The Nutrient Balance: Exploring the World of Agricultural Micronutrients

Agricultural Micronutrients

The Importance of Micronutrients in Agriculture

Agriculture is the backbone of many economies around the world. Improving crop yields and agricultural productivity helps in meeting the increasing food demand of a growing population. While macronutrients like nitrogen, phosphorus and potassium play a major role in plant growth, micronutrients are also equally important for healthy crop production. Micronutrients, also known as trace elements, are needed in very small amounts by plants but are essential for their growth and development. Maintaining optimal soil micronutrient levels is crucial for higher yields and better quality produce.

What are Micronutrients?

Micronutrients refer to mineral elements required by plants and crops in tiny amounts. Some of the major micronutrients needed by plants include boron, chlorine, copper, iron, manganese, molybdenum and zinc. While the quantity required is low, micronutrient deficiencies can severely limit plant growth and decrease agricultural productivity. For example, deficiency of boron can reduce yields in crops like alfalfa, beans and citrus fruits by over 50%. Similarly, lack of zinc leads to decreasing quality and yields in cereals like wheat and rice. Zinc deficiency alone is estimated to reduce cereal production by 10% globally.

Role of Micronutrients in Plant Physiology

Agricultural Micronutrients play a vital role in various metabolic processes within plant systems. For example, iron is involved in chlorophyll formation which is important for photosynthesis. It also aids nitrogen fixation in legumes. Copper is necessary for plant pollen development and fertility. Zinc helps in protein synthesis and improving grain quality of cereals. Manganese acts as a cofactor for enzyme activities involved in photosynthesis and respiration. Molybdenum is required for nitrogen fixation and nitrate metabolism. Boron is essential for cell division and expansion, sugar translocation, and flowering. Deficiency of any of these micronutrients disrupts these physiological functions leading to poor growth and reduced yields. Maintaining their optimum levels in soil ensures crops receive balanced nutrition for healthy vegetative and reproductive growth.

Occurrence of Micronutrient Deficiencies

Micronutrient deficiencies are quite widespread globally and affect millions of hectares of farmlands every year. Some key reasons for their occurrence include:

- Low inherent levels in certain soil types like sandy and organic soils which lack nutrient retention capacity. Tropical and subtropical regions have greater prevalence of such soils.

- Excessive use of high-analysis fertilizers which supply macronutrients in large amounts but deplete soil micronutrients over time.

- Intensive cropping practices and continuous cropping without micronutrient amendments depletes their reserves.

- Acidic soils cover over 30% of world's arable land. Acidification further immobilizes micronutrients making them unavailable to plants.

- High carbonate and phosphate levels in soil can tie up micronutrients in unavailable forms.

- Erosion and leaching losses remove micronutrients from topsoil layers over the years.

Recognizing deficiency symptoms and addressing their causes is crucial to ensure balanced fertilization for sustainable agriculture.

Approaches to Manage Micronutrient Deficiencies

Soil Application

Direct soil application of micronutrient fertilizers is one of the most effective ways to prevent and correct their deficiencies. Chelated forms like EDTA, EDDHA are commonly used as they remain available to plants for a longer duration. Common fertilizers used include zinc sulphate, copper sulphate, magnesium sulphate etc. Granular or powder formulations are broadcasted and mixed well before planting. For row placement, fertilizers are applied in bands during sowing. Soil test guided application ensures only the required amount is applied, avoiding toxicity issues. In problem soils, repeated small doses work better than single large doses to maintain sufficient availability.

Foliar Spray

Foliar spray of water-soluble micronutrient fertilizers acts as a quick remedy for visible deficiency symptoms. It bypasses soil factors and directly supplies nutrients to leaves. Spraying is generally done during flowering or grain formation stages for maximum impact. Chelated forms like zinc, copper and manganese chelates work well for foliar applications. Sprays are most effective when combined with soil fertilization for long term benefits. Proper coverage of all plant surfaces and minimal runoff is important to maximize nutrient absorption through leaves.

Biofortification

Development of micronutrient dense crop varieties is another approach pursued globally. Through conventional and molecular breeding, crops are being enriched with higher levels of iron, zinc, provitamin A and other micronutrients. Wheat varieties with 69% higher zinc and rice with 30% more iron have now been developed. Genetic biofortification ensures micronutrients become a part of edible portions like grains, thus helping address widespread human deficiencies. Such "biofortified" varieties have potential to sustainably impact human nutrition where direct supplementation programs are not feasible. When grown in deficient soils, they can still maintain higher nutritional output compared to normal varieties. Their widespread cultivation and consumption can help overcome "hidden hunger".

With the increasing world population and changing climate, sustainable intensification of agriculture is the need of the hour. A balanced fertilization approach addressing both macro and micronutrient needs through various soil and plant-based strategies can help boost productivity using scarce resources efficiently. Developing micronutrient dense crops and alleviating deficiencies will aid global food and nutritional security.

 

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