role of zinc in crop production
TRANSCRIPT
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Speaker: Dibakar RoyM.Sc. (Ag.), 4th Semester
Chairman: Professor Biswapati Mandal
DEPARTMENT OF AGRICULTURAL CHEMISTRY AND SOIL SCIENCE
FACULTY OF AGRICULTUREBIDHAN CHANDRA KRISHI VISWAVIDYALAYA
Course No. ACSS-592 Date: 11.05.2016 SEMINAR-II
1
Role of Zinc in Crop Production
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Introduction
Zn is an important micronutrient for plant growth.
Essentiality of Zn was discovered by- A.L. Sommer and C.P. Lipman
In plant Zn content varies from- 27 ppm to 100 ppm
In Soil Zn content in indian soils varies from- Arid/semi-arid climate - 20-89 mg/kgHumid/sub-humid tropics – 22-74 mg/kg Vertisols - 69-76 mg/kgOxisols (coarse textured)- 24-30 mg/kg
Essential NutrientsMacro Nutrients
Micro Nutrients
Katyal and Vlek, 1985
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Role of Zinc in Plant systemLow Molecular weight complexes of Zinc- In plant leaves soluble Zinc occurs mainly as anionic compound possibly associated with amino acid.
Carbohydrate metabolism- Photosynthesis- Zinc is a constituent of Carbonic anhydrase enzyme, which have
role in co2 fixation.
Protein metabolism- Zinc is necessary for the activity of RNA polymerase enzyme and it protects ribosomal RNA from attack by the enzyme ribonuclease.
Membrane integrity- The role of Zinc in maintaining the integrity of cellular membranes involving structural orientation of macromolecules and maintenance of ion transport systems.
Auxin metabolism- Zinc is required for synthesis of Auxin, zinc is required for synthesis of tryptophan which is precursor of Auxin.
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Forms of Zinc in Soil Mineral form- Zinc exist as Zinc sulphides, Zinc carbonates, and
Zinc silicates. On weathring Zn ion released. Sphalarite- ZnS Smithsonite- ZnCO3 Willemite- ZnSiO4 Franklinite- ZnFe2O4
Adorbed form- Zn is adsorbed on the surface of clays, oxide minerals, carbonates and organic matters.
Solution form- In soil solution Zn exists as Zn ion and Zn(OH)+.
Organic complex form-Zn form stable complex with organic colloids. This form is not readily available to plants.
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Soil pH and Liming
Hydrous oxides of iron and aluminium
Carbonates of calcium and magnesium
Organic matter
Soil submergence
Nutrients other than Zinc
Seasons
Factors affecting Zinc availability
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Soil pH and Liming
At pH values below 7.7, Zn2+ predominates, but above pH 7.7, ZnOH+ is the main species, and above pH 9.11 the neutral species Zn(OH)2 is dominant.
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Adsorption strength - Magnesite (MgCO3) > Dolomite ( CaCO3. MgCO3) > Calcite (CaCO3 )
Carbonates of Calcium and Magnesium
Fe
Fe
OH
OH
O
OH
OH
+ Zn 2+ O
Fe
Fe
OH
OH
OH
OHH
H
Zn + 2H+
Hydrous oxides of iron and aluminium Zinc is
adsorbed on
hydrous oxides
Specifically
Carbonates of calcium and Magnesium reduces availability of Zinc.
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• Zn- organic complexes
• Some root exudates can chelate Zn, increases availability.• Zinc strongly adsorbed by insoluble organic matter, specially
in alkaline soil.• Some micro organisms release zinc from insoluble sources.
Soil submergence reduces availability of Zinc in acid soils, due to high pH and formation of Franklinite ( ZnFe2O4) , Zinc sulphide (ZnS).In alkaline soils on submergence pH decreases, zinc availability increases. Over all effect- submergence reduces zinc availability.
Organic matterSoluble
Insoluble
Soil Submergence
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Phosphorus is the most important nutrient which interferes Zn uptake by plants.
Causes- Increased plant growth caused by P addition dilutes
Zn concentration in plants ( Dilution effect). High P hinders Zn translocation from root to Shoot. Disproportionate distribution of Zinc in roots and tops
due to lower mobility of Zinc with in plant system compared to Phosphorus.
High soil P may reduce VAM development and infection on roots that may decrease Zn absorption and utilization.
Other cationic micronutrients , Fe2+ , Mn2+ , Cu2+ may suppress Zn2+ uptake, due to ionic competition in soil, competition for same carrier protein in plants.
Nutrient Interaction
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Minerals Fertilizers
Gains of Zinc in soils
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Losses of Zinc from soil
Plant removal
Soil erosion
leaching
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Zinc Deficiency
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Alloway, 2008
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Zinc Deficiency in India
M.V. Singh, 2000
The average level of Zn deficiency in Indian soils is 50% and is projected to increase to 63% by 2025.
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Alkaline soils Calcareous soils Leached acidic coarse textured sandy soils Peat or Muck Soils ( Organic Soils) Red/ Laterite soils
Application of High does of Phosphatic fertilizer
over liming of acid soils
Soils in which Zinc deficiency may occur
Farming practices that may cause Zinc deficiency
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Interveinal chlorosis and reduction in the size of the young leaves In acute deficiency, younger leaves show necrosis and dead spots Dicot plants show, short internodes ( rossetting) and decrease in leaf expansion ( Little leaf) Premature leaves drop Bud fall off Seed formation is less Fruits are deformed associated with yield reduction.
