43
POTASSIUM IN POTASSIUM IN PLANT PLANT GROWTH AND YIELD GROWTH AND YIELD by by Ismail Cakmak Ismail Cakmak Sabanci University Sabanci University Istanbul, Turkey Istanbul, Turkey

POTASSIUM IN PLANT GROWTH AND YIELD by Ismail Cakmak Sabanci University Istanbul, Turkey

  • Upload
    latham

  • View
    32

  • Download
    0

Embed Size (px)

DESCRIPTION

POTASSIUM IN PLANT GROWTH AND YIELD by Ismail Cakmak Sabanci University Istanbul, Turkey. Low K. High K. High K. Low K. High K. Low K. Low K. High K. Control. K Deficiency. Cakmak et al., 1994, J. Experimental Bot. POTASSIUM IN CROP PRODUCTION. Alleviation of Effects - PowerPoint PPT Presentation

Citation preview

Page 1: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

POTASSIUM INPOTASSIUM IN PLANT PLANT GROWTH AND YIELDGROWTH AND YIELD

by by Ismail CakmakIsmail Cakmak

Sabanci University Sabanci University Istanbul, TurkeyIstanbul, Turkey

Page 2: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

High K Low K

Low K High K

High K

Low K Low K

High K

Page 3: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Control K Deficiency

Cakmak et al., 1994, J. Experimental

Bot.

Page 4: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

K

WaterRegime

ProteinSynthesis

Cell elongation Phloem Exportof Photosynthates

Photosynthesis

EnzymeActivation

Alleviation of Effectsof Stress Factors

POTASSIUM IN CROP PRODUCTIONPOTASSIUM IN CROP PRODUCTION

Page 5: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

K and Cell K and Cell Elongation/ExtensionElongation/Extension

In most cases, cell extension is the consequence of the accumulation of K in the cells that is required for both stabilizing the pH of the cytoplasm and increasing the osmotic potential in vacuoles.

 

Cell elongation by GA is Cell elongation by GA is dependent on K supplydependent on K supply

Page 6: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Potassium is essentially needed for cell Potassium is essentially needed for cell elongationelongation

Potassium is essential for GA3 (gibberellin)-induced cell elongation/extension, especially under deep-seeding conditions(seedling establishment!!!)

Potassium is needed for turgor potential to avoid drought stress in arid environment

Potassium and GA act synergistically in elongating cells(Chen et al., 2001; Plant Cell Environ. 24: 469-476)

Page 7: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Auxin-stimulated cell elongation is also dependent on presence of potassium.

There is a strong correlation between expression of K-channel proteins and cell elongation following application of auxin

Rogg et al., 2001, Plant Cell

Auxinedefective

line

Page 8: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

TRH1 encoding a potassium TRH1 encoding a potassium transporter proteintransporter protein:: essential for root tip growth. As cell elongation is driven by turgor pressure, the operation of K translocators is crucial for growth.

In the mutant lines without TRH1 protein root hair formation was totally blocked. .

Page 9: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Rigas et al., 2001, Plant Cell, 13: 139-151

Line with TRH1 Line without TRH1

Root Hair Root Hair FormationFormation

With K With K proteinprotein

Without K Without K proteinprotein

Page 10: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Wild Type

trh1 Mutant

trh1 trh1 +TRH1+TRH1

Scanning electron micrographs

TRH mediating K transport TRH mediating K transport essential for root hair formationessential for root hair formation

Rigas et al., 2001, Plant Cell, 13: 139-151

Page 11: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Potassium is Potassium is a critical a critical mineral nutrient mineral nutrient in tree in tree growth and wood growth and wood formation.formation.

In cambial region and xylem differention zone a strong potassium demand has been shown.

