High Tunnels For Vegetable Production- Updates for 2013
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- Slide 1
- High Tunnels For Vegetable Production- Updates for 2013
- Slide 2
- The NRCS EQIP Grant Program Environmental Quality Incentives
Program (EQIP) Seasonal High Tunnel Initiative 2013 In 2012 NRCS
approved 227 applications around KY. Have 1 year to implement the
practice Only paid when the tunnel is completed
- Slide 3
- Seasonal High Tunnel Initiative 2013 Three application
deadlines Early Winter (Jan) and Early Spring (March/April) Rolling
application deadline Cannot start purchasing until approved and
paperwork signed
- Slide 4
- Seasonal High Tunnel Initiative 2013 The maximum size is 5% of
1 acre or 2178 ft 2 Realistically this means a 30 x 72 (2160 ft 2 )
tunnel Do not pay for materials and supplies just installation of
equipment BUT you can install yourself $2.37/ft 2 so $5,162 for a
30 x 72 tunnel $2.84/ft 2 for historically underserved ($6,286)
Must be a kit from a manufacturer
- Slide 5
- Seasonal High Tunnel Initiative 2013 Can be fixed or movable,
but have different payment schedule scenarios for each Supposed to
have a 4 year life-span 4 year plastic not structure Within the 4
years you are responsible for repairs to tunnel
http://www.nrcs.usda.gov/wps/portal/nrcs/detailf
ull/national/programs/?&cid=stelprdb1046250
http://www.nrcs.usda.gov/wps/portal/nrcs/detailf
ull/national/programs/?&cid=stelprdb1046250 Google Eqip nrcs
high tunnel
- Slide 6
- Traditional Tunnels
- Slide 7
- Locating Tunnels For maximum and most uniform sunlight
interception locate tunnels in a N-S orientation if at 40 o N or
further south If above 40 o N orient E-W If multiple bay tunnels
then orient N-S In winter E-W orientation tends to capture more
light as sun is low in the horizon, but in spring it is distributed
poorly in E-W orientation Hightunnels.org
- Slide 8
- Locating Tunnels Wind is also an issue High winds can destroy
tunnels UPLIFT is important anchoring tunnels Consider wind breaks
Single bay high tunnels oriented perpendicular to prevailing if
structure has roll-up sides * Multi-bay high tunnels should be
oriented parallel to prevailing winds
- Slide 9
- Tunnels and uplift Proper anchoring of tunnels is essential
Tunnels are basically a giant wing An 80 mph wind blowing
perpendicular to a 28 x 100 tunnel can create an uplift force of
22,000 pounds or 220 lbs per foot Estimated a 30 x 72 tunnel would
then be 15,840 lbs of uplift
- Slide 10
- Anchoring tunnels Assuming a maximum of 16,000 lbs of uplift
Subtract tunnel weight (2846 lbs without baseboards, endwalls, etc)
We need to account for about 13,000 lbs of anchoring 18 bows with 2
anchor points is 36 total contact points 360 lbs per contact point
of resistance or 720 lbs per bow
- Slide 11
- Anchoring tunnels Should you concrete bows in? yes for many
cases Earth Anchors- 30 anchor 4 helix rated at 1500 to 2500 lbs
vertical pull out Telephone pole anchors- rated at 14,000 lbs
uplift
- Slide 12
- Wind Damage to greenhouses- bows anchored in concrete 70-80
mph
- Slide 13
- Wind Damage January 2013 ~ 35 mph wind
- Slide 14
- Wind Damage January 2013
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- High Tunnel Structural Supports
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- Lack of additional support
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- Plastic 4 mil is considered 1 year plastic 6 mil is considered
4 year plastic- If it gets too hot >120 for a long period of
time that cuts life of the plastic Super Strong Woven Poly- 11mil
Can outlast hail even and can be walked on Costs 30-50% more Shade
cloth Is it worth it? Wouldnt go more than 40%.
