
quality
vegetative bud first-flower full-flower post-flower
Figure 20 Forage yield and quality at various stages of growth
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Flowering processFlower bud stage
The formation of a flower budmarks a major transition in alfalfagrowth and development Up
to this point the alfalfa plant has beenusing energy from photosynthesis tobuild a larger photosynthetic factory(more leaves) and to store energyin the crown and roots When floraldevelopment begins the plant shifts alarge portion of its energy into flowerproduction and ultimately seedproduction
Alfalfa has an indeterminate growthpattern meaning it continues toproduce both leaves and stems along
with reproductive (bud) structuresBecause of this it is possible to have asingle alfalfa stem with newly emergedleaves flower buds flowers andseedpods Continued vegetative growthmeans the alfalfa crop will increasethrough the flower bud and early flowerstage of development
The onset of floral development iscontrolled primarily by temperatureand photoperiod In midsummer flower
buds may appear on alfalfa regrowththree weeks earlier than in the springwhen temperatures are lower andthe photoperiod shorter Flower budsbegin to appear at the 6th through14th node on the stem depending onenvironmental and genetic factorsFlower bud formation usually beginsat lower nodes in summer (6th through8th nodes) than in spring After the firstflower bud appears a new bud willappear about every three days until the
stem is harvested or reaches maturity
Early budFigure 21 The flowering process
begins when small buds form in the
top one or two leaf axils These buds
are detectable as small swellings in
the axils of the leaves Forage cut at
this stage will be very high in quality
However yield will be reduced Cutting
several times per season at this stage
will decrease persistence
Mid budFigure 22 At the mid bud stage flower
buds are larger and easier to detect
Some buds are beginning to lengthen
Additional buds are forming lower on
the stem
Late budFigure 23 At the late bud stage flower
buds are large and lengthening rapidly
Buds begin developing at three or more
leaf axils lower on the stem
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The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
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16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
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Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
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18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
8122019 Alfalfa Germination amp Growth
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8122019 Alfalfa Germination amp Growth
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Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1022
8 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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The radicle tip continues to grow deeperinto the soil The hypocotyl and upperportion of the radicle begin contractilegrowth a process in which these organsenlarge laterally and contract vertically
The radicle begins to thicken anddevelop into the primary taproot (seefigure 13) At the same time smallersecondary roots begin to develop onthe radicle as it grows deeper The
location and extent of secondary rootformation is genetically regulatedRoot growth during establishment isgenerally about 80 percent of herbagegrowth That is for every ounce ofherbage growth there is 08 ounceof root growth However under hottemperatures (greater than 90degF) rootgrowth may drop to 40 percent ofherbage growth
Within four weeks after germinationroot hairs on the radicle become
infected with the nitrogen fixingbacteria Rhizobium meliloti and beginto form the nodules (see figure 11)where atmospheric nitrogen fixationoccurs The rate of Rhizobium infectiondepends on the soil nitrogen contentand the rate of seedling growth Only
Rhizobium meliloti bacteria will infectalfalfa root hairs Rhizobium bacteria thatinfect other legumes (eg soybeans)are incapable of infecting alfalfa andRhizobium meliloti is incapable ofinfecting other legumes Only about 5percent of the alfalfa root hairs becomeinfected and only about 30 percentof these infections result in noduleformation regardless of the quantity of
Rhizobium present
Management tipsbull Ensure that soil pH and fertility is
optimum for nitrogen fixing Lowsoil pH (below 65) limits nodulation
and the availability of molybdenumwhich is essential in the nitrogenfixation process
bull Factors reducing nitrogen fixation
Waterlogged soils inhibit oxygen andnitrogen movement to the roots andnodules Harvesting alfalfa herbagewill cause nitrogen fixation to declineuntil herbage regrowth is adequateto supply the nodules with sugars(energy) from photosynthesis
Figure 11 Within four weeks after
germination if Rhizobium bacteria
are present round structures called
nodules will form on alfalfa roots The
bacteria help the plant use nitrogen
from the air in a process known as
nitrogen fixation
G R O W I N G A L F A L F A
Nitrogen fixing nodules
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Crown formation anddevelopment
Contractile growth (that pulls thelowermost buds below groundto form a crown) begins as early
as one week after emergence and isusually complete within 16 weeksContractile growth pulls the axillarybuds below the soil and forms thecrown (area between the soil surfaceand the cotyledonary nodes) Alfalfavarieties with greater fall dormancy tendto have more pronounced contractilegrowth than those with less dormancy
their nodes are pulled farther below thesoil surface Plants with deep crownstend to be more persistent than plantswith shallow crowns because they haveincreased soil protection from extremelycold air temperatures Axillary buds thatare pulled below the soil surface duringcontractile growth are referred to ascrown buds
Management tipsbull To allow enough time for crown
development avoid seeding afterthe recommended late-summer
planting dates Plants that have notformed a crown will not survivethe winter Following contractilegrowth alfalfa stems may be frostedbut the plant can survive freezingair temperatures because thecrown buds are protected belowthe soil surface Planting laterthan recommended reduces theprobability of having a successfulyield for the crop will face highertemperatures more soil drying and
more weed problems Summer-seeded alfalfa generally needs aminimum of six weeks of growth afteremergence to survive winter withoutinjury and to produce maximumyields the following year
Even brief exposures to airtemperatures below 27˚ F will killyoung alfalfa seedlings Alfalfa plantssurvive cold temperatures by pullingthe lowermost buds below ground toform a crown
Figure 12 Crown development has not
yet begun on these young plants The
cotyledons though brown are still
present Note the distance between
the nodes on the plants in this picture
compared to the distance between
nodes on the plant in figure 13
Figure 13 The lowermost
buds have been pulled
below ground to form the
crown Crown development
on this plant is already
sufficient for winter survival
The crown will continue to
enlarge throughout the life
of the plant
G R O W I N G A L F A L F A
9
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10 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Vegetative stage
D
uring early vegetative growth in the spring or after harvest the alfalfahas insufficient leaf area to produce enough energy purely throughphotosynthesis to support growth Energy for early regrowth comes from
carbohydrates and other nutrients stored in the root and crown Once vegetativegrowth has attained about 8 inches of height leaf area and photosynthesis haveincreased enough to supply adequate energy for continued growth and to beginreplenishing the root and crown reserves
Alfalfa growth in the spring is predominantly from crown buds and depends ontemperature (see figure 14)
Springgreen-up
Spring growth ideally comes fromcrown buds formed the previousyear during late summer and fall
Green-up occurs when the buds locatedon the crown begin to grow in responseto warm spring temperatures Inaddition to weather the timing of springgreen-up depends on plant health thegenetic fall dormancy of the variety andthe amount of dormancy developed inthe plants during the fall (determinedby fall weather conditions) If plants are
injured or slow to green up considerplanting more winter-hardy varieties
Figure 14 This well-developed crown shows healthy crown buds growing to
produce the seasonrsquos first cutting
Crown buds
Developing shoot
Figure 15 Carbohydrate content of alfalfa roots
growthinitiation
6-8 inchheight
budstage
fullflower
r o o t c a r b o h y
d r a t e
cut at full flower
cut atbud stage
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Growth after cutting
R
egrowth after harvest is primarilyfrom crown buds (figure 14) butmay also come from axillary
buds if cutting is high The number ofstems that develop from either axillaryor crown buds depends on the varietythe developmental stage at the time ofharvest the health of the crown and thecutting height
Environmental conditions play animportant role in determining the rateand amount of vegetative growth Themaximum number of stems on a plantis set within 14 days after harvest and
declines as the plant matures Droughtor flooding stress during the first 14days after harvest can greatly reduce thenumber of stems a plant will produce inthat regrowth period Drought reducesstem growth more than leaf growthcausing shortened plants that are low-yielding but generally high in qualitybecause of increased leaf-to-stem ratio
Immediately after harvest alfalfaregrowth is fastest when temperaturesare 85 to 90˚F However as alfalfa
growth continues maximum growthrate occurs when temperatures arebetween 50 and 80˚F Leaf-to-stem ratiodeclines as the plant matures withineach regrowth period Leaf-to-stemratio is less for growth in spring than inmidsummer The warmer temperaturesand longer days of summer cause morerapid plant development and greatercell wall lignification than occurs in thecooler temperatures and shorter days ofspring
Alfalfa yield is determined by thenumber of stems in a given landarea and the weight of each stemThe maximum number of stems perplant and the weight of each stemare determined during the period ofvegetative development Consequentlyit is important that pH fertility moistureand pests be carefully controlled duringthis period
Management tipsbull The ideal cutting height is at least