Langer et al., 2002; Plant Journal, 32: 997-1009

Differentiating xylem cells involved in wood formation represent a strong sink for potassium that provides the driving force for cell expansion

Page 12: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Potassium concentration in xylem tissue, cambium/xylem differention zone and phloem tissue

Langer et al., 2002; Plant Journal, 32: 997-1009

xylem

cambium/xylem

phloem

K nutritional status strongly K nutritional status strongly affects development of wood affects development of wood producing cellsproducing cells

Page 13: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Xylem expansion zone

Cambium Cambium

Xylem expansion zone

0.05 mM K0.05 mM K

10.010.0 mM K mM K

Langer et al., 2002; Plant Journal, 32: 997-1009

low Klow K adequate Kadequate K

Under K deficiency cambial and cell-Under K deficiency cambial and cell-expansion zones lack 2-3 cell layers expansion zones lack 2-3 cell layers eacheach

Lack of cell divisions in the vessel development region results in reduced wood production

Page 14: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

The cambium cells divide and The cambium cells divide and make new make new woodwood on the inside on the inside and new and new inner barkinner bark on the on the outside. In this way, a tree gets outside. In this way, a tree gets bigger around as it grows! bigger around as it grows!

Page 15: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Potassium is highly needed Potassium is highly needed for for woodwood production. production.

Potassium is driving force for Potassium is driving force for expansion of wood producing cellsexpansion of wood producing cells

Page 16: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Photosynthesis and PotassiumPhotosynthesis and Potassium In K-deficient leaves photosynthesis is impaired at different levels

stomatal CO2 flux into chloroplasts

conversion of light energy into chemical energy

rubisco activity/CO2 reduction

phloem export of photosynthates and,

detoxification of toxic O2 species

Page 17: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

K K K

Photosynthesis and PotassiumPhotosynthesis and PotassiumDuring a mild K deficiency in cotton, increased stomatal

resistance is first to result in a decrease in net photosynthesis and, as the deficiency becomes more

acute, biochemical factors contribute.

Day 13 Day 26Day 19

Bednarz, et al. 1998, Environ. Exp. Bot. 39: 131-139

+K

-K -K

+K

Severity of K deficiency

Page 18: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

0

10

20

30

13 19 26

Effect of Varied K Supply on Photosynthesis in Cotton

Ph

oto

syn

thes

is R

ate

(µm

ol

m-2 s

-1)

K deficiency

Days

adequate K

Bednarz and Oosterhuis, 1999 ; J. Plant Nutr.

Page 19: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Decrease in photosynthesis with K Decrease in photosynthesis with K deficiency becomes more distinct deficiency becomes more distinct when plants are exposed to when plants are exposed to elevated COelevated CO22 concentrations concentrations

Enhanced K requirement of plants Enhanced K requirement of plants when exposed towhen exposed to increasing COincreasing CO22 concentration concentration

in atmospherein atmosphere

Page 20: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

0.0

1.0

2.0

3.0

normal CO2

high CO2

Ass

imila

tion

Rat

e

[µm

ol C

O2 m

-2 s

-1]

Effect of Elevated CO2 on Photosynthesis

at Varied K SupplyAdequate K

Low K

+K-K

-K

+K

Barnes et al., 1995, Plant Cell Environ.

Page 21: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

The transport of K+ across the plasma membrane and tonoplast causes the turgor changes of guard cells. Stomata open when guard cells accumulate potassium (red dots), which lowers the cells’ water potential and causes them to take up water by osmosis. The cells become turgid.

. K

Stomata regulating transpiration and COStomata regulating transpiration and CO22 uptakeuptake

Page 22: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Role Role potassium in potassium in stomatal stomatal actionaction

When stomata opened, the K content of guard cells increased by factor 2, indicating a very rapid stomatal opening by K uptake

openedopened

closedclosed

Langer et al., 2004; Plant Journal, 37: 828-838

Page 23: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

PHLOEM TRANSPORTPHLOEM TRANSPORT K plays a critical role in phloem K plays a critical role in phloem transporttransport

SourceSource

SinkSink

KK

Page 24: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey
Page 25: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

AKT2/3: a potassium channel protein and identified as photosynthate-induced phloem K channel.

Flower induction and rosette development of the Arabidopsis with loss of AKT2/3 function (akt2/3-1 mutant) is delayed

WT- AKT2/3 akt2/3-1 mutant

Potassium is essential for Potassium is essential for transport of photosynthates into transport of photosynthates into

growing organsgrowing organs

Deeken et al., 2002, Planta, 216: 334-344

Page 26: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Sucrose concentration(mg Glucose equiv. g-1 DW)

Control

12 76

K Deficiency

Accumulation of Phosynthates in K-Deficient Source Leaves

Cakmak et al., 1994b, J. Experimental

Bot.

