Metal Nutrient Distribution and Availability in Vegetable Growing Soils of Coimbatore District, Tamil Nadu

K. Chandra Bose, D. Selvi, T. Chitdeshwari, T. Saraswathi, D. Balachandar, P. Jeyakumar
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Abstract

Knowledge about distribution and bio availability of micronutrients is critically needed for better production of agricultural products both quantitatively and qualitatively. The study intended to evaluate the micronutrient status, availability and its interaction with soil properties in the vegetable ecosystem. This study looks at the availability of micronutrient metal cation with their diversified soil properties. A total number of 25 surface soil samples were collected from major vegetable growing areas and basic soil parameters such as pH, electrical conductivity, organic carbon, clay, cation exchange capacity, and free CaCO3 were examined. Micronutrients, both total and accessible, were also determined in soil. Zn and Fe deficiencies were found to a tune of 36 and 24 percent respectively in the overall soil samples, respectively. Deficiencies in Mn and Cu were found in extremely small quantities. Calcareous soils contribute to 40% of the soils analysed. Among the different soil properties, pH and CaCO3 showed a significant negative impact on micronutrient bioavailability whereas organic carbon and clay enhances the availability of micronutrients. The total micronutrient was not significantly correlated with the bioavailability of their respective nutrients.
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泰米尔纳德邦哥印拜陀地区蔬菜种植土壤金属养分分布及有效性
了解微量营养素的分布和生物利用度对于提高农产品的数量和质量至关重要。本研究旨在评价蔬菜生态系统中微量元素的状况、有效性及其与土壤性质的相互作用。本研究着眼于微量营养元素金属阳离子的多样性土壤特性的可用性。在主要蔬菜种植区共采集了25个表层土壤样品,检测了土壤的基本参数,如pH、电导率、有机碳、粘土、阳离子交换容量和游离CaCO3。还测定了土壤中总微量元素和可及微量元素。在整个土壤样品中,锌和铁的缺乏率分别为36%和24%。微量的锰和铜缺乏。钙质土壤占分析土壤的40%。在不同土壤性质中,pH和CaCO3对微量元素的生物有效性有显著的负影响,而有机碳和粘土对微量元素的生物有效性有显著的促进作用。微量元素总量与各营养素的生物利用度无显著相关。
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