2 inches above the soil surface (3 to4 inches if a grass is mixed with the
alfalfa)bull Maximize stem density Short
cutting intervals (less than 35 days)will reduce the number of axillarybuds Moisture stress immediatelyafter cutting will reduce the numberof crown and axillary buds andtherefore will reduce stem densityand yield even if rain occurs later inthe growth cycle
Figure 16 and 17 Regrowth after cutting arises primarily from
crown buds and also from axillary buds if forage is cut high
Axillary buds occur wherever a leaf petiol attaches to the stem
G R O W I N G A L F A L F A
11
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12 A L F A L F A G E R M I N A T I O N A N D G R O W T H
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Figure 18 The plant on
the left has suffered
winter injury while
the plant on the right
has not Injured plants
become less vigorous
and are slow to recover
G R O W I N G A L F A L F A
Winter hardeningand winter survival
Shortening days and decliningtemperatures in the fall can cause
some alfalfa varieties to changetheir vegetative growth pattern Stemgrowth in the fall serves as the basisfor assigning varieties a relative falldormancy rating A fall dormancy of1 indicates the greatest fall dormancyand least height of fall growth whilea rating of 11 indicates the least falldormancy and greatest height of fallgrowth Usually the more fall-dormantthe variety the slower it regrowsafter harvest but the better it survives
adverse winter conditions
During the fall dormant varieties altertheir chemical processes to prepare for
winter survival Some of the starch inthe crown and root is converted intosugars that function as antifreeze andhelp keep the crown crown buds androot from freezing at temperatures wellbelow 32˚F Crown buds which willbe the source of growth the followingspring are formed during the fall
Dormant alfalfa varieties can survivetemperatures of about 5˚F after theyhave been prepared for winter survivalby having had at least two weeks oftemperatures alternating between near-freezing nights and 60˚F days Planttissue below the soil surface is insulatedfrom cold air temperatures by soil andlayers of snow When there is no snowcover extremely cold air temperaturescan cause the soil temperature to dropbelow 5˚F This will injure or possibly killthe alfalfa plant
When to cutManagement tips
When to cut for hay or haylageForage yield quality and standpersistence are affected by the
cutting schedule chosen Forage yieldincreases until the plant reaches fullflower while forage quality decreasescontinually during growth Cutting forhigh quality will reduce total seasonyield so one must ensure that the highquality will produce a return to offsetthe yield loss Early season growth maynot flower normally and quality will
decline if it doesnrsquot Therefore using aforage quality stick (available from somestate forage associations and somealfalfa seed marketing companies) ormeasuring forage height and plantstage (as described later) is crucial indetermining when to do the first cuttingin order to harvest alfalfa of the desiredquality The stage to cut alfalfa foroptimum forage quality for dairy cattleranges from the vegetative to early budstage on first cutting and is generally at
bud stage on later cuttings Later stagesmay be harvested for animals with lowernutritional requirements
bull Watch for pests Some insect pestsfeed on the alfalfa bud and flowerExcessive numbers of these insectsin an alfalfa field can remove budsas they form causing the casualobserver to assume that the alfalfahas not begun to form buds Ifinitiation of alfalfa harvesting is based
on plant development then carefulmonitoring of insect populations andplant development is necessary
Figure 19 If crown buds have been
killed the plant must form new
buds to replace them The taller
shoots are from buds that survived
the winter the lower layer of shoots
are from spring-formed buds
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bull Understand the risks of harvesting
during the bud stage Alfalfavarieties developed in the past 10
years have greater disease resistancethan older varieties With adequatefertility and pest control these newervarieties can survive aggressiveharvest schedules better than oldervarieties In addition newer alfalfavarieties have been selected for rapidregrowth which increases their yieldpotential Faster regrowth is a resultof decreased production of auxin (aplant hormone) during the flower budstage allowing earlier regrowth fromcrown buds Harvesting during theflower bud stage provides relativelyhigh forage quality but continuouslyharvesting at this stage will result inlow root carbohydrate reserves andstand decline Alfalfa stands that areintended to remain in productionfor more than three years must beallowed to mature beyond the flowerbud stage at least once during theseason to replenish root reserves
bull Forage yield quality and stand
persistence are considerations
when deciding when to cut
Forage yield increases until the plantreaches full flower while foragequality decreases continually duringgrowth or regrowth (see figure 20)The optimum balance between yieldand quality depends on the cuttingand the forage quality desired Earlyin the growing season plants maynot flower normally and quality maydecline even though the plant is notflowering This can be determinedusing a forage quality stick or bymeasuring plant height Take latercuttings based on growth stage ortime interval (35 to 45 days)
bull The stage to cut alfalfa for
optimum yield and forage quality for milking dairy cows ranges fromthe vegetative to early bud stageon the first cutting to 10 percentflower on the second and thirdcuttings to full flower on a latefall cutting For animals with lower
nutritional requirements later stagesmay be harvested The pictures onthe following pages depict growthstages commonly referred to whendiscussing cutting management
forage yield
first-cut forage quality
late-season forage
quality
vegetative bud first-flower full-flower post-flower
Figure 20 Forage yield and quality at various stages of growth
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Flowering processFlower bud stage
The formation of a flower budmarks a major transition in alfalfagrowth and development Up
to this point the alfalfa plant has beenusing energy from photosynthesis tobuild a larger photosynthetic factory(more leaves) and to store energyin the crown and roots When floraldevelopment begins the plant shifts alarge portion of its energy into flowerproduction and ultimately seedproduction
Alfalfa has an indeterminate growthpattern meaning it continues toproduce both leaves and stems along
with reproductive (bud) structuresBecause of this it is possible to have asingle alfalfa stem with newly emergedleaves flower buds flowers andseedpods Continued vegetative growthmeans the alfalfa crop will increasethrough the flower bud and early flowerstage of development
The onset of floral development iscontrolled primarily by temperatureand photoperiod In midsummer flower
buds may appear on alfalfa regrowththree weeks earlier than in the springwhen temperatures are lower andthe photoperiod shorter Flower budsbegin to appear at the 6th through14th node on the stem depending onenvironmental and genetic factorsFlower bud formation usually beginsat lower nodes in summer (6th through8th nodes) than in spring After the firstflower bud appears a new bud willappear about every three days until the
stem is harvested or reaches maturity
Early budFigure 21 The flowering process
begins when small buds form in the
top one or two leaf axils These buds
are detectable as small swellings in
the axils of the leaves Forage cut at
this stage will be very high in quality
However yield will be reduced Cutting
several times per season at this stage
will decrease persistence
Mid budFigure 22 At the mid bud stage flower
buds are larger and easier to detect
Some buds are beginning to lengthen
Additional buds are forming lower on
the stem
Late budFigure 23 At the late bud stage flower
buds are large and lengthening rapidly
Buds begin developing at three or more
leaf axils lower on the stem
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The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
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16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
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Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
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18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
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Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1122
Crown formation anddevelopment
Contractile growth (that pulls thelowermost buds below groundto form a crown) begins as early
as one week after emergence and isusually complete within 16 weeksContractile growth pulls the axillarybuds below the soil and forms thecrown (area between the soil surfaceand the cotyledonary nodes) Alfalfavarieties with greater fall dormancy tendto have more pronounced contractilegrowth than those with less dormancy
their nodes are pulled farther below thesoil surface Plants with deep crownstend to be more persistent than plantswith shallow crowns because they haveincreased soil protection from extremelycold air temperatures Axillary buds thatare pulled below the soil surface duringcontractile growth are referred to ascrown buds
Management tipsbull To allow enough time for crown
development avoid seeding afterthe recommended late-summer
planting dates Plants that have notformed a crown will not survivethe winter Following contractilegrowth alfalfa stems may be frostedbut the plant can survive freezingair temperatures because thecrown buds are protected belowthe soil surface Planting laterthan recommended reduces theprobability of having a successfulyield for the crop will face highertemperatures more soil drying and
more weed problems Summer-seeded alfalfa generally needs aminimum of six weeks of growth afteremergence to survive winter withoutinjury and to produce maximumyields the following year
Even brief exposures to airtemperatures below 27˚ F will killyoung alfalfa seedlings Alfalfa plantssurvive cold temperatures by pullingthe lowermost buds below ground toform a crown
Figure 12 Crown development has not
yet begun on these young plants The
cotyledons though brown are still
present Note the distance between
the nodes on the plants in this picture
compared to the distance between
nodes on the plant in figure 13
Figure 13 The lowermost
