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Impacts of Mineral Nutrition on Growth of
Crop Plants
Ismail CakmakSabanci University, Istanbul-Turkey
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Mineral Nutrients in PhotosynthesisMineral Nutrients in Translocation of
Photoassimilates (Yield Formation-Root Growth)Effect of Mineral Nutrition on Photooxidative
Damage of LeavesParticular Roles of Micronutrients in Crop
Production (e.g., pollination, diseases tolerance...)Role of Seed Nutrients in Seedling Vigour
Impairments of Nutritional Status of Plants by Glyphosate
Micronutrient Deficiencies in Human Populations
TOPICS
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Mineral Nutrients in Photosynthesis
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Mineral Nutrients required for photosynthetic electron transport and for ATP formation
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Photosynthetic electron transport chain with photosystem II and I photophosphorylation;
4 H
C C C
NADPH2NADP4 +
X Fe S
O2 O2 2 2
+
Scavengingsystem
Cu Zn
CC N
CC CN C
C CC N C
Mg
C C CCC C
(V)E
0.4
0.2
0
+0.2
+0.4
+0.6
+0.8 O2PS I
Chl.680e
O2
O21
Q
hv
+ H+
H (from stroma)+
Fe S
H+
e4
4
Lumen
Stroma
pH 5.0~
pH 7.5 8.0
ADP+P
ATP
Mg
CliMg
Mn
XAN
N
H2 4
e44
H Ohv
HC2 2
I
e
FeMgCu
PS IChl.700
Thylako
mbran
Plasto quinon Cyt b- Plasto cyanine
(Marschner,1995)
Mineral Nutrients required for photosynthetic electron transport as well as for ATP formation
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Magnesium is the central ion of chlorophyll. Its deficiency causes chlorosis
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Mg: very low Mg: low Mg: adequate
Magnesium Deficiency in Bean
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Major function of manganese in photosynthesis
• Mn is constituent of the water splitting enzyme (Hill reaction) within the electron transport chain for photosynthesis. (2 H2O → 4H+ + 4e + O2)
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Major functions of iron in Photosynthesis
• Biosynthesis of chlorophyll• Formation of chloroplast protein• Involvement in many redox
processes
+ Fe
- Fe
Chloroplasts(Spinach)
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Effect of Fe Supply on Photosynthesis in Sugarbeet
Larbi et al. 2004) Photosynth. Res. 89, 113-126
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Adequate N Low N
64%36% 37% 63%
Verhoeben et al. Plant Physiol. 1997, 113: 817-824
Nitrogen is important for an effective use of absorbed light energy in photosynthesis
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K K K
Effect of Potassium on Photosynthesis in Cotton
Day 13 Day 26Day 19
Bednarz, et al. 1998, Environ. Exp. Bot. 39: 131-139
+K
-K -K
+K
Severity of K deficiency
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Translocation of Photoassimilates within Plants and Role of Mineral Nutrients
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PHOTOASSIMILATES
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Transport of Photoassimilates into Sink Organs
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Transport of photoassimilates into sink organs (e.g., roots, seeds, tubers) show high dependency on adequate supply of potassium and magnesium
Transport of photoassimilates into sink organs (e.g., roots, seeds, tubers) show high dependency on adequate supply of potassium and magnesium
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Accumulation of Photoassimilates in Leaves of K and Mg Deficient Leaves
12 76 108 19
Control Low K Low Mg Low P
Sucrose concentration in source leaves(mg Glucose equiv. g-1 DW)
Cakmak et al., 1994b, J. Exp. Bot.
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Effect of Mg deficiency on starch content in sugar beet leaves, as detected by lugol staining
Hermans et al., 2005 Planta 220: 541-549
- Mg +Mg
- Mg +Mg
- Mg +Mg
Days 12
Days 16
Days 20
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0
2
4
6
8
10
0 5 10 15 20 25
60
90
120
150
180
0 5 10 15 20 25
0.70
0.75
0.80
0.85
0.90
0 5 10 15 20 25
75
100
125
150
175
200
225
0 5 10 15 20 25
Sucr
ose
(µm
ol e
q gl
u g-1
FW
) Ch
loro
phyl
l (n
mol
g-1
FW
)
Max
imal
PSI
I qu
antu
m e
fficie
ncy
(ΦPo
) PS
II el
ectro
n tra
nsfe
r rat
e
Days of treatment Days of treatment
Days of treatment Days of treatment
-Mg +Mg
Sucrose
Chlorophyll
Max. Quantum eff.