- Slide 18
- Infrared films IR films have a coating that block long-wave
radiation back into tunnel Typically this long-wave radiation goes
right through plastic unless a barrier is present One side of the
plastic is coated with a film that keeps long-wave radiation in
Often coated with a wetting agent to reduce condensation
- Slide 19
- Infrared films Bill Roberts (Rutgers Univ.) found that IR films
showed a heat savings of up to 35% on clear cold days Realistically
this will be 15-20% over the course of a season (assuming a tightly
sealed tunnel) Only use on the inside layer of plastic IR Cost 32 x
100 $304 vs. $256 for non IR
- Slide 20
- Tunnel temperatures Air-gap between twin walled (2 layer
plastic) reduces energy loss by 35-40% Energy loss due to
condensation will be less on a 2 layer tunnel
- Slide 21
- High Tunnel Temp. When there is a lot of condensation present,
which may evaporate, temperatures in the early morning may be
several degrees cooler ambient outdoor temps Latent heat of
vaporization OVER IRRIGATING www.ocw.usu.edu
- Slide 22
- Fog/Condensation in a tunnel
- Slide 23
- End walls Double layer polycarbonate has about the same R value
as double layer plastic Single layer plastic has a very poor R
value
- Slide 24
- End Walls
- Slide 25
- High Tunnel Venting Should have reasonable side walls for
venting Ridge vents are not a great option Some complete ridge
vents are good, but expensive Taller tunnels tend to keep heat up
away from plants HAF-Horizontal air flow fans
- Slide 26
- HAF Fans
- Slide 27
- Help bring hot air down to plant level
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- Slide 30
- Note this piece of plastic
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- No Crop 3 feet tall tomato 6 foot tall tomato Wind coefficients
higher is more air flow 100% 85% 81% 71% 48% 100% 73% 45%
- Slide 33
- Tomatoes
- Slide 34
- Indeterminate or Determinate The most critical decision Spacing
will impact everything Disease, yield, working conditions, etc.
Indeterminate 4 square feet per plant for trellised plants in a
greenhouse* Based on lack of air movement and disease risk in
tunnels move to 5.2 - 6 square feet per plant 4 foot centers and
15-18 inch spacing Determinate 6.75 square feet per plant 4.5 ft
centers with 18 in-row spacing This will give you 6-7 rows in a 30
wide tunnel
- Slide 35
- 5.5-6.0 feet
- Slide 36
- Slide 37
- 4.5 ft
- Slide 38
- Note- Indeterminate plants pruned to a central leader with
leaves removed- facilitates closer spacing
- Slide 39
- Slide 40
- Determinate tomatoes on 5 centers
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- Pruning, training, etc. Typically prune determinate plants as
you would in the field If you prune them to a central leader you
will ruin your yields Indeterminate plants prune
- Slide 42
- Keep leaves/vines off the ground
- Slide 43
- Cluster Pruning Cluster pruning Leave 4 fruit per cluster early
and then move to 5 fruit. Prune off when pea size Typically do not
want more than 18-20 fruit on a plant Truss hooks on tomatoes
- Slide 44
- Leaf Pruning Keep 18-21 leaves on a plant Remove leaves up to
cluster being harvested Remove any senescing leaves If too
aggressive can rob fruit of essential nutrients Depends on
aggressiveness of variety too Cobra
- Slide 45
- Varieties Indeterminate Big Beef Trust (hydro) Geronimo (hydro)
Heirlooms benefit from the tunnel, but results variable Determinate
Rocky Top Empire BHN 589 (fall) Primo Red Red Deuce
- Slide 46
- Parthenocarpic Tomatoes Have done well in Mississippi Do not
need pollinators Varieties (Territorial Seed) Legend Santiam Siletz
Oregon Spring
- Slide 47
- Insect Management with High Tunnel Tomatoes
- Slide 48
- High-Tunnel Insect Pests Pests with Short-life cycles Fosters
the rapid development of resistance to some pesticides Rapid
recovery from sprays Need to manage pests/pesticides For safety For
resistance management Opportunity for biological control Controlled
environment Some of our best examples come from enclosed areas
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- Limited insecticides/miticides Without GH restriction Sevin
Malathion Orthene Mustang max Pounce Baythroid Asana XL Proaxis
Danitol Warrior Without GH restriction Admire Belay Venom AgriMek
Distance/Knack Fulfill Dipel Courier Acramite
- Slide 50
- Limited insecticides/miticides With GH prohibition Diazinon
Endosulfan Assail Platinum/Actara Radiant Proclaim Beleaf Rimon
Intrepid With GH prohibition Avaunt Oberon Movento Coragen Portal
Belt/Synapse
- Slide 51
- 2012 Tomato Russet Mite
- Slide 52
- Slide 53
- Tomato Russet Mite Mistaken for other problems Start at bottom
of plant and work upward Leaves dried out- burned up Mite move
quickly to green leaves develops fast 1/2013 Jessamine Co.