buds have been pulled
below ground to form the
crown Crown development
on this plant is already
sufficient for winter survival
The crown will continue to
enlarge throughout the life
of the plant
G R O W I N G A L F A L F A
9
8122019 Alfalfa Germination amp Growth
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10 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
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N
Y
Vegetative stage
D
uring early vegetative growth in the spring or after harvest the alfalfahas insufficient leaf area to produce enough energy purely throughphotosynthesis to support growth Energy for early regrowth comes from
carbohydrates and other nutrients stored in the root and crown Once vegetativegrowth has attained about 8 inches of height leaf area and photosynthesis haveincreased enough to supply adequate energy for continued growth and to beginreplenishing the root and crown reserves
Alfalfa growth in the spring is predominantly from crown buds and depends ontemperature (see figure 14)
Springgreen-up
Spring growth ideally comes fromcrown buds formed the previousyear during late summer and fall
Green-up occurs when the buds locatedon the crown begin to grow in responseto warm spring temperatures Inaddition to weather the timing of springgreen-up depends on plant health thegenetic fall dormancy of the variety andthe amount of dormancy developed inthe plants during the fall (determinedby fall weather conditions) If plants are
injured or slow to green up considerplanting more winter-hardy varieties
Figure 14 This well-developed crown shows healthy crown buds growing to
produce the seasonrsquos first cutting
Crown buds
Developing shoot
Figure 15 Carbohydrate content of alfalfa roots
growthinitiation
6-8 inchheight
budstage
fullflower
r o o t c a r b o h y
d r a t e
cut at full flower
cut atbud stage
8122019 Alfalfa Germination amp Growth
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Growth after cutting
R
egrowth after harvest is primarilyfrom crown buds (figure 14) butmay also come from axillary
buds if cutting is high The number ofstems that develop from either axillaryor crown buds depends on the varietythe developmental stage at the time ofharvest the health of the crown and thecutting height
Environmental conditions play animportant role in determining the rateand amount of vegetative growth Themaximum number of stems on a plantis set within 14 days after harvest and
declines as the plant matures Droughtor flooding stress during the first 14days after harvest can greatly reduce thenumber of stems a plant will produce inthat regrowth period Drought reducesstem growth more than leaf growthcausing shortened plants that are low-yielding but generally high in qualitybecause of increased leaf-to-stem ratio
Immediately after harvest alfalfaregrowth is fastest when temperaturesare 85 to 90˚F However as alfalfa
growth continues maximum growthrate occurs when temperatures arebetween 50 and 80˚F Leaf-to-stem ratiodeclines as the plant matures withineach regrowth period Leaf-to-stemratio is less for growth in spring than inmidsummer The warmer temperaturesand longer days of summer cause morerapid plant development and greatercell wall lignification than occurs in thecooler temperatures and shorter days ofspring
Alfalfa yield is determined by thenumber of stems in a given landarea and the weight of each stemThe maximum number of stems perplant and the weight of each stemare determined during the period ofvegetative development Consequentlyit is important that pH fertility moistureand pests be carefully controlled duringthis period
Management tipsbull The ideal cutting height is at least
2 inches above the soil surface (3 to4 inches if a grass is mixed with the
alfalfa)bull Maximize stem density Short
cutting intervals (less than 35 days)will reduce the number of axillarybuds Moisture stress immediatelyafter cutting will reduce the numberof crown and axillary buds andtherefore will reduce stem densityand yield even if rain occurs later inthe growth cycle
Figure 16 and 17 Regrowth after cutting arises primarily from
crown buds and also from axillary buds if forage is cut high
Axillary buds occur wherever a leaf petiol attaches to the stem
G R O W I N G A L F A L F A
11
8122019 Alfalfa Germination amp Growth
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12 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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Figure 18 The plant on
the left has suffered
winter injury while
the plant on the right
has not Injured plants
become less vigorous
and are slow to recover
G R O W I N G A L F A L F A
Winter hardeningand winter survival
Shortening days and decliningtemperatures in the fall can cause
some alfalfa varieties to changetheir vegetative growth pattern Stemgrowth in the fall serves as the basisfor assigning varieties a relative falldormancy rating A fall dormancy of1 indicates the greatest fall dormancyand least height of fall growth whilea rating of 11 indicates the least falldormancy and greatest height of fallgrowth Usually the more fall-dormantthe variety the slower it regrowsafter harvest but the better it survives
adverse winter conditions
During the fall dormant varieties altertheir chemical processes to prepare for
winter survival Some of the starch inthe crown and root is converted intosugars that function as antifreeze andhelp keep the crown crown buds androot from freezing at temperatures wellbelow 32˚F Crown buds which willbe the source of growth the followingspring are formed during the fall
Dormant alfalfa varieties can survivetemperatures of about 5˚F after theyhave been prepared for winter survivalby having had at least two weeks oftemperatures alternating between near-freezing nights and 60˚F days Planttissue below the soil surface is insulatedfrom cold air temperatures by soil andlayers of snow When there is no snowcover extremely cold air temperaturescan cause the soil temperature to dropbelow 5˚F This will injure or possibly killthe alfalfa plant
When to cutManagement tips
When to cut for hay or haylageForage yield quality and standpersistence are affected by the
cutting schedule chosen Forage yieldincreases until the plant reaches fullflower while forage quality decreasescontinually during growth Cutting forhigh quality will reduce total seasonyield so one must ensure that the highquality will produce a return to offsetthe yield loss Early season growth maynot flower normally and quality will
decline if it doesnrsquot Therefore using aforage quality stick (available from somestate forage associations and somealfalfa seed marketing companies) ormeasuring forage height and plantstage (as described later) is crucial indetermining when to do the first cuttingin order to harvest alfalfa of the desiredquality The stage to cut alfalfa foroptimum forage quality for dairy cattleranges from the vegetative to early budstage on first cutting and is generally at
bud stage on later cuttings Later stagesmay be harvested for animals with lowernutritional requirements
bull Watch for pests Some insect pestsfeed on the alfalfa bud and flowerExcessive numbers of these insectsin an alfalfa field can remove budsas they form causing the casualobserver to assume that the alfalfahas not begun to form buds Ifinitiation of alfalfa harvesting is based
on plant development then carefulmonitoring of insect populations andplant development is necessary
Figure 19 If crown buds have been
killed the plant must form new
buds to replace them The taller
shoots are from buds that survived
the winter the lower layer of shoots
are from spring-formed buds
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 152213
bull Understand the risks of harvesting
during the bud stage Alfalfavarieties developed in the past 10
years have greater disease resistancethan older varieties With adequatefertility and pest control these newervarieties can survive aggressiveharvest schedules better than oldervarieties In addition newer alfalfavarieties have been selected for rapidregrowth which increases their yieldpotential Faster regrowth is a resultof decreased production of auxin (aplant hormone) during the flower budstage allowing earlier regrowth fromcrown buds Harvesting during theflower bud stage provides relativelyhigh forage quality but continuouslyharvesting at this stage will result inlow root carbohydrate reserves andstand decline Alfalfa stands that areintended to remain in productionfor more than three years must beallowed to mature beyond the flowerbud stage at least once during theseason to replenish root reserves
bull Forage yield quality and stand
persistence are considerations
when deciding when to cut
Forage yield increases until the plantreaches full flower while foragequality decreases continually duringgrowth or regrowth (see figure 20)The optimum balance between yieldand quality depends on the cuttingand the forage quality desired Earlyin the growing season plants maynot flower normally and quality maydecline even though the plant is notflowering This can be determinedusing a forage quality stick or bymeasuring plant height Take latercuttings based on growth stage ortime interval (35 to 45 days)
bull The stage to cut alfalfa for
optimum yield and forage quality for milking dairy cows ranges fromthe vegetative to early bud stageon the first cutting to 10 percentflower on the second and thirdcuttings to full flower on a latefall cutting For animals with lower
nutritional requirements later stagesmay be harvested The pictures onthe following pages depict growthstages commonly referred to whendiscussing cutting management
forage yield
first-cut forage quality
late-season forage
quality
vegetative bud first-flower full-flower post-flower
Figure 20 Forage yield and quality at various stages of growth
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Flowering processFlower bud stage
The formation of a flower budmarks a major transition in alfalfagrowth and development Up
to this point the alfalfa plant has beenusing energy from photosynthesis tobuild a larger photosynthetic factory(more leaves) and to store energyin the crown and roots When floraldevelopment begins the plant shifts alarge portion of its energy into flowerproduction and ultimately seedproduction
Alfalfa has an indeterminate growthpattern meaning it continues toproduce both leaves and stems along
with reproductive (bud) structuresBecause of this it is possible to have asingle alfalfa stem with newly emergedleaves flower buds flowers andseedpods Continued vegetative growthmeans the alfalfa crop will increasethrough the flower bud and early flowerstage of development