PS-II e-transport
+Mg
-Mg
Sucrose, chlorophyll and maximal quantum efficiency and electron transport rate of PSII in sugar beet plants with deficient (O) and
adequate ( ) Mg supply.Hermans et al., 2004 Planta
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Relationship between sucrose and potassium concentrations in the first expanded leaves of cotton
Gerardeaux et al., 2009, Plant Soil: 324, 329-343
Potassium in Leaves, mg g-1
Sucr
ose
in L
eave
s, m
g g-1
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+Mg -Mg
3.4 ±0.8 0.7 ±0.3
Sucrose export from Leaves
(mg Glucose equiv . g-1 DW . 8h-1)
Cakmak et al., 1994b J. Exp Bot.
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0.0
0.5
1.0
1.5
2.0
2.5
3.0
0.0
0.1
0.2
0.3
0.4
0.5
0.6
Mg Deficiency Control
Days
Shoot
Root
6 8 10 12
Dry
wei
ght (
g pl
ant-1
) Shoot and root dry weight of bean plants
with deficient and adequate Mg supply
Cakmak et al., 1994a J. Exp Bot.
Before any visible change occurs in shoot, root growth is impaired under low Mg supply.
In field, impaired root growth under low Mg supply is not recognised !!
Low MgHigh Mg
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Low Mg
Adequate Mg
Effect of Mg on Root and Shoot Growth in Wheat
Hakli et al. unpublished
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Low MgLow Mg after MgSO4 Spray
Adequate Mg
Effect of Mg on Root and Shoot Growth in Wheat
Hakli et al. unpublished
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Sink Organs arevery sensitive to K and Mg deficiencies
Adequate K
Deficient K
Adequate Mg Deficient Mg
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-Mg
-Mg+Mg
-Mg+Mg
Low K
Adequate K
Sink Organs are very sensitive to K and Mg deficiencies
Cakmak and Kirkby, 2008, Physiol. Plant.
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Video FilmRoot growth with low and
adequate Mg Suypply
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As a consequence of impaired carbohydrate translocation, roots of K and Mg deficient plants are much smaller. Reduced root growth under K or Mg deficiency will result in a limited nutrient and water uptake.
A high K and Mg status of leaves is needed for adequate photo-assimilation and re-translocation of photoassimilates into seeds/roots. This is of particular relevance under conditions of inhibited root uptake of Mg (drought, high K supply, low pH soil).
Late foliar application of Mg and also of K (during reproductive developing stage) will guarantee an efficient re-translocation of photo-assimilates into harvest products (e.g. grains, fruits, tubers), particularly under stress conditions with inhibited Mg or K uptake (e.g. drought, low pH)
Some Conclusions Regarding K and Mg Effect on Sugar Transport
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PHOTOOXIDATIVE DAMAGE
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PHOTOOXIDATIVE DAMAGE UNDER MINERAL NUTRIENT
DEFICIENCY
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PSII PSI
2H2O O2
LIGHT
THYLAKOID
CO2
O2
e-
STROMA
Sucrose
Phloem Export
O2.-, H2O2, OH.
Toxic O2 Species
REMEMBER: Photosynthetic Electron Transport and Use of Light Energy in CO2 Fixation
Stomatal CO2 Flux
ATPADP
Cakmak, 2005; Soil Sci. Plant Nutr.
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PSII PSI
2H2O O2
LIGHT
THYLAKOID
CO2
O2
e-
STROMA
Sucrose
Phloem Export
O2.-, H2O2, OH.
