Assessment of Metalaxyl migration through vadose zone of alluvial sandy soil using column experiment and HYDRUS numerical modeling

IF 0.8 Q4 WATER RESOURCES

Acque Sotterranee-Italian Journal of Groundwater Pub Date : 2023-09-27 DOI:10.7343/as-2023-634

Nilesh Kumar Meshram, Kalyan Adhikari, Rhitwik Chatterjee

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引用次数: 1

Abstract

Contemporary research on pesticides/fungicides as potential sources of groundwater contamination, including their migration pathways, especially in the Western Bengal basin (WBB), is scarce. The present research intends to study the vulnerability of groundwater towards pollution from metalaxyl. Metalaxyl is a fungicide added anthropogenically to the sandy soil of WBB for the cultivation of crops like tomatoes, potatoes and mustard. The study explores the mechanics of metalaxyl adsorption in soil and its migration to the associated groundwater system. Chemical analyses show high concentrations of metalaxyl within groundwater (472.9 μg/L, maximum amount) from the study area (Nadia district of WBB). The groundwater ubiquity score of metalaxyl (4.6) depicts that it is very much prone to leach through the sandy soils of WBB to the underlying groundwater system. The results of column leaching experiments and their congruence to the findings of numerical modelling study using HYDRUS software confirm the fact. The adsorptive resilience of the studied soils towards metalaxyl is insignificant (soils of North Chandmari (S1) =0.1087 mg/g, Ghoragacha (S2) =0.21 mg/g, and Khaldarpara (S3) =1.771 mg/g). However, the presence of excess iron concentration may enhance the adsorptive capacity of the soil toward Metalaxyl, thereby limiting its migration toward the zone of saturation.

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利用柱试验和HYDRUS数值模拟评价冲积沙土渗透带中甲螨的迁移

当代关于杀虫剂/杀菌剂作为地下水污染的潜在来源，包括其迁移途径的研究，特别是在西孟加拉邦盆地(WBB)，很少。本研究旨在研究地下水对甲氨甲酯污染的脆弱性。甲螨灵是一种杀菌剂，人为添加到WBB的沙质土壤中，用于种植西红柿、土豆和芥末等作物。本研究探讨了甲氨甲酯在土壤中的吸附机理及其向伴生地下水系统的迁移。化学分析表明，研究区(WBB Nadia区)地下水中含有高浓度的甲氨甲酯(472.9 μg/L)。地下水泛在性评分(4.6)表明甲氨甲酯很容易通过WBB的砂质土壤渗入下伏地下水系统。柱浸试验结果与HYDRUS软件数值模拟研究结果的一致性证实了这一事实。北昌mari (S1) =0.1087 mg/g, Ghoragacha (S2) =0.21 mg/g, Khaldarpara (S3) =1.771 mg/g，土壤对甲氨酯的吸附弹性不显著。然而，过量铁浓度的存在可能会增强土壤对甲氨甲酯的吸附能力，从而限制其向饱和区迁移。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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