The onset of floral development iscontrolled primarily by temperatureand photoperiod In midsummer flower
buds may appear on alfalfa regrowththree weeks earlier than in the springwhen temperatures are lower andthe photoperiod shorter Flower budsbegin to appear at the 6th through14th node on the stem depending onenvironmental and genetic factorsFlower bud formation usually beginsat lower nodes in summer (6th through8th nodes) than in spring After the firstflower bud appears a new bud willappear about every three days until the
stem is harvested or reaches maturity
Early budFigure 21 The flowering process
begins when small buds form in the
top one or two leaf axils These buds
are detectable as small swellings in
the axils of the leaves Forage cut at
this stage will be very high in quality
However yield will be reduced Cutting
several times per season at this stage
will decrease persistence
Mid budFigure 22 At the mid bud stage flower
buds are larger and easier to detect
Some buds are beginning to lengthen
Additional buds are forming lower on
the stem
Late budFigure 23 At the late bud stage flower
buds are large and lengthening rapidly
Buds begin developing at three or more
leaf axils lower on the stem
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The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
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16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
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Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
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18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
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Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
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10 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
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Vegetative stage
D
uring early vegetative growth in the spring or after harvest the alfalfahas insufficient leaf area to produce enough energy purely throughphotosynthesis to support growth Energy for early regrowth comes from
carbohydrates and other nutrients stored in the root and crown Once vegetativegrowth has attained about 8 inches of height leaf area and photosynthesis haveincreased enough to supply adequate energy for continued growth and to beginreplenishing the root and crown reserves
Alfalfa growth in the spring is predominantly from crown buds and depends ontemperature (see figure 14)
Springgreen-up
Spring growth ideally comes fromcrown buds formed the previousyear during late summer and fall
Green-up occurs when the buds locatedon the crown begin to grow in responseto warm spring temperatures Inaddition to weather the timing of springgreen-up depends on plant health thegenetic fall dormancy of the variety andthe amount of dormancy developed inthe plants during the fall (determinedby fall weather conditions) If plants are
injured or slow to green up considerplanting more winter-hardy varieties
Figure 14 This well-developed crown shows healthy crown buds growing to
produce the seasonrsquos first cutting
Crown buds
Developing shoot
Figure 15 Carbohydrate content of alfalfa roots
growthinitiation
6-8 inchheight
budstage
fullflower
r o o t c a r b o h y
d r a t e
cut at full flower
cut atbud stage
8122019 Alfalfa Germination amp Growth
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Growth after cutting
R
egrowth after harvest is primarilyfrom crown buds (figure 14) butmay also come from axillary
buds if cutting is high The number ofstems that develop from either axillaryor crown buds depends on the varietythe developmental stage at the time ofharvest the health of the crown and thecutting height
Environmental conditions play animportant role in determining the rateand amount of vegetative growth Themaximum number of stems on a plantis set within 14 days after harvest and
declines as the plant matures Droughtor flooding stress during the first 14days after harvest can greatly reduce thenumber of stems a plant will produce inthat regrowth period Drought reducesstem growth more than leaf growthcausing shortened plants that are low-yielding but generally high in qualitybecause of increased leaf-to-stem ratio
Immediately after harvest alfalfaregrowth is fastest when temperaturesare 85 to 90˚F However as alfalfa
growth continues maximum growthrate occurs when temperatures arebetween 50 and 80˚F Leaf-to-stem ratiodeclines as the plant matures withineach regrowth period Leaf-to-stemratio is less for growth in spring than inmidsummer The warmer temperaturesand longer days of summer cause morerapid plant development and greatercell wall lignification than occurs in thecooler temperatures and shorter days ofspring
Alfalfa yield is determined by thenumber of stems in a given landarea and the weight of each stemThe maximum number of stems perplant and the weight of each stemare determined during the period ofvegetative development Consequentlyit is important that pH fertility moistureand pests be carefully controlled duringthis period
Management tipsbull The ideal cutting height is at least
2 inches above the soil surface (3 to4 inches if a grass is mixed with the
alfalfa)bull Maximize stem density Short
cutting intervals (less than 35 days)will reduce the number of axillarybuds Moisture stress immediatelyafter cutting will reduce the numberof crown and axillary buds andtherefore will reduce stem densityand yield even if rain occurs later inthe growth cycle
Figure 16 and 17 Regrowth after cutting arises primarily from
crown buds and also from axillary buds if forage is cut high
Axillary buds occur wherever a leaf petiol attaches to the stem
G R O W I N G A L F A L F A
11
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12 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
Figure 18 The plant on
the left has suffered
winter injury while
the plant on the right
has not Injured plants
become less vigorous
and are slow to recover
G R O W I N G A L F A L F A
Winter hardeningand winter survival
Shortening days and decliningtemperatures in the fall can cause
some alfalfa varieties to changetheir vegetative growth pattern Stemgrowth in the fall serves as the basisfor assigning varieties a relative falldormancy rating A fall dormancy of1 indicates the greatest fall dormancyand least height of fall growth whilea rating of 11 indicates the least falldormancy and greatest height of fallgrowth Usually the more fall-dormantthe variety the slower it regrowsafter harvest but the better it survives
adverse winter conditions
During the fall dormant varieties altertheir chemical processes to prepare for
winter survival Some of the starch inthe crown and root is converted intosugars that function as antifreeze andhelp keep the crown crown buds androot from freezing at temperatures wellbelow 32˚F Crown buds which willbe the source of growth the followingspring are formed during the fall
Dormant alfalfa varieties can survivetemperatures of about 5˚F after theyhave been prepared for winter survivalby having had at least two weeks oftemperatures alternating between near-freezing nights and 60˚F days Planttissue below the soil surface is insulatedfrom cold air temperatures by soil andlayers of snow When there is no snowcover extremely cold air temperaturescan cause the soil temperature to dropbelow 5˚F This will injure or possibly killthe alfalfa plant
When to cutManagement tips
When to cut for hay or haylageForage yield quality and standpersistence are affected by the
cutting schedule chosen Forage yieldincreases until the plant reaches fullflower while forage quality decreasescontinually during growth Cutting forhigh quality will reduce total seasonyield so one must ensure that the highquality will produce a return to offsetthe yield loss Early season growth maynot flower normally and quality will
decline if it doesnrsquot Therefore using aforage quality stick (available from somestate forage associations and somealfalfa seed marketing companies) ormeasuring forage height and plantstage (as described later) is crucial indetermining when to do the first cuttingin order to harvest alfalfa of the desiredquality The stage to cut alfalfa foroptimum forage quality for dairy cattleranges from the vegetative to early budstage on first cutting and is generally at
bud stage on later cuttings Later stagesmay be harvested for animals with lowernutritional requirements
bull Watch for pests Some insect pestsfeed on the alfalfa bud and flowerExcessive numbers of these insectsin an alfalfa field can remove budsas they form causing the casualobserver to assume that the alfalfahas not begun to form buds Ifinitiation of alfalfa harvesting is based
on plant development then carefulmonitoring of insect populations andplant development is necessary
Figure 19 If crown buds have been
killed the plant must form new
buds to replace them The taller
shoots are from buds that survived
the winter the lower layer of shoots
are from spring-formed buds
8122019 Alfalfa Germination amp Growth
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bull Understand the risks of harvesting
during the bud stage Alfalfavarieties developed in the past 10
years have greater disease resistancethan older varieties With adequatefertility and pest control these newervarieties can survive aggressiveharvest schedules better than oldervarieties In addition newer alfalfavarieties have been selected for rapidregrowth which increases their yieldpotential Faster regrowth is a resultof decreased production of auxin (aplant hormone) during the flower budstage allowing earlier regrowth fromcrown buds Harvesting during theflower bud stage provides relativelyhigh forage quality but continuouslyharvesting at this stage will result inlow root carbohydrate reserves andstand decline Alfalfa stands that areintended to remain in productionfor more than three years must beallowed to mature beyond the flowerbud stage at least once during theseason to replenish root reserves
bull Forage yield quality and stand
persistence are considerations
when deciding when to cut
Forage yield increases until the plantreaches full flower while foragequality decreases continually duringgrowth or regrowth (see figure 20)The optimum balance between yieldand quality depends on the cuttingand the forage quality desired Earlyin the growing season plants maynot flower normally and quality maydecline even though the plant is notflowering This can be determinedusing a forage quality stick or bymeasuring plant height Take latercuttings based on growth stage ortime interval (35 to 45 days)