Toxic O2 Species
Mg or KDEFICIENCY
CELL DAMAGE
Photosynthetic Electron Transport and Superoxide Radical Generation
StomatalCO2 Flux
ATPADP
Cakmak and Kirkby, 2008 Physiol. Plant
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High Light Low Light
Mg-deficient plants highly sensitive to high light
Bean plants grown at low Mg supply
Cakmak and Kirkby, 2008, Physiol Plant
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Not-shaded
Shaded
Shaded and not-shaded primary leaves of the same Mg-deficient plant
Cakmak and Kirkby, 2008, Physiol Plant
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Partially shaded Mg-deficient leaves
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Shaded
Mg deficient plants are highly susceptible to high light intensity
Not-Shaded
Cakmak and Kirkby, 2008, Physiol Plant
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Growth of bean plants with deficient K supply under low and high light intensity
Low light
High light
Marschner and Cakmak, 1989
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Partially shaded K-deficient bean leaves
Enhancement of photooxidative damage in K-deficient leaves
SHADED
NON-SHADED
Marschner and Cakmak, 1989
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K and Mg is greatly needed for efficient use of absorbed light energy in photosynthetic CO2 fixation to avoid light damage.
Plants under high light intensity have additional requirement for Mg and K in order to mitigate light damage
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ZINC-DEFICIENT PLANTS ARE HIGHLY PHOTOSENSITIVE
Increases in light intensity rapidly cause development of chlorosis and necrosis in Zn-deficient plants
Growth of Zn deficient bean plants at different light intensities
22 W m-2 127 W m-253 W m-2
Light
Cakmak, 1988: PhD Thesis, Stuttgart-Hohenheim Univ.
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80 µmol m-2 s-1 230 µmol m-2 s-1 490 µmol m-2 s-1
Primary leaves of Zn-deficient bean plants grown at different light intensities
Cakmak, 2000; New Phytologist, 146: 185-205
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Zinc Deficiency Makes Plants Susceptible to High Light
Cakmak, 2000; New Phytologist, 146: 185-205
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Zn Deficient Plants are Highly Susceptible to Zn Deficiency
Marschner and Cakmak, 1989, J. Plant PhysiolCakmak, 2000; New Phytologist, 146: 185-205
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Zn Deficiency chlorosis in citrus tress occurs mostly on sunny side of trees
NORTH
SOUTH
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Micronutrients: Why are micronutrients of great importance?
In many different agro ecosystems micronutrients are growth limiting, and this problem is often hidden
Micronutrients can play an important role in abioticand biotic stress resistance (especially resistance against diseases, drought or heat).
Micronutrients play a particularly important role in reproductive growth (e.g., in pollination)
Micronutrients are of great importance for plant, human and animal health
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Major Functions of Plant MicronutrientsConstituents of cell walls and membranes: B, Zn
Constituents of enzymes: Fe, Mn, Cu, Ni
Activation of enzymes: Zn
Involvement in electron transport in photosystems: Fe, Cu, Mn, (Cl)
Involvement in stress tolerance: Mn, Zn, Mo...
Involvement in reproductive growth (flower induction, pollination, fruit set...): Cu, Mn, Zn, B
Human Nutrition: Zn, Fe, Se, I
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Nat.Struct.Biol. 6: 628-633
http://commons.wikimedia.org/wiki/User:Splette
: Zinc
Zinc Binding ProteinsNearly 2800 Proteins are Zn-dependent
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Zn
Zn CaB
ZnCaZnCa
B
Ca
Cell Membrane
B
Zinc and Boron:Most important micronutrients affecting membrane stability
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Physiological functions of Zn in plant metabolism
Besides its basic well established function in plantmetabolism, Zn plays a specific role in:
1) pollination
2) mitigation of biotic and abiotic stresses such asdrought, heat, high light intensity or pathogenpressure via detoxification of toxic oxygen radicals
3) Involvement in disease resistance
4) Involvement in seed viability
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Zinc or Boron Deficient Roots are Leaky:
Various carbon-containing compoundsare released from roots into thesurrounding soil that is rich in fungal andbacterial populations
Due to structural impairments in cell membranes under Zn or B deficiency
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Zinc or B is highly needed for structural and functional integrity of cell membranes
Any impairment in structural integrity of cell membranes induces membrane permeability and extensive release of exudates
Amino acidsSugars..
ROOT EXUDATES: feeding substrates for pathogens
ZINC and BORON PROVIDES RESISTANCE AGAINST PATHOGENIC INFECTION
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Zn
Treatment Amino
acids Sugars Phenolics
(µg g-1 root 6h-1) COTTON
-Zn 165 751 161 +Zn 48 375 117
WHEAT -Zn 48 615 80 +Zn 21 315 34
APPLE -Zn 55 823 350 +Zn 12 275 103
Cakmak and Marschner, 1988, J. Plant Physiol.