- Slide 54
- Tomato Russet Mite Life cycle of 5 to 6 days Feed on
Solanaceous plants/weeds Can be moved by people or equipment Scout
for damage and confirm with 20x lens Treat with Agri-Mek or
insecticidal soap (low populations)
- Slide 55
- 2012 Broad Mite
- Slide 56
- 2012 Broad Mites (aka Tropical Mite) Eggs Broad mites:wide host
range found in and around the buds complete life cycle in a week
inject toxic saliva as they feed hardened, twisted growth, leaves
curl downward peppers most susceptible Agri-Mek 0.15 EC for broad
and tomato russet mites when they first appear Insecticidal
soap
- Slide 57
- Spider Mites Two spotted spider mite Stippling of leaves and
gold flecking of fruit Produce fine webbing Favored by hot dry
conditions Tomatoes, beans, melons, cucumbers Casey Co - 2012
- Slide 58
- Spider Mites Complete life cycle in 8+ days Females lay 100+
eggs Under leaves, around buds Prefer tender leaves Scouting: Look
for stippling Look for webbing
- Slide 59
- Spider Mites Management Control weeds in/outside of GH/HT
Monitor weekly with hands lens or tap leaves over white paper Use
horticultural oils or insecticidal soap for light populations Use
Agri-Mek or Acramite for numbers
- Slide 60
- Whiteflies Two types, greenhouse and silverleaf
- Slide 61
- Whiteflies Undersides of leaves Complete life cycle in less
than a month Produce honeydew, stunt plants Can transmit Yellow
Leaf Curl Virus Silverleaf can cause plant distortions
- Slide 62
- Whitefly Management Monitor weekly tap plants Check undersides
of leaves with hand lens Use biocontrol Encarsia formosa (GHWF)or
Eretmocerus eremicus (SLWF) wasps
- Slide 63
- Whiteflies Insecticides (IGRs) for nymphs: Knack Courier
Insecticides for adults and nymphs Admire (foliar or systemic)
Portal Venom (foliar or systemic)
- Slide 64
- Thrips in the High Tunnel Direct damage to tomato fruit gold
fleck Vectors of Tomato Spotted Wilt Virus
- Slide 65
- Thrips Life Cycle Two protected stages eggs pupa
- Slide 66
- Thrips in the High Tunnel Pierce plant cells Mainly females 150
to 300 eggs each eggs inserted into leaves Resting stage in media
Life cycle complete in 7 to 14 days
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- Thrips and Virus Vectors of TSWV Acquire when immature and
transmit primarily as adults Transmit for life Acquire from infects
crop plants or weeds Monitoring Yellow or blue sticky cards Tapping
buds/flowers over white paper Avoid bright colored clothing
- Slide 68
- Thrips Management Limited insecticides to control thrips for
the high tunnel Baythroid (foliar) Brigade (foliar) Agri-Mek
(foliar) Venom Second treatment?