bull The stage to cut alfalfa for
optimum yield and forage quality for milking dairy cows ranges fromthe vegetative to early bud stageon the first cutting to 10 percentflower on the second and thirdcuttings to full flower on a latefall cutting For animals with lower
nutritional requirements later stagesmay be harvested The pictures onthe following pages depict growthstages commonly referred to whendiscussing cutting management
forage yield
first-cut forage quality
late-season forage
quality
vegetative bud first-flower full-flower post-flower
Figure 20 Forage yield and quality at various stages of growth
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1622
14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Flowering processFlower bud stage
The formation of a flower budmarks a major transition in alfalfagrowth and development Up
to this point the alfalfa plant has beenusing energy from photosynthesis tobuild a larger photosynthetic factory(more leaves) and to store energyin the crown and roots When floraldevelopment begins the plant shifts alarge portion of its energy into flowerproduction and ultimately seedproduction
Alfalfa has an indeterminate growthpattern meaning it continues toproduce both leaves and stems along
with reproductive (bud) structuresBecause of this it is possible to have asingle alfalfa stem with newly emergedleaves flower buds flowers andseedpods Continued vegetative growthmeans the alfalfa crop will increasethrough the flower bud and early flowerstage of development
The onset of floral development iscontrolled primarily by temperatureand photoperiod In midsummer flower
buds may appear on alfalfa regrowththree weeks earlier than in the springwhen temperatures are lower andthe photoperiod shorter Flower budsbegin to appear at the 6th through14th node on the stem depending onenvironmental and genetic factorsFlower bud formation usually beginsat lower nodes in summer (6th through8th nodes) than in spring After the firstflower bud appears a new bud willappear about every three days until the
stem is harvested or reaches maturity
Early budFigure 21 The flowering process
begins when small buds form in the
top one or two leaf axils These buds
are detectable as small swellings in
the axils of the leaves Forage cut at
this stage will be very high in quality
However yield will be reduced Cutting
several times per season at this stage
will decrease persistence
Mid budFigure 22 At the mid bud stage flower
buds are larger and easier to detect
Some buds are beginning to lengthen
Additional buds are forming lower on
the stem
Late budFigure 23 At the late bud stage flower
buds are large and lengthening rapidly
Buds begin developing at three or more
leaf axils lower on the stem
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 172215
The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
8122019 Alfalfa Germination amp Growth
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16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1922
Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
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18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
8122019 Alfalfa Germination amp Growth
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Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
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Growth after cutting
R
egrowth after harvest is primarilyfrom crown buds (figure 14) butmay also come from axillary
buds if cutting is high The number ofstems that develop from either axillaryor crown buds depends on the varietythe developmental stage at the time ofharvest the health of the crown and thecutting height
Environmental conditions play animportant role in determining the rateand amount of vegetative growth Themaximum number of stems on a plantis set within 14 days after harvest and
declines as the plant matures Droughtor flooding stress during the first 14days after harvest can greatly reduce thenumber of stems a plant will produce inthat regrowth period Drought reducesstem growth more than leaf growthcausing shortened plants that are low-yielding but generally high in qualitybecause of increased leaf-to-stem ratio
Immediately after harvest alfalfaregrowth is fastest when temperaturesare 85 to 90˚F However as alfalfa
growth continues maximum growthrate occurs when temperatures arebetween 50 and 80˚F Leaf-to-stem ratiodeclines as the plant matures withineach regrowth period Leaf-to-stemratio is less for growth in spring than inmidsummer The warmer temperaturesand longer days of summer cause morerapid plant development and greatercell wall lignification than occurs in thecooler temperatures and shorter days ofspring
Alfalfa yield is determined by thenumber of stems in a given landarea and the weight of each stemThe maximum number of stems perplant and the weight of each stemare determined during the period ofvegetative development Consequentlyit is important that pH fertility moistureand pests be carefully controlled duringthis period
Management tipsbull The ideal cutting height is at least
2 inches above the soil surface (3 to4 inches if a grass is mixed with the
alfalfa)bull Maximize stem density Short
cutting intervals (less than 35 days)will reduce the number of axillarybuds Moisture stress immediatelyafter cutting will reduce the numberof crown and axillary buds andtherefore will reduce stem densityand yield even if rain occurs later inthe growth cycle
Figure 16 and 17 Regrowth after cutting arises primarily from
crown buds and also from axillary buds if forage is cut high
Axillary buds occur wherever a leaf petiol attaches to the stem
G R O W I N G A L F A L F A
11
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12 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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Figure 18 The plant on
the left has suffered
winter injury while
the plant on the right
has not Injured plants
become less vigorous
and are slow to recover
G R O W I N G A L F A L F A
Winter hardeningand winter survival
Shortening days and decliningtemperatures in the fall can cause
some alfalfa varieties to changetheir vegetative growth pattern Stemgrowth in the fall serves as the basisfor assigning varieties a relative falldormancy rating A fall dormancy of1 indicates the greatest fall dormancyand least height of fall growth whilea rating of 11 indicates the least falldormancy and greatest height of fallgrowth Usually the more fall-dormantthe variety the slower it regrowsafter harvest but the better it survives
adverse winter conditions
During the fall dormant varieties altertheir chemical processes to prepare for
winter survival Some of the starch inthe crown and root is converted intosugars that function as antifreeze andhelp keep the crown crown buds androot from freezing at temperatures wellbelow 32˚F Crown buds which willbe the source of growth the followingspring are formed during the fall
Dormant alfalfa varieties can survivetemperatures of about 5˚F after theyhave been prepared for winter survivalby having had at least two weeks oftemperatures alternating between near-freezing nights and 60˚F days Planttissue below the soil surface is insulatedfrom cold air temperatures by soil andlayers of snow When there is no snowcover extremely cold air temperaturescan cause the soil temperature to dropbelow 5˚F This will injure or possibly killthe alfalfa plant
When to cutManagement tips
When to cut for hay or haylageForage yield quality and standpersistence are affected by the
cutting schedule chosen Forage yieldincreases until the plant reaches fullflower while forage quality decreasescontinually during growth Cutting forhigh quality will reduce total seasonyield so one must ensure that the highquality will produce a return to offsetthe yield loss Early season growth maynot flower normally and quality will
decline if it doesnrsquot Therefore using aforage quality stick (available from somestate forage associations and somealfalfa seed marketing companies) ormeasuring forage height and plantstage (as described later) is crucial indetermining when to do the first cuttingin order to harvest alfalfa of the desiredquality The stage to cut alfalfa foroptimum forage quality for dairy cattleranges from the vegetative to early budstage on first cutting and is generally at
bud stage on later cuttings Later stagesmay be harvested for animals with lowernutritional requirements
bull Watch for pests Some insect pestsfeed on the alfalfa bud and flowerExcessive numbers of these insectsin an alfalfa field can remove budsas they form causing the casualobserver to assume that the alfalfahas not begun to form buds Ifinitiation of alfalfa harvesting is based
on plant development then carefulmonitoring of insect populations andplant development is necessary
Figure 19 If crown buds have been
killed the plant must form new
buds to replace them The taller
shoots are from buds that survived
the winter the lower layer of shoots
are from spring-formed buds
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 152213
bull Understand the risks of harvesting
during the bud stage Alfalfavarieties developed in the past 10
years have greater disease resistancethan older varieties With adequatefertility and pest control these newervarieties can survive aggressiveharvest schedules better than oldervarieties In addition newer alfalfavarieties have been selected for rapidregrowth which increases their yieldpotential Faster regrowth is a resultof decreased production of auxin (aplant hormone) during the flower budstage allowing earlier regrowth fromcrown buds Harvesting during theflower bud stage provides relativelyhigh forage quality but continuouslyharvesting at this stage will result inlow root carbohydrate reserves andstand decline Alfalfa stands that areintended to remain in productionfor more than three years must beallowed to mature beyond the flowerbud stage at least once during theseason to replenish root reserves
bull Forage yield quality and stand
persistence are considerations
when deciding when to cut
Forage yield increases until the plantreaches full flower while foragequality decreases continually duringgrowth or regrowth (see figure 20)The optimum balance between yieldand quality depends on the cuttingand the forage quality desired Earlyin the growing season plants maynot flower normally and quality maydecline even though the plant is notflowering This can be determinedusing a forage quality stick or bymeasuring plant height Take latercuttings based on growth stage ortime interval (35 to 45 days)
