Biofortification of Iron and Zinc in Field Crops Through Plant Microbe Interaction: A Review

Shaik Nazma, M. Hemalatha, T. Sudha
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Abstract

Micronutrient deficiency is a big concern around the world since it causes serious social and health problems. Micronutrient availability is low on millions of hectares of land around the world, including India. Zn deficiency in Indian soils has reached 47% and Fe deficiency has reached 13%. The main causes of micronutrient deficit in soil are excessive fertilizer use (over the RDF), soil erosion and other agronomic practices that obstruct the movement of micronutrients. A promising and sustainable agriculture-based method called biofortification aims to reduce Zn and Fe deficiencies in dietary food ingredients. The plant breeding method to create biofortified crops and agronomic supplementation of micronutrients, such as foliar/soil application together with chemical fertilisers, have drawn the most attention among the various strategies used. Interactions between plants and microbes are recognised to be essential for enhancing the nutrient status of the soil and enriching micronutrients through the solubilization, mobilisation and translocation of metals to various parts of the plant. This symbiotic relationship enhances the quality and yield of crops, while innovative food processing techniques can offer cost-effective biofortified food solutions to address the nutritional needs of undernourished populations.Micronutrient deficiency is a big concern around the world since it causes serious social and health problems. Micronutrient availability is low on millions of hectares of land around the world, including India. Zn deficiency in Indian soils has reached 47% and Fe deficiency has reached 13%. The main causes of micronutrient deficit in soil are excessive fertilizer use (over the RDF), soil erosion and other agronomic practices that obstruct the movement of micronutrients. A promising and sustainable agriculture-based method called biofortification aims to reduce Zn and Fe deficiencies in dietary food ingredients. The plant breeding method to create biofortified crops and agronomic supplementation of micronutrients, such as foliar/soil application together with chemical fertilisers, have drawn the most attention among the various strategies used. Interactions between plants and microbes are recognised to be essential for enhancing the nutrient status of the soil and enriching micronutrients through the solubilization, mobilisation and translocation of metals to various parts of the plant. This symbiotic relationship enhances the quality and yield of crops, while innovative food processing techniques can offer cost-effective biofortified food solutions to address the nutritional needs of undernourished populations.
通过植物微生物相互作用对大田作物中的铁和锌进行生物强化:综述
微量营养素缺乏是全世界关注的一个大问题,因为它会导致严重的社会和健康问题。包括印度在内的全世界数百万公顷土地上的微量营养素供应量很低。印度土壤中缺锌的比例高达 47%,缺铁的比例高达 13%。土壤中微量营养元素缺乏的主要原因是过度使用化肥(超过 RDF)、土壤侵蚀和其他阻碍微量营养元素流动的农艺措施。一种前景看好的可持续农业方法--生物强化法,旨在减少膳食中锌和铁的缺乏。在所使用的各种策略中,以植物育种方法培育生物强化作物和农艺补充微量营养元素(如叶面/土壤施肥和化学肥料)最受关注。植物与微生物之间的相互作用被认为是提高土壤养分状况和通过金属的溶解、移动和转移到植物的各个部位来富集微量营养元素的关键。这种共生关系提高了农作物的质量和产量,而创新的食品加工技术可以提供具有成本效益的生物强化食品解决方案,以满足营养不良人口的营养需求。在包括印度在内的全世界数百万公顷土地上,微量营养素的供应量很低。印度土壤中缺锌的比例高达 47%,缺铁的比例高达 13%。土壤中微量营养元素缺乏的主要原因是过度使用化肥(超过 RDF)、土壤侵蚀和其他阻碍微量营养元素流动的农艺措施。一种前景看好的可持续农业方法--生物强化法,旨在减少膳食中锌和铁的缺乏。在所使用的各种策略中,以植物育种方法培育生物强化作物和农艺补充微量营养元素(如叶面/土壤施肥和化学肥料)最受关注。植物与微生物之间的相互作用被认为是提高土壤养分状况和通过金属的溶解、移动和转移到植物的各个部位来富集微量营养元素的关键。这种共生关系可提高作物的质量和产量,而创新的食品加工技术则可提供具有成本效益的生物强化食品解决方案,以满足营养不良人口的营养需求。
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