Adsorption, mobility, and degradation of the pesticide propaquizafop in five agricultural soils in China

Propaquizafop is a fatty acid synthetic herbicide used to control annual and perennial grasses. To understand the potential environmental risks of propaquizafop to crops and food safety, the adsorption, mobility, and degradation of propaquizafop in five different soils were studied. At an initial co...

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Bibliographic Details
Published in:Scientific reports 2023-04, Vol.13 (1), p.5814-5814, Article 5814
Main Authors: Cheng, Zhijia, Hou, Zhiguang, Han, Hongbo, Yu, Xiaolong, Li, Jiaxin, Zhao, Qinghui, Zhang, Ning, Lu, Zhongbin
Format: Article
Language:English
Subjects:
704/172
704/172/169
704/172/4081
Adsorption
Agricultural land
Agrochemicals
Biodegradation
Chromatography
Environmental conditions
Environmental degradation
Environmental risk
Food safety
Herbicides
Humanities and Social Sciences
Leachates
Leaching
Microorganisms
Mobility
multidisciplinary
Pesticides
Science
Science (multidisciplinary)
Soil columns
Soil degradation
Soil moisture
Soil temperature
Thin layer chromatography
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Summary:Propaquizafop is a fatty acid synthetic herbicide used to control annual and perennial grasses. To understand the potential environmental risks of propaquizafop to crops and food safety, the adsorption, mobility, and degradation of propaquizafop in five different soils were studied. At an initial concentration of 5 mg L −1 propaquizafop, its adsorption equilibrium was reached within 24 h, and the adsorption rates were between 46.98 and 57.76%. The Elovich kinetic model provided the best fit for the kinetic model, with R 2 values between 0.9882 and 0.9940. For the isothermal adsorption tests, the Freundlich model was used to better fit the adsorption characteristics of propaquizafop in different soils, with R 2 values between 0.9748 and 0.9885. Increasing the concentration of Ca 2+ was beneficial for propaquizafop adsorption. In the soil thin-layer chromatography tests, the R f of propaquizafop in the five soil samples ranged from 0.076 to 0.123. The results of the soil column leaching tests showed that propaquizafop did not migrate in the five soil columns; it was not detected in the leachate of each soil column, and propaquizafop in the soil columns only existed in the 0–5 cm soil layer. The results of soil thin-layer chromatography and soil column leaching tests showed that propaquizafop is a pesticide with a weak migration ability. Under the same environmental conditions, the degradation rate of propaquizafop in different soils followed the order LF fluvo–aquic soil ( T 1/2  = 1.41 d) > CS red loam ( T 1/2  = 2.76 d) > SX paddy soil ( T 1/2  = 3.52 d) > CC black soil ( T 1/2  = 5.74 d) > BS ginseng soil ( T 1/2  = 7.75 d). Considering the effects of soil moisture, incubation temperature, and microorganisms on propaquizafop degradation in the soil, temperature was found to have the greatest influence on its degradation rate.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-023-32771-6