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Micronutrient Deficiencies in Wheat. Kurt Steinke, Ph.D. Soil Fertility & Nutrient Mgmt. Dept. of Plant, Soil, and Microbial Sciences Michigan State University. Micronutrients defined as: Nutrients required by a plant for growth
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Micronutrient Deficiencies in Wheat Kurt Steinke, Ph.D. Soil Fertility & Nutrient Mgmt. Dept. of Plant, Soil, and Microbial Sciences Michigan State University
Micronutrients defined as: Nutrients required by a plant for growth Amount needed is very small (<100 mg/kg) compared to macronutrients (primary & secondary) Deficiency can be just as yield limiting as a deficiency of a macronutrient General Comments on Micronutrients K. Steinke, MSU
The Eight Micronutrients Boron (B) Chloride (Cl) Copper (Cu) Iron (Fe) Manganese (Mn) Molybdenum (Mo) Nickel (Ni) Zinc (Zn) K. Steinke, MSU
Higher crop yields Widespread use of N-P-K fertilizers Higher analysis fertilizers containing less micronutrients Sales gimmick ($$) Micronutrient Use is Increasing Because of: K. Steinke, MSU
Soil pH Has the Greatest Impact on Nutrient Use Efficiency 4.0 4.5 5.0 5.5 6.0 6.5 7.0 7.5 8.0 8.5 9.0 9.5 10.0 extreme strong slight acidity acidity acidity slight alkalinity strong alkalinity nitrogen phosphorus potassium sulfur calcium magnesium iron manganese boron copper and zinc molybdenum K. Steinke, MSU
Micronutrients - Mn • Healthy leaves: 40 – 100 ppm Mn (40-60 target) • Conc. decreases as season progresses • < 20 ppm: deficient • Immobile in plant • Young leaves affected (shadow effect) • Interveinalchlorosis (many field crops) • Wheat: Yellow, dis-colored, colorless spots (Similar to disease) • Causes: high soil pH (>6.5), imbalance with other nutrients (Ca, Mg, Fe, Zn) • For every 1 pH unit ↑, 100x decrease in soil [Mn2+]
Micronutrients - Mn • Corrective Measures • Most effective as starter applications • Soil or foliar • Soil banded: 4 – 18 lbs Mn/A (Mn sulfate) • Soil b-cast: >20 lbs Mn/A (not recommended) • Mn oxides and chelates not effective for soil application • Foliar: 1-2.5 lbMn/A in 30 gal H2O • Mn sulfate or chelates work best • Do not apply to chelate to soil as other cations (e.g., Ca or Fe) often replace Mn in the chelate and convert to unavailable forms
Micronutrients - Cu • Healthy leaves: 8 – 50 ppm Cu (target 8-20 ppm) • Conc. often increases as season progresses (incr root area) • < 6 ppm: deficient • Immobile in plant • Young leaves affected (shadow effect) • Wilting, lack or turgor, bluish-green tip • Often confused with disease symptoms • Grain loses pigmentation • Eventually chlorotic leaf tips and death (may be confused with cold damage) • Causes: Peaty/muck soils, imbalance with other nutrients (Zn, P, Fe • Rare on most Michigan mineral soils • Where present: acid soils, heavily cropped with N, P, and K
Yellow, stunted necrosis along edges K. Steinke, MSU
Micronutrients - Cu • Corrective Measures • Soil or foliar • Soil: 1 – 20 lbs Cu/A based on soil test (Cu sulfate or oxide) • Muck/Peat: 20-40 lb/A for low or high responsive crop • Chelates not effective for soil application • Foliar: 0.5 – 1.0 lb Cu/A in 30 gal H2O • Cu sulfate or chelates work best • Do not apply chelate to soil as other cations (e.g., Ca or Fe) often replace Cu in the chelate and convert to unavailable forms • Beware: Cu doesn’t leach; If apply too much, toxicity problems are difficult to correct
Take Home Points • Tissue Deficiencies • Something will be deficient at some point in the season • Does NOT equate to yield-limiting factor • Collect BOTH soil and plant tissue • Collect from good AND poor areas • Good area = reference point • Transitional area may be sampled to determine why issue occurred • Some is good, more is not better • Beware of large bulk nutrient application • Cation/anion interference • Ex. : High Ca interfering with Mn • Are you creating your own problem?
Thank You for the Support! K. Steinke, MSU