Page 27: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Phloem Export of Sucrose(mg Glucose equiv. g-1 DW 8 h-1)

Control

3.4 1.6

K Deficiency

Decrease in Phloem Export of Sucrose by K-Deficiency

Cakmak et al., 1994b, J. Experimental

Bot.

Page 28: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Relative distribution of total carbohydratesbetween shoot and roots (%)

Control K Deficiency

16 3

9784

Cakmak et al., 1994a, J. Experimental

Bot.

Page 29: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Plants suffering from Plants suffering from environmental stress factors environmental stress factors such as drought, high light such as drought, high light intensity and salinity have intensity and salinity have largelargerr requirement for requirement for potassiumpotassium

Page 30: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

0

10

20

30

40

50

LOW MILD SEVERE

Pho

tosy

nthe

sis

(µm

ol C

O2 m

-2 s

-1)

Drought Stress

Low KAdequate K

Potassium Improved Photosynthesis Under Drought Stress

Sen Gupta et al., 1988, Plant Physiol.

Page 31: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Ch

loro

ph

yll

(g k

g-1

FW

)

0.0

0.5

1.0

1.5

2.0

0

20

40

60

Mem

bra

ne

Dam

age

(%

)

Control NaCl + K supplyNaCl

Alleviation of Salt Stress by K Supply

Kaya et al., 2001, J. Plant Nutr.

Page 32: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Increased salt sensitivity in the Increased salt sensitivity in the absence of K transporter protein. absence of K transporter protein.

AtHKT1 controls root/shoot Na+ distribution and counteracts salt stress in leaves by reducing leaf Na+ accumulation.

Maser et al., 2002; FEBS Letters;531: 157-161

Page 33: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Growth of bean plants with low K supply under low and high light

intensity

Low light High light

Page 34: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Plants grown under high light intensity Plants grown under high light intensity require more Krequire more K than than plants grown under plants grown under low lightlow light

SHADEDSHADEDPARTPART

Page 35: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Partially shaded K-deficient bean leaves

Enhancement of leaf symptoms of K-deficieny by high light

SHADED

NON-SHADED

Page 36: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

REMEMBER:REMEMBER:

Page 37: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey
Page 38: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Potassium deficiency makePotassium deficiency makess plants sensitive plants sensitive to environmental stress factors. to environmental stress factors. Plants under environmental stress factors Plants under environmental stress factors need additional potassiumneed additional potassium

Page 39: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

S-HS-H

MEMBRANE DNA PROTEIN

FREE RADICAL DAMAGE TO CRITICAL CELL CONSTITUENTS

O2h.v. e-

LIPIDPEROXIDATION

PROTEINDAMAGE

MUTATION

CHLOROPHYLL

CHLOROSIS

S=S

1O2 O2

._

H2O2 OH.

S=S

CELL DEATH

Page 40: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

ConclusionsConclusions 

Potassium has several critical roles in plant growth and yield formation including cell elongation, maintenance of turgor pressure and photosynthesis, stomatal closure, protein synthesis and photoassimilate transport.

Potassium transporter proteins play critical role in K uptake and translocation (contributing to cell elongation) and tolerance to Na toxicity  

Page 41: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Plants exposed to high light intensity or grown under long-term sunlight conditions like in southern countries in Northern Hemisphere have much larger K requirement

Improving K nutritional status of plants is a major contributing factor to the protection of plants from environmental stress factors under marginal conditions

Page 42: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Remark:Remark: During the late growth During the late growth stage (generative phase) plants stage (generative phase) plants can need highcan need higherer amount of amount of potassium because at this stagepotassium because at this stage high amount of K is required for high amount of K is required for translocation of carbohydratestranslocation of carbohydrates

plants can be exposed to more light and plants can be exposed to more light and

topsoil with high root density and topsoil with high root density and high high K K concentration can be dryconcentration can be dry (limited K (limited K

uptake !)uptake !) High need for late K application to foliar !!

Page 43: POTASSIUM IN  PLANT GROWTH AND YIELD by  Ismail Cakmak Sabanci University  Istanbul, Turkey

Obrigado...Obrigado...