Root exudation of organic compounds in cotton, wheat and apple at low (-Zn) and adequate (+Zn) Zn supplies
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B supply Potassium Sucrose Phenolics
Amino acids
(µM) (µg g-1 FW [2h]-1)0.01 630 900 79 1630.20 390 440 72 1221.0 52 70 17 33
20.0 18 20 13 23
Boron Deficiency-Induced Membrane Permeability
Leakage of K+, sucrose, phenolics and amino acids from sunflower leaves as influenced by B supply
Cakmak et al., 1995, Physiol. Plant.
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EXUDATES: Excellent feeding substrates for pathogens
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0
10
20
30
40
50
0 5 10 15 20Zn applied (kg/ha)
% P
atc
h A
rea R2 = 0.90**
Correlation between Zn application and bare patch caused by Rhizoctonia in wheat
Thongbai et al., 1993, Plant and Soil
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Critical Roles of Micronutrients in Seed Formation
During the transition phase from vegetative to the generative (reproductive) phase some distinct micronutrients play specific functions in grain yield formation through their positive impacts on pollination
Examples
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Transient drought spells during flowering/ pollination results in a severeloss of grain yield through transient micronutrient (Zn, Mn, B, Cu) deficiency in the fast growing pollen tubes!
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Zn supply Shoot Dry Weight
(g/plant)
Grain yield (g/plant)
Pollen viability (%)
Zn conc. in pollen
(mg/kg)
Adequate Zinc
74 70 85 75
Zinc Deficiency
67 18 20 27
Example Zn: Specific high Zn demand for pollination
Sharma et al., Plant Soil 124, 221-226; 1990
Effect of Zn supply on growth, grain yield, viability and Zn concentration of
pollen in maize plants
Example Zn: Specific high Zn demand for pollination
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Effect of Cu supply on vegetative and reproductive growth of wheatCu supply Vegetative growth Reproductive growth (mg Cu/pot) straw (g/pot) grains (g/pot)
0 6.7 00.1 10.5 00.4 12.9 1.02.0 12.7 10.5
Nambiar, Austr. J. Agric. Res. 27, 453-463; 1976
Inhibited grain formation by lowCu is mainly due to low pollenviability and pollen sterility(Agarwala et al., Proc. Indian Nat. Sci. Acad. B 46,172-176; 1980)
Example Cu: Specific high Cu demand for reproductive growth
BLIND EARS
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Mo supply
Mo concentration of leaves
Pollen grains
Pollen germination
(µg/L) (µg/kg) (No per anthere) (%)
20.00 92 2437 86
0.10 61 1937 51
0.01 17 1300 27
Effect of the Mo supply to maize on numbers of pollen grains and pollen germination rate (Agarwala et al., Can. J. Bot. 1978
Example Mo: Specific high Zn demand for pollination
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Effect of increasing B supply on vegetative and reproductive growth of red clover
B supply (mg/kg
soil)
Shoot DW (g/pot)
Flowers (No/pot)
Seed yield (mg/pot)
0 12.8 0 00.25 13.0 6 00.5 12.6 13 01.0 12.3 37 4302.0 12.3 37 11904.0 8.7 34 740
+ B Low B
(low B soil, Heilongjiang,China)
Example Boron: Specific high Bdemand for pollination
(Sherell, 1983)
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Boron deficiency limits an optimal formation of kernels and cobs.
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(Nogouchi et al., 2000; Ma et al., 2004)
For fast growing tissues in which transpiration rate is low such as apices, flowers and young fruits B-delivery through phloem can be an important transport process.
Inhibited pollination and fruit set in the mutantdomatoes due to inhibited B translocation.