bull The stage to cut alfalfa for
optimum yield and forage quality for milking dairy cows ranges fromthe vegetative to early bud stageon the first cutting to 10 percentflower on the second and thirdcuttings to full flower on a latefall cutting For animals with lower
nutritional requirements later stagesmay be harvested The pictures onthe following pages depict growthstages commonly referred to whendiscussing cutting management
forage yield
first-cut forage quality
late-season forage
quality
vegetative bud first-flower full-flower post-flower
Figure 20 Forage yield and quality at various stages of growth
8122019 Alfalfa Germination amp Growth
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Flowering processFlower bud stage
The formation of a flower budmarks a major transition in alfalfagrowth and development Up
to this point the alfalfa plant has beenusing energy from photosynthesis tobuild a larger photosynthetic factory(more leaves) and to store energyin the crown and roots When floraldevelopment begins the plant shifts alarge portion of its energy into flowerproduction and ultimately seedproduction
Alfalfa has an indeterminate growthpattern meaning it continues toproduce both leaves and stems along
with reproductive (bud) structuresBecause of this it is possible to have asingle alfalfa stem with newly emergedleaves flower buds flowers andseedpods Continued vegetative growthmeans the alfalfa crop will increasethrough the flower bud and early flowerstage of development
The onset of floral development iscontrolled primarily by temperatureand photoperiod In midsummer flower
buds may appear on alfalfa regrowththree weeks earlier than in the springwhen temperatures are lower andthe photoperiod shorter Flower budsbegin to appear at the 6th through14th node on the stem depending onenvironmental and genetic factorsFlower bud formation usually beginsat lower nodes in summer (6th through8th nodes) than in spring After the firstflower bud appears a new bud willappear about every three days until the
stem is harvested or reaches maturity
Early budFigure 21 The flowering process
begins when small buds form in the
top one or two leaf axils These buds
are detectable as small swellings in
the axils of the leaves Forage cut at
this stage will be very high in quality
However yield will be reduced Cutting
several times per season at this stage
will decrease persistence
Mid budFigure 22 At the mid bud stage flower
buds are larger and easier to detect
Some buds are beginning to lengthen
Additional buds are forming lower on
the stem
Late budFigure 23 At the late bud stage flower
buds are large and lengthening rapidly
Buds begin developing at three or more
leaf axils lower on the stem
8122019 Alfalfa Germination amp Growth
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The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
8122019 Alfalfa Germination amp Growth
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16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
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Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1922
Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2022
18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2122
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2222
Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1422
12 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
Figure 18 The plant on
the left has suffered
winter injury while
the plant on the right
has not Injured plants
become less vigorous
and are slow to recover
G R O W I N G A L F A L F A
Winter hardeningand winter survival
Shortening days and decliningtemperatures in the fall can cause
some alfalfa varieties to changetheir vegetative growth pattern Stemgrowth in the fall serves as the basisfor assigning varieties a relative falldormancy rating A fall dormancy of1 indicates the greatest fall dormancyand least height of fall growth whilea rating of 11 indicates the least falldormancy and greatest height of fallgrowth Usually the more fall-dormantthe variety the slower it regrowsafter harvest but the better it survives
adverse winter conditions
During the fall dormant varieties altertheir chemical processes to prepare for
winter survival Some of the starch inthe crown and root is converted intosugars that function as antifreeze andhelp keep the crown crown buds androot from freezing at temperatures wellbelow 32˚F Crown buds which willbe the source of growth the followingspring are formed during the fall
Dormant alfalfa varieties can survivetemperatures of about 5˚F after theyhave been prepared for winter survivalby having had at least two weeks oftemperatures alternating between near-freezing nights and 60˚F days Planttissue below the soil surface is insulatedfrom cold air temperatures by soil andlayers of snow When there is no snowcover extremely cold air temperaturescan cause the soil temperature to dropbelow 5˚F This will injure or possibly killthe alfalfa plant
When to cutManagement tips
When to cut for hay or haylageForage yield quality and standpersistence are affected by the
cutting schedule chosen Forage yieldincreases until the plant reaches fullflower while forage quality decreasescontinually during growth Cutting forhigh quality will reduce total seasonyield so one must ensure that the highquality will produce a return to offsetthe yield loss Early season growth maynot flower normally and quality will
decline if it doesnrsquot Therefore using aforage quality stick (available from somestate forage associations and somealfalfa seed marketing companies) ormeasuring forage height and plantstage (as described later) is crucial indetermining when to do the first cuttingin order to harvest alfalfa of the desiredquality The stage to cut alfalfa foroptimum forage quality for dairy cattleranges from the vegetative to early budstage on first cutting and is generally at
bud stage on later cuttings Later stagesmay be harvested for animals with lowernutritional requirements
bull Watch for pests Some insect pestsfeed on the alfalfa bud and flowerExcessive numbers of these insectsin an alfalfa field can remove budsas they form causing the casualobserver to assume that the alfalfahas not begun to form buds Ifinitiation of alfalfa harvesting is based
on plant development then carefulmonitoring of insect populations andplant development is necessary
Figure 19 If crown buds have been
killed the plant must form new
buds to replace them The taller
shoots are from buds that survived
the winter the lower layer of shoots
are from spring-formed buds
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 152213
bull Understand the risks of harvesting
during the bud stage Alfalfavarieties developed in the past 10
years have greater disease resistancethan older varieties With adequatefertility and pest control these newervarieties can survive aggressiveharvest schedules better than oldervarieties In addition newer alfalfavarieties have been selected for rapidregrowth which increases their yieldpotential Faster regrowth is a resultof decreased production of auxin (aplant hormone) during the flower budstage allowing earlier regrowth fromcrown buds Harvesting during theflower bud stage provides relativelyhigh forage quality but continuouslyharvesting at this stage will result inlow root carbohydrate reserves andstand decline Alfalfa stands that areintended to remain in productionfor more than three years must beallowed to mature beyond the flowerbud stage at least once during theseason to replenish root reserves
bull Forage yield quality and stand
persistence are considerations
when deciding when to cut
Forage yield increases until the plantreaches full flower while foragequality decreases continually duringgrowth or regrowth (see figure 20)The optimum balance between yieldand quality depends on the cuttingand the forage quality desired Earlyin the growing season plants maynot flower normally and quality maydecline even though the plant is notflowering This can be determinedusing a forage quality stick or bymeasuring plant height Take latercuttings based on growth stage ortime interval (35 to 45 days)
bull The stage to cut alfalfa for
optimum yield and forage quality for milking dairy cows ranges fromthe vegetative to early bud stageon the first cutting to 10 percentflower on the second and thirdcuttings to full flower on a latefall cutting For animals with lower
nutritional requirements later stagesmay be harvested The pictures onthe following pages depict growthstages commonly referred to whendiscussing cutting management
forage yield
first-cut forage quality
late-season forage
quality
vegetative bud first-flower full-flower post-flower
Figure 20 Forage yield and quality at various stages of growth
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1622
14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Flowering processFlower bud stage
The formation of a flower budmarks a major transition in alfalfagrowth and development Up
to this point the alfalfa plant has beenusing energy from photosynthesis tobuild a larger photosynthetic factory(more leaves) and to store energyin the crown and roots When floraldevelopment begins the plant shifts alarge portion of its energy into flowerproduction and ultimately seedproduction
Alfalfa has an indeterminate growthpattern meaning it continues toproduce both leaves and stems along
with reproductive (bud) structuresBecause of this it is possible to have asingle alfalfa stem with newly emergedleaves flower buds flowers andseedpods Continued vegetative growthmeans the alfalfa crop will increasethrough the flower bud and early flowerstage of development
The onset of floral development iscontrolled primarily by temperatureand photoperiod In midsummer flower
buds may appear on alfalfa regrowththree weeks earlier than in the springwhen temperatures are lower andthe photoperiod shorter Flower budsbegin to appear at the 6th through14th node on the stem depending onenvironmental and genetic factorsFlower bud formation usually beginsat lower nodes in summer (6th through8th nodes) than in spring After the firstflower bud appears a new bud willappear about every three days until the
stem is harvested or reaches maturity
Early budFigure 21 The flowering process
begins when small buds form in the
top one or two leaf axils These buds
are detectable as small swellings in
the axils of the leaves Forage cut at
this stage will be very high in quality
However yield will be reduced Cutting