Khaira disease in Rice White bud of maize Little leaf of cotton Mottled leaf of citrus or frenching of citrus
Zinc deficiency symptoms
zinc deficiency symptoms in different crops
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Zinc deficiency symptoms
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Relative sensitivity of crops to Zinc deficiency
High Medium Low
Bean Barley Alfalfa
Citrus Cotton Asparagrass
Flax Lettuce Carrot
Fruit Trees ( deciduous) Potato Clover
Grapes Soybean Grass
Hops Sudan Grass Oat
Maize ( Corn) Sugar Beat Pea
Pecan nuts Table beet Rye
Rice Tomato Wheat
Sorghum
Zinc in Soils and Crop Nutrition by- Brian J. AllowayI
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Soil application of Zinc fertilizer
Foliar Spray
Managing Zinc deficiency
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Zinc fertilizer applied in soil by Broadcasting or Band placement.
If broadcasted in soils, then zinc fertilizers should be thoroughly mixed.
For soils, having low zinc content band placement is beneficial.
Band placement of Zinc fertilizers is superior over broadcasting.
Efficiency of zinc fertilizer increases when it is applied with physiological acidic fertilizers ( Ammonium Sulphate) and placed in band.
Soil application of Zinc fertilizer
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Sources Zinc contentZinc sulphate heptahydrate
21-23 %
Zinc sulphate monohyadrate
33-36%
Zinc oxysulphate 40-55%
Zinc oxide 55-70 %
Zinc nitrate 22%
Zn-EDTA 12-14 %
Zn- HEDTA
9 %
Commonly used zinc fertilizers
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Rates lower than soil application
Uniform distribution
Almost immediate response
Foliar spray
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For soil application, dose of Zinc sulphate varies from 10-50 kg/ha depending on crops to be grown.
For fruit tree, Zinc sulphate applied 100 g- 1000 g per tree.
For, plantation crops like Tea, zinc sulphate applied 20 kg/ha per year.
For foliar spray, dose is varied from (0.1 to 1.5) % ZnSO4 or
Zn-EDTA along with lime.
Application rate
Fertilizers – A text book by R.K.Basak
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Crop response to zinc fertilization
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Muthukumararaja and Sriramachandrasekhharan, 2012
Effect of Zinc application on Dry matter production (DMP) and yield of Rice Zn levels
DMP( Tillering stage)
DMP( Panicle initiation)
Grain yield( g/pot)
Straw Yield(g/pot)
mg/kg
S1 S2 Mean
S1 S2 Mean S1 S2 Mean S1 S2 Mean
0.0 1.59 2.54 2.06 20.44 28.62 24.53 13.68 23.73 18.70 18.01 34.23 26.12
2.5 2.28 3.23 2.75 30.00 38.72 34.72 25.68 25.66 31.17 30.67 53.06 41.86
5.0 2.51 3.46
2.98 36.00 45.87
40.93
32.04
43.02
37.53 35.35 59.74
48.54
7.5 2.45 3.17 2.92 35.50 45.35 40.42 31.36 42.34 36.85 37.03 59.42 48.22
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Muthukumararaja and Sriramachandrasekhharan, 2012
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( t ha-
1 )
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Zn rates ( kg/ha)
Harvest index
Length of cob
Number of rows per cob
Number of
Kernels per row
Number of
Kernels per cob
Thousand grain weight
( g)
0 47.9 138.8 14.66 27.8 407.0 253.4
0.5 41.9 153.7 15.00 29.2 438 266.1
1.0 42.9 157.2 15.13 31.7 479.5 264.3
1.5 43.2 151.9 15.04 29.4 441.7 275.0
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Effect of foliar zinc application to maize leaves at 5-6 leaf stage on grain yield
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Crops Treatments
Zn0
( mg/kg)
Zn1
(mg/kg)Shoot to grain transfer coefficient
%Changes over control
%Changes over control
Grain Straw/ stalk
Grain
Straw/ stalk
Zn0 Zn1 Grain Straw/ Stalk
Rice Local 16.1 35.2 22.
3 55.7 0.46 0.43 38.5 58.2
High yielding
29.1 34.1 40.7
46.4 0.85 0.88 39.9 36.1
Hybrid 20.7 41.9 31.9
75.5 0.49 0.47 54.1 80.2
Wheat
Timely sown
25.0 22.1 36.1
35.0 1.13 1.03 44.4 58.4
Late sown 27.9 22.7 37.4
33.5 1.14 1.12 44.4 47.6
Influence of Zn application on Zinc sequestration potential in grains & straw/stalk with their shoot to grain transfer coefficients in different cultivars of cereals
Saha et al., (2015)
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ConclusionZinc is a important nutrient element to boost up crop yield.
Widespread deficiency of zinc throughout the world arising as a big threat to crop production.
Zinc deficiency can lead to several physiological disorders and ultimately decrease in yield in major food crops like rice, maize and wheat.
Judicious application of zinc along with suitable crop varieties can show remarkable increase in economic yield and zinc content in crops.
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Thank You