With sufficient B translocation
With limited B translocation
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68
Tobacco Plants with varied B Mobility Wild-Type plants:Phloem Immobile BYield: 1 g seed
Transgenic plants:Phloem Mobile BYield: 21 g seed
Courtesy: P. Brown
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Disease Tolerance and Mineral Nutrition
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Susceptibility of crop plants to pathogens is greatly affected by the nutritional status of plants
Effect of nutrient concentration on growth (non-infected plants) and on degree of a bacterialinfection in plants (relative values)
From Marschner 1995
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For exampleEnhanced germination/infection of pathogen spores through exudation of sugars and amio acids from root or leaf cells caused by mineral deficiency (Ca, Zn, B deficiencies)Enhanced penetration of pathogens into cell walls due to instability or weakness of cell walls caused by nutrient deficiencies such as Ca, Mn, B or Cu deficiencies (e.g., reduced mechanical resistance).Enhanced formation of mechanical barriers (lignification, silification) and the synthesis of toxins (phytoalexins) against pathogenic attack (e.g. throghh improved supply of Si, Mn, Cu...)
Nutritional status of plants affects tolerance against pathogens through different mechanisms
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Silicium deposition in cell walls represents an important physical barrier to pathogenic attack
Influence of enhanced Si supply on the incidence of fungal pathogens on leaves of rice
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Increase of the mechanical resitance of cell walls by lignin deposition
Effect of Cu deficiency on lignification of cell walls in stems of sunflower (Helianthus annuus). Red
color indicate presence of lignin(from Marschner 1995)
Low Cu Adequate Cu
lignin
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Root lesions (take all) and lignin content in root tissue of wheat at different Mn treatments
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Zn
Relationship between shoot Zn and Mn with Rhizoctonia infection rate
Steer et al., 2001, Plant Soil.
Mn
Shoot Concentration , mg kg-1
Rhiz
octo
nia
Sco
re
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Seed Nutrients
Seedlings develop better when seeds are dense in mineral nutrients
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Seed nitrogen content is critical for better seedling vigor and growth
Influence of seed nitrogen on seedling growth in soybean
Naegle et al.,Plant and Soil (2005) 271: 329–340
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18 10016 200No of grains m2774687g m2
1.771.52g panicle-1
Yield
683623g m2
1.561.38g plant-1
Veg. Growth
P-coatingcontrolParameter
Effect of P-seed coating on growth and grain yield
Data from Peltonen-Sainio (Agron. J. 2006; 98:206-211)
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Impact of Micronutrient Dense Rice Seedin Bangladesh
(data from J. Duxbury, 2002, Cornell Univ.)
Seed Treatment Yield (t/ha)
Complete (Zn, Mn, Cu, Mo,
4.6 a Zn only 4.0 b Complete - Mo 4.1 b Control 3.6 c
1 letters indicate significant difference at p < 0.1 0
20
40
60
80
100
Enrichedseed
Controlseed
Farmerseed
See
dlin
g e
mer
gen
ce -
%
a b c
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240200160120804000
20
40
60
80
100
Grain-Ni Concentration (ng g-1 dry wt.)
Ger
min
atio
n (%
)
Effect of Ni Concentrations in Barley Grain on Grain Viability
(Source: Welch, 1999, In: Mineral Nutrition of Crops. Fundemental Mechanisms and Implictions, Food Products Press)
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Agricultural solutions to global micronutrient malnutrition
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Deficiency Population Geographical High risk groupsat risk region
Vitamin A ? 0.5 billion Developing Children aged <5 y,countries pregnant women
Zinc 2.9 billion Developing Children aged <5 ycountries
Iron 2 billion Worldwide All, but particularlychildren and pregnant women
Iodine 1.5 billion (1990) Worldwide Children, prenatally and0.5 billion (2000) up to 2 y post-natally
Brown. Food Nutr Bull 2002; Stoltzfus. J Nutr 2001;131:565S-67S; West. J Nutr 2002;132:2857S-66S.