several times per season at this stage
will decrease persistence
Mid budFigure 22 At the mid bud stage flower
buds are larger and easier to detect
Some buds are beginning to lengthen
Additional buds are forming lower on
the stem
Late budFigure 23 At the late bud stage flower
buds are large and lengthening rapidly
Buds begin developing at three or more
leaf axils lower on the stem
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 172215
The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1822
16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
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Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1922
Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2022
18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2122
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2222
Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 152213
bull Understand the risks of harvesting
during the bud stage Alfalfavarieties developed in the past 10
years have greater disease resistancethan older varieties With adequatefertility and pest control these newervarieties can survive aggressiveharvest schedules better than oldervarieties In addition newer alfalfavarieties have been selected for rapidregrowth which increases their yieldpotential Faster regrowth is a resultof decreased production of auxin (aplant hormone) during the flower budstage allowing earlier regrowth fromcrown buds Harvesting during theflower bud stage provides relativelyhigh forage quality but continuouslyharvesting at this stage will result inlow root carbohydrate reserves andstand decline Alfalfa stands that areintended to remain in productionfor more than three years must beallowed to mature beyond the flowerbud stage at least once during theseason to replenish root reserves
bull Forage yield quality and stand
persistence are considerations
when deciding when to cut
Forage yield increases until the plantreaches full flower while foragequality decreases continually duringgrowth or regrowth (see figure 20)The optimum balance between yieldand quality depends on the cuttingand the forage quality desired Earlyin the growing season plants maynot flower normally and quality maydecline even though the plant is notflowering This can be determinedusing a forage quality stick or bymeasuring plant height Take latercuttings based on growth stage ortime interval (35 to 45 days)
bull The stage to cut alfalfa for
optimum yield and forage quality for milking dairy cows ranges fromthe vegetative to early bud stageon the first cutting to 10 percentflower on the second and thirdcuttings to full flower on a latefall cutting For animals with lower
nutritional requirements later stagesmay be harvested The pictures onthe following pages depict growthstages commonly referred to whendiscussing cutting management
forage yield
first-cut forage quality
late-season forage
quality
vegetative bud first-flower full-flower post-flower
Figure 20 Forage yield and quality at various stages of growth
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1622
14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Flowering processFlower bud stage
The formation of a flower budmarks a major transition in alfalfagrowth and development Up
to this point the alfalfa plant has beenusing energy from photosynthesis tobuild a larger photosynthetic factory(more leaves) and to store energyin the crown and roots When floraldevelopment begins the plant shifts alarge portion of its energy into flowerproduction and ultimately seedproduction
Alfalfa has an indeterminate growthpattern meaning it continues toproduce both leaves and stems along
with reproductive (bud) structuresBecause of this it is possible to have asingle alfalfa stem with newly emergedleaves flower buds flowers andseedpods Continued vegetative growthmeans the alfalfa crop will increasethrough the flower bud and early flowerstage of development
The onset of floral development iscontrolled primarily by temperatureand photoperiod In midsummer flower
buds may appear on alfalfa regrowththree weeks earlier than in the springwhen temperatures are lower andthe photoperiod shorter Flower budsbegin to appear at the 6th through14th node on the stem depending onenvironmental and genetic factorsFlower bud formation usually beginsat lower nodes in summer (6th through8th nodes) than in spring After the firstflower bud appears a new bud willappear about every three days until the
stem is harvested or reaches maturity
Early budFigure 21 The flowering process
begins when small buds form in the
top one or two leaf axils These buds
are detectable as small swellings in
the axils of the leaves Forage cut at
this stage will be very high in quality
However yield will be reduced Cutting
several times per season at this stage
will decrease persistence
Mid budFigure 22 At the mid bud stage flower
buds are larger and easier to detect
Some buds are beginning to lengthen
Additional buds are forming lower on
the stem
Late budFigure 23 At the late bud stage flower
buds are large and lengthening rapidly
Buds begin developing at three or more
leaf axils lower on the stem
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 172215
The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1822
16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1922
Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2022
18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2122
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2222
Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1622
14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
14 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Flowering processFlower bud stage
The formation of a flower budmarks a major transition in alfalfagrowth and development Up
to this point the alfalfa plant has beenusing energy from photosynthesis tobuild a larger photosynthetic factory(more leaves) and to store energyin the crown and roots When floraldevelopment begins the plant shifts alarge portion of its energy into flowerproduction and ultimately seedproduction
Alfalfa has an indeterminate growthpattern meaning it continues toproduce both leaves and stems along
with reproductive (bud) structuresBecause of this it is possible to have asingle alfalfa stem with newly emergedleaves flower buds flowers andseedpods Continued vegetative growthmeans the alfalfa crop will increasethrough the flower bud and early flowerstage of development
The onset of floral development iscontrolled primarily by temperatureand photoperiod In midsummer flower
buds may appear on alfalfa regrowththree weeks earlier than in the springwhen temperatures are lower andthe photoperiod shorter Flower budsbegin to appear at the 6th through14th node on the stem depending onenvironmental and genetic factorsFlower bud formation usually beginsat lower nodes in summer (6th through8th nodes) than in spring After the firstflower bud appears a new bud willappear about every three days until the
stem is harvested or reaches maturity
Early budFigure 21 The flowering process
begins when small buds form in the
top one or two leaf axils These buds
are detectable as small swellings in
the axils of the leaves Forage cut at
this stage will be very high in quality
However yield will be reduced Cutting
several times per season at this stage
will decrease persistence
Mid budFigure 22 At the mid bud stage flower
buds are larger and easier to detect
Some buds are beginning to lengthen
Additional buds are forming lower on
the stem
Late budFigure 23 At the late bud stage flower
buds are large and lengthening rapidly
Buds begin developing at three or more
leaf axils lower on the stem
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 172215
The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1822
16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1922
Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2022
18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2122
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2222
Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 172215
The appearance of the first flower budusually indicates that forage quality isbeginning to rapidly decline (see figure
20) This decline is partly due to the lossof lower leaves when they are shadedby leaves higher on the stem andpartly due to continued thickening andlignification of cells in the stem Someproducers begin harvesting when budsfirst appear in order to avoid the rapiddecline in quality thereafter Howeverroot carbohydrate reserves used tosupport early vegetative growth havenot been fully replenished at the budstage
Flower stageThe length of time between whenflower buds form and when flowersopen depends on the environment but
is generally about five days The flowerstage is the interval between when thefirst flower opens and when a seedpodis formed In the fall when there arefewer than 12 hours of daylight flowerbuds often wither and fall off withoutdeveloping into flowers
The alfalfa flower possesses both female(pistil) and male (stamen) structures Theflower petals (corolla) of alfalfa grown inthe United States are usually some shadeof purple because of Medicago sativa
parentage (see figure 24) Yellow flowersshow falcata parentage which indicatesincreased winter hardiness thoughwith less yield However alfalfa flowercolors can vary from cream to yellow toshades of blue-green depending on theparentage of the plant (see figure 25)
Because alfalfa is largely self-incompatible and self-sterile it istypically cross pollinatedmdashpollen from
one flower fertilizes the ovules of aflower on a different plant For alfalfato be pollinated the flower must beldquotrippedrdquo That is the stamen and pistilmust be released from the keel petals(see figure 26) This ldquotrippingrdquo is usuallycaused by nectar- or pollen-collectinginsects such as honeybees alkali beesand leaf-cutter bees Alfalfa pollenis carried by insects not wind Aftertripping and pollination pollen usuallyfertilizes the ovule within 24 to 32 hours
Each alfalfa flower has between 6 and 18ovules in its ovary each of which couldbecome a seed However only 10 to 12ovules usually develop
Flowers generally do not progress toseed production in the fallFlower
Figure 24 Alfalfa flowers grow in
clusters attached to a stem (raceme)
The most common flower color is
purple Purple flowering plants
come from Mediterranean stock and
have high yield and quick recovery
Plants with yellow flowers are from
more winter-hardy stock A small
percentage of flowers may also be
blue cream or white
Figure 26 Flower before tripping
on right Tripped flower on left
