Analysis of ۲,۴-D residues in soil profile using HYDRUS-۱D model
Publish place: Iran Agricultural Research، Vol: 37، Issue: 1
Publish Year: 1397
نوع سند: مقاله ژورنالی
زبان: English
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شناسه ملی سند علمی:
JR_IAR-37-1_004
تاریخ نمایه سازی: 6 شهریور 1402
Abstract:
ABSTRACT- Despite the benefits of herbicides, their persistence in soil can harm other plants in next rotations and contaminate ground water. The main purpose of this research is to simulate ۲,۴-dichlorophenoxyaceticacid(۲,۴-D) movement in silty clay loam soil using HYDRUS-۱D model in a corn root zone. The maximum contaminant level goal, MCLG, of ۲,۴-D in water resources is ۱۰ ppb. The ۳.۵ kg a.i ha-۱ of ۲,۴-D was applied to the experimental field under two irrigation treatments including normal and deficit irrigation. The presence of ۲,۴-D along with soil water content was measured in soil profile at different depths during the growing season at ۸, ۱۳, ۲۳, ۳۰, ۳۷ and ۵۷ days after application. Both measured and simulated data showed that ۲,۴-D concentrations reduced from top to bottom of soil profile, maximum ۴۰ cm in both irrigation treatments. The ۲,۴-D residues in normal and deficit irrigation were used for calibration and validation of HYDRUS-۱D model, respectively. In general, total measured and simulated ۲,۴-D concentration in normal irrigation treatment were ۶۸.۹۴ and ۶۴.۹۶ mg kg-۱and in deficit irrigation treatment were ۷۴.۳ and ۷۴.۰ mg kg-۱, respectively. Statistical parameters including NRMSE, CRM and d were used for comparison of measured and simulated data. These parameters were ۰.۲۶۷, ۰.۷۷ and ۰.۸۴۶ for normal irrigation and ۰.۱۸۹, -۰.۰۲ and ۰.۹۳۷ for deficit regime, respectively. Therefore, the results showed a good agreement between measured values of herbicide residue and the values simulated using HYDRUS ۱D model. The numerical simulations for deficit irrigation regime were more precise than normal irrigation because of less microbial activity due to less soil moisture. The numerical models could not simulate microbial activity with acceptable accuracy.
Keywords:
Keywords: ۲ , ۴-D residues Corn Irrigation Soil Simulation
Authors
M. Noshadi
Department of Water Engineering, College of Agriculture, Shiraz University Shiraz, I. R. Iran
P. Torkaman
Department of Water Engineering, College of Agriculture, Shiraz University Shiraz, I. R. Iran
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