Magnitude of the problem
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Zinc Estimated 2
billion
Micronutrient Deficiencies: Global Malnutrition Problem
www.harvestplus.org
Iron Estimated 2 billion
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Health Problems related to micronutrient deficiencies
Increase in anemia,morbidity and mortality
reductions in work productivity
impairments in immune system, physical growth, mental development
Kills more than 100,000 mothers during childbirth each year
(see: www.harvestplus.org)
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Children particularly sensitive
>450,000 deaths/year children under 5 – 4.4% attributed to Zn deficiency
Black et al. 2008
The Lancet Maternal and Child Undernutrition Series
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WHO REPORT (2002)Leading 10 Risk Factors in Developing Countries
% Cause of Disease Burden
Underweight 14.9%Unsafe sex 10.2%
Unsafe water 5.5%Indoor smoke 3.7%
Zinc Deficiency 3.2%Iron deficiency 3.1%Vitamin A deficiency 3.0%Blood pressure 2.5%Tobacco 2.0%Cholesterol 1.9% WHO, 2002
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IZA in partnership with UNICEF started a program called ‘Zinc Saves Kids’
www.ZincSavesKids.org
Intl’ Zinc Assoc.
ZINC SAVES KIDS
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Solutions to Micronutrient Deficiencies
• Supplementation • Food Fortification(not affordable in rural regions)
Golden Wheat Fortfied with Zn
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Major Reason: Low Dietary IntakeHigh Consumption Cereal Based Foods with Low
Micronutrient Concentrations
In number of developing countries, cereals contributes nearly 75 % of the daily calorie intake.
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Agricultural Solutions(Breeding and Fertilizer Approaches)
•Breeding
•Agronomy/Fertilizers
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HarvestPlus-Biofortification Challenge Program
Breeding new cereal cultivars with high micronutrient content in cereal grains
Coordinating Institutions: International Food Policy Research Institute (IFPRI)Washington DC and CIAT-Colombia
Main Sponsors: Gates Foundation and World Bank
www.harvestplus.org
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www.gatesfoundation.org
“Two billion people in the developing world suffer from diets lacking essential vitamins and minerals.
Foods rich in vitamins and minerals are essential for a healthy diet. When diets do not contain sufficient amounts of vitamin A, folic acid, iodine, iron, and zinc, the consequences include significantly lower birth weight, a decrease in cognitive development, and increased susceptibility to other diseases.”
Main Sponsor of HarvestPlus Program
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Canada Germany
Brazil
Zimbabwe
Zambia
MozambiqueSouth Africa
Ethiopia
Pakistan
India
Kazakhstan
Iran
Laos
China
Thailand
Australia
Turkey
Int. Zinc Assoc.
Coordinating Institution: Sabanci University
Global Zinc Fertilizer Project
Mexico
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Rice Trials in Thailand
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Maize Trials in Zambia
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Wheat Trials in India
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Maize Experiments in Brazil
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Maize Trials in Zimbabwe
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Rice Experiments in Thailand
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Rice Experiments in Laos
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Zinc trails in Zimbabwe
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Trials in Pakistan
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Maize Trials in Mozambique
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Wheat trials in China, Yanglin-Xian
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Rice Trials in China and Laos
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Grain Zn concentration in different countries with and without zinc fertilization
Average of all countries -Zn: 26 +Zn:50
Country/Location -Zn +Zn
India•Varanasi 29 47•PAU-I 25 81•PAU-II 28 77•PAU-III 26 61•PAU-IV 49 65•IARI 33 45
Kazakhstan•Loc-I 19 54•Loc-II 28 73
Pakistan•Loc-I 27 48•Loc-II 28 44•Loc-III 30 40•Loc-IV 29 60
mg kg-1
Country/Location -Zn +Zn
Mexico•Year-I 21 45•Year-II 36 60
Turkey•Konya 12 29•Adana 32 57•Samsun 23 49•Eskisehir 22 43
China•Loc-I 28 54•Loc-II 19 26
Australia•Loc-I 18 39
Germany•Average 20 32
Iran•Average 17 28
Brazil•Average 30 52
mg kg-1
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Country/Location -Zn +Zn
India•Varanasi 29 47•PAU-I 25 81•PAU-II 28 77•PAU-III 26 61•PAU-IV 49 65•IARI 33 45
Kazakhstan•Loc-I 19 54•Loc-II 28 73
Pakistan•Loc-I 27 48•Loc-II 28 44•Loc-III 30 40•Loc-IV 29 60
mg kg-1Country/Location -Zn +Zn
Mexico•Year-I 21 45•Year-II 36 60
Turkey•Konya 12 29•Adana 32 57•Samsun 23 49•Eskisehir 22 43
China•Loc-I 28 54•Loc-II 19 26
Australia•Loc-I 18 39
Germany•Average 20 32
Iran•Average 17 28
Brazil•Average 30 52
mg kg-1
Average Concentrations of Grain Zn
(10 Countries with 32 locations)
-Zn: 26 ppm+Zn: 50 ppm
Grain Zn concentration in different countries with and without zinc fertilization
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Staining/Localization of Zinc in Wheat Grain (red color)
EMBRYO
ENDOSPERM
ALEURONE
ALEURONE
Cakmak et al., 2010
Cereal Chemistry, 77: 10-20
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Localization of Zn in grain after foliar application?