Figure 25 Most alfalfa has purple
flowers but many other colors are
possible
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1822
16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1922
Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2022
18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2122
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2222
Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1822
16 A L F A L F A G E R M I N A T I O N A N D G R O W T H
B
O
T O
N
Y
Figure 30 Alfalfa
seedpods take
many shapes
depending on the
number of seeds
they contain and
the parentage of
the plant but most
alfalfa varieties
commonly found in
the United States
have seedpods
that are spiral
shaped
10 percent flowerFigure 27 At this stage 10 percent of the
stems have open flowers Allowing one
cutting per year to grow to this stage
will improve stand persistence Late-
season harvests at this stage may still
provide dairy-quality hay
50 percent flowerFigure 28 Half of the stems have
open flowers Roots have the most
carbohydrates stored at this stage This
is beyond the recommended harvest
stage for quality hay
100 percent flowerFigure 29 All stems now have open
flowers Shoots from crown buds for the
next growth cycle may be visible at the
base of the plant
Seedpod stageAfter the ovules have been fertilizedthey begin to develop into seeds andstretch the ovary which becomes the
pod surrounding the seeds (see figure30) The petals wither and fall offexposing the green seedpod whichbecomes brown with maturity Alfalfaseed must develop for six to eight weeksin the pod before it will become viableseed
Long days and low humidity favorflowering pollination and seeddevelopment Too much or too littlesoil moisture will decrease seedyield Minimum temperatures above
68˚ F favor seed production Lowtemperatures during seed developmenttend to increase the percent of hardseed In the United States seed isproduced primarily in California IdahoNevada Oregon and Washingtonstates where humidity is low and rainscarce during the summer while seed ismaturing and being harvested
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1922
Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2022
18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2122
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2222
Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 1922
Estimating preharvestalfalfa quality
Choose five representative 2-square-foot areas in the field (Sample moretimes for fields larger than 30 acres) In each area determine the stage of the
most mature stem (see below)Then measure the height of the tallest stemNOT the highest leaf Note that the tallest stem may not be the most mature stemUse the chart to determine relative feed value of the standing alfalfa forage Thisprocedure does not account for changes in quality due to wilting harvesting andstorage These factors may lower relative feed value by 10 to 20 points
Management tips foroptimum alfalfa growthand developmentbull Select alfalfa varieties with proven
high-yield potential diseaseresistance and winter hardiness inyour region
bull Get the soil tested then fertilizeand lime according to the soil testrecommendation
bull Plant alfalfa in well-drained fields
bull Buy preinoculated seed or inoculateyour own seed
bull Plant less than frac12 inch deep at anadequate rate for your area
bull Ensure good seed-to-soil contact byfirming soil around seed with presswheels on drill or cultipacker
bull Control weeds especially during first60 days after seeding
bull Control insects
bull Apply needed nutrients annuallybased on soil or tissue tests
bull Follow a harvest schedule whichwill provide forage of the required
quality and will lead to the desired lifeexpectancy of the alfalfa stand
Additional information
The following publications are availablefrom your county extension office
Alfalfa Management Guide (NCR547)
Alfalfa Stand Assessment Is This Stand
Good Enough to Keep (A3620)
Forage Variety Update for Wisconsin (A1525)
latevegetative stem is more than 12 inches tall no visible buds or flowers
early bud 1 to 2 nodes have visible buds no flowers or seed pods present
late bud more than 2 nodes have visible buds no open flowers or seed pods
early flower 1 node with at least one open flower
late flower 2 or more nodes have open flowers
mdashmdashmdashmdashmdashmdashstage of most mature stemmdashmdashmdashmdashmdash
height oftallest stem
(inches)
latevegetative early bud late bud
earlyflower late flower
relative feed value
16 234 220 208 196 186
17 229 215 203 192 182
18 223 211 199 188 178
19 218 206 195 184 175
20 213 201 191 181 171
21 209 197 187 177 168
22 204 193 183 173 16523 200 189 179 170 161
24 196 185 175 167 158
25 191 181 172 163 155
26 187 178 169 160 152
27 184 174 165 157 150
28 180 171 162 154 147
29 176 167 159 151 144
30 173 164 156 148 141
31 169 161 153 146 139
32 166 158 150 143 136
33 163 155 147 140 13434 160 152 145 138 132
35 156 149 142 135 129
36 154 146 139 133 127
37 151 144 137 131 125
38 148 141 134 128 123
39 145 138 132 126 121
40 142 136 130 124 118
Source Derived from equations developed by RW Hintz VN Owens and KA Albrecht at the University of Wisconsin-Madison Department of Agronomy
S U M M A R Y
17
D a i r y q u a l i t y f o r a g e
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2022
18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2122
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2222
Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2022
18 A L F A L F A G E R M I N A T I O N A N D G R O W T H
Glossary Apical meristemmdashThe meristem
at the top of a shoot or tip of aroot here cells are produced that
eventually become shoots leavesor buds
AuxinmdashA plant hormone stimulatinggrowth
AxilmdashThe upper angle between thepetiole of a leaf and the stem fromwhich it grows
Axillary budmdashThe bud formed in theaxil of a leaf
Contractile growthmdashGrowth in which
the root cells contract verticallypulling the cotyledonary nodes andtheir associated axillary buds belowthe soil surface to form the crown
CotyledonsmdashStructures in seeds thatcontain concentrated amounts ofproteins oils and carbohydrates tobe used as energy sources duringgermination and emergence
CrownmdashThe area at the base of thestem with tightly packed nodesand internodes which generatevegetative growth The formation ofthe crown results from contractilegrowth pulling axillary buds on thefirst branches of a seedling belowthe soil surface The crown is thearea of meristematic activity
Crown budmdashThe bud formed at theaxillary site on the crown
EpicotylmdashThe portion of the plantwhich is just above the cotyledons
FertilizationmdashThe union between thepollen grain and the ovule
HilummdashScar tissue on an alfalfa seedwhere the seed was attached to thepericarp (seedpod)
HypocotylmdashThe portion of the plantwhich is just below the cotyledons
Leaf mdashThe plant organ borneby the stem responsiblefor photosynthesis and gas
exchange comprised of thepetiole leaflets and stipule
MeristemmdashThe area of dividingcells undifferentiated tissuecapable of differentiating intospecialized tissue
NodemdashThe location on thestem where the leaf attaches
NodulemdashThe site of nitrogenfixation composed of amass of root cells surrounding theRhizobium bacteria
OvarymdashLocated at the base of thepistil it contains the ovules and itwill become the seedpod (pericarp)in legumes
OvulemdashA rudimentary seed beforefertilization containing the femaleegg cell
PedicelmdashA single branchlet whichconnects the flower bud flower orseedpod to the peduncle
PericarpmdashWall of the ovary (seedpod)which encloses seeds
PistilmdashThe female portion of a flowerconsisting of the ovary style andstigma
PollinationmdashPollen coming in contactwith the stigma
RacememdashA type of flower where thefloral structures are attached to thepeduncle via a pedicel
RegrowthmdashVegetative bud and shootelongation of new shoots eitherafter the existing shoots are cutor after the shoots have begun toflower
RhizobiummdashBacteria responsible fornitrogen fixation in legumes
StamenmdashThe male portion of theflower consisting of anther andfilament
TrippingmdashRelease of the pistil andstamen from the fused keel petalsresulting in the rupture of thestigmata cuticle
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2122
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2222
Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2122
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2222
Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension
8122019 Alfalfa Germination amp Growth
httpslidepdfcomreaderfullalfalfa-germination-growth 2222
Copyright copy 2011 by the Board ofRegents of the University of WisconsinSystem doing business as the division ofCooperative Extension of the University ofWisconsin-Extension All rights reservedSend copyright inquiries to CooperativeExtension Publishing 432 N Lake St Rm227 Madison WI 53706 pubsuwexedu
Authors Dan Undersander is professor ofagronomy College of Agricultural and LifeSciences University of Wisconsin-Madisonand University of Wisconsin-ExtensionCooperative Extension Marvin H Hall isprofessor of forage management ThePennsylvania State University UniversityPark Pennsylvania Paul Vassalotti is amaster technical service representative
American Cyanamid Co Cross PlainsWisconsin Dennis Cosgrove is professorof agronomy College of Agricultural andLife Sciences University of Wisconsin-RiverFalls and University of Wisconsin-ExtensionCooperative Extension CooperativeExtension publications are subject to peerreview
University of Wisconsin-ExtensionCooperative Extension in cooperationwith the US Department of Agricultureand Wisconsin counties publishes thisinformation to further the purpose of theMay 8 and June 30 1914 Acts of CongressAn EEOAA employer the Universityof Wisconsin-Extension CooperativeExtension provides equal opportunities in
employment and programming includingTitle IX and ADA requirements If youneed this information in an alternativeformat contact Equal Opportunity andDiversity Programs University of Wisconsin-Extension 432 N Lake St Rm 501Madison WI 53706 diversityuwexeduphone (608) 262-0277 fax
(608) 262-8404 TTY 711 Wisconsin RelayThis publication is available from yourcounty UW-Extension office (wwwuwexeducescty) or from Cooperative ExtensionPublishing To order call toll-free (877)947-7827 (WIS-PUBS) or visit our websitelearningstoreuwexedu
National Alfalfa amp Forage Alliance (NAFA)wwwalfafaorg
Alfalfa Germination and Growth (A3681) R-08-2011
Cooperative Extension