Effect of Soil Amendments on Leaching of Thiamethoxam in Alluvial and Calcareous Soil

Q4 Agricultural and Biological Sciences Basrah Journal of Agricultural Sciences Pub Date : 2023-06-28 DOI:10.37077/25200860.2023.36.1.14

Mohamed R. Fouad

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引用次数: 2

Abstract

In this study, peat, compost and charcoal were added to reduce groundwater pollution with thiamethoxam by soil columns. Iodide has been used as a water tracer at a rate of 10 mL (0.1 M) for each soil column and that leached fast in all soil columns. The breakthrough curve of thiamethoxam was appeared from leachates of calcareous soil column and alluvial soil column with iodide. Accordingly it is considered thiamethoxam is highly mobile compound in tested soils. The addition of soil amendments reduced downward movement and significantly increased cumulative percentage of thiamethoxam from soil columns. After application; 85.21, 93.23, 98.12 and 97.84 % of applied thiamethoxam were recovered in leachates of alluvial soil, 5% peat-soil, 5% compost-soil and 5% charcoal-soil. While; 91.50, 99.30, 94.09 and 86.89 % from calcareous soil, 5% peat-soil, 5% compost-soil and 5% charcoal-soil columns. This is first study to assess, leaching of thiamethoxam and effect of soil amendments on leaching by soil columns. This information can be used to understand how alterations in agricultural practices and potential effects to groundwater.

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土壤改良剂对硫虫嗪在冲积和钙质土壤中淋溶的影响

本研究采用泥炭、堆肥和木炭作为土壤柱，减少噻虫嗪对地下水的污染。碘化物被用作水示踪剂，每根土壤柱的速率为10 mL (0.1 M)，在所有土壤柱中都能快速浸出。在含碘钙质土柱和冲积土柱的渗滤液中出现噻虫嗪的突破曲线。因此，认为噻虫嗪在试验土壤中是一种高流动性的化合物。土壤改良剂的添加减少了土壤的向下运动，显著增加了土壤柱中噻虫嗪的累积百分比。在应用程序;冲积土、5%泥炭土、5%堆肥土和5%炭土渗滤液中施用噻虫脒的回收率分别为85.21%、93.23%、98.12%和97.84%。而;分别为91.50%、99.30%、94.09和86.89%，分别为钙质土柱、5%泥炭土柱、5%堆肥土柱和5%炭土柱。这是第一次研究噻虫嗪的淋溶和土壤改良剂对土壤柱淋溶的影响。这些信息可用于了解农业实践的变化及其对地下水的潜在影响。

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来源期刊

Basrah Journal of Agricultural Sciences Environmental Science-Pollution

CiteScore

1.20

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0.00%

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