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LA-ICP-MS Tests on Seeds
0100200300400500600700800900
1000
0 500 1000 1500 2000 2500 3000 3500 4000
Distance (µm)
Zn c
once
ntra
tion
(mg/
kg)
0.0
2.0
4.0
6.0
8.0
10.0
12.0
0 500 1000 1500 2000
Distance (µm)
Zn c
once
ntra
tion
(mg/
kg)
Cakmak et al., 2010,
J. Agric. Food. Chem.
White arrow: Zn in entire cross section
Black arrow: Zn in endosperm section
entire cross section
endosperm section
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0200400600800
100012001400160018002000
0 500 1000 1500 2000 2500 3000 3500 4000
Distance (µm)
Zn c
once
ntra
tion
(mg/
kg)
0200400600800
100012001400160018002000
0 500 1000 1500 2000 2500 3000 3500
Distance (µm)
Zn c
once
ntra
tion
(mg/
Kg)
0200400600800
100012001400160018002000
0 500 1000 1500 2000 2500 3000 3500
Distance (µm)
Zn c
once
ntra
tion
(mg/
kg)
0
5
10
15
20
25
0 200 400 600 800 1000 1200 1400 1600
Distance (µm)
Zn c
once
ntra
tion
(mg/
kg)
0
5
10
15
20
25
0 500 1000 1500 2000
Distance (µm)
Zn c
once
ntra
tion
(mg/
kg)
0
5
10
15
20
25
0 200 400 600 800 1000 1200 1400
Distance (µm)
Zn c
once
ntra
tion
(mg/
Kg)
No Foliar Zn Application
Foliar Zn Application at Stem Elongation and Booting Stages
Foliar Zn Application at Milk and Dough Stages
B
cr
cr
cr
Endosperm
Endosperm
Endosperm
LA-ICP-MS Tests
Cakmak et al., 2010, J. Agric. Food. Chem. 58:9092-9102
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No Zn
Zn applied at stem elongation and boot
Zn applied at milk and and dough stages
0
5
10
15
20
25
0 200 400 600 800 1000 1200 1400 1600
Distance (µm)
Zn c
once
ntra
tion
(mg/
kg)
0
5
10
15
20
25
0 500 1000 1500 2000
Distance (µm)
Zn c
once
ntra
tion
(mg/
kg)
0
5
10
15
20
25
0 200 400 600 800 1000 1200 1400
Distance (µm)
Zn c
once
ntra
tion
(mg/
Kg)
Changes in Endosperm Zinc Concentrations
Cakmak et al., 2010,
J. Agric. Food. Chem.
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Detrimental Effects of Glyphosate on Mineral Nutrition of Plants
O O|| ||
HO-C-CH2-NH-CH2-P-OH|
OH
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Water Quality for Glyphosate Spray
• Salts dissolved in water may reduce the effectiveness of glyphosate, particularly calcium and magnesium salts. These salts have a positive charge and may associate with the negatively-charged glyphosate molecule, replacing the isopropylamine or diammonium salts found in the formulated glyphosate product.
• Thus, the presence of calcium and magnesium salts in the carrier result in a reduction in glyphosate activity.
http://www.weeds.iastate.edu/mgmt/2001/glyphosate%20review.htm
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Glyphosate binds with the cations to form a strong complexes which are not bio-available.
Only unbound glyphosate act as a herbicide.
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• “Q. Should I tank mix Roundup and fertilizers?• A. Monsanto does not recommend tank mixing of
Roundup and fertilizers such as manganese due to the potential for the fertilizer to cause antagonism with the weed control effects and efficacy of Roundup.”
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Control Glyphosate
Hard water contains high levels of calcium (Ca), magnesium (Mg), iron (Fe) or manganese (Mn)…
Divalent cations attach to negatively charged herbicide molecules and reduce its herbicidal activity
www.loveland.co.uk/ Gifs/X-Change-du-pont.gif
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Glyphosate binds with the cations to form a strong complex which is not bio-available. Only unbound glyphosate act as a herbicide.
www.loveland.co.uk/ Gifs/X-Change-du-pont.gif
Control GlyphosateGlyphosate+ Calcium
Effect of Glyphosate with and without calcium in the tank
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www.ipm.iastate.edu
Target Plants
Non-Target Plants
Non-Target Plants
Glyphosate Drift
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Glyphosate Drift
Up to 10 % of the foliarly-applied glyphosate may move to non-target plants (Al-Khatib et al., 1999; Snipes et al., 1992).
This spray drift may be as high as 37 % of the applied glyphosate rate depending on the speed of wind and accuracy of the glyphosate application method (Nordby & Skuterud 1975).
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Glyphosate-induced chlorosis/necrosis on younger leaves
Glyphosate
0 0.3 0.6 0.9 1.2
% of the recommended doseCakmak et al., 2009, Eur. J. Agronomy, in press
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Glyphosate Rate(% of recommended)
0 2.23 ± 0.23 2.63 ± 0.51 0.23 ± 0.06 0.88 ± 0.14
0.06 1.84 ± 0.10 2.40 ± 0.02 0.22 ± 0.02 0.72 ± 0.01
0.2 1.92 ± 0.16 2.56 ± 0.17 0.23 ± 0.02 0.76 ± 0.09
0.6 1.56 ± 0.58 2.52 ± 0.98 0.23 ± 0.09 0.58 ± 0.22
P Mg (%)
Ca K Glyphosate Rate(% of recommended)
0 2.23 ± 0.23 2.63 ± 0.51 0.23 ± 0.06 0.88 ± 0.14
0.06 1.84 ± 0.10 2.40 ± 0.02 0.22 ± 0.02 0.72 ± 0.01
0.2 1.92 ± 0.16 2.56 ± 0.17 0.23 ± 0.02 0.76 ± 0.09
0.6 1.56 ± 0.58 2.52 ± 0.98 0.23 ± 0.09 0.58 ± 0.22
P Mg (%)
Ca K
Effect of at increasing glyphosate application on
leaf concentrations of macronutrients in soybean
Cakmak et al., 2009, Eur. J. Agron.
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Glyphosate Rate(% of recommended)
0 49 ± 10 232 ± 62 93 ± 15 5 ± 10.06 54 ± 8 160 ± 3 78 ± 5 5 ± 10.2 51 ± 0 190 ± 27 84 ± 11 5 ± 10.6 40 ± 16 121 ± 48 65 ± 23 4 ± 1
(mg kg-1)Fe Mn Zn CuGlyphosate Rate
(% of recommended)0 49 ± 10 232 ± 62 93 ± 15 5 ± 1
0.06 54 ± 8 160 ± 3 78 ± 5 5 ± 10.2 51 ± 0 190 ± 27 84 ± 11 5 ± 10.6 40 ± 16 121 ± 48 65 ± 23 4 ± 1
(mg kg-1)Fe Mn Zn Cu
Effect of at increasing glyphosate application on
leaf concentrations of micronutrients in soybean
Cakmak et al., 2009, Eur. J. Agron.
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Conclusion
• Glyphosate is antagonistic to the uptake, transport and accumulation (tissue concentration) of divalent cations such as Mg, Mn and Ca, possibly due to the formation of poorly soluble glyphosate-metal complexes (??)
• A new risk assessment for glyphosate including the changes in nutritional status of plant is urgently needed,
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Sabanci University
Thank you…
Thank You…
Sabanci University
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www.zinccrops2011.org
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Istanbul 2013
1. IPNC 1954 Nancy- France……12. IPNC 1993 Perth- Australia13. IPNC 1997 Tokyo- Japon14. IPNC 2001 Hannover-Germany15. IPNC 2005 Beijing-China16. IPNC 2009 Sacramento/Davis-ABD17. IPNC 2013 Istanbul-Turkey
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