Hypothetical scenarios estimating and simulating the fate of antibiotics: Implications for antibiotic environmental pollution caused by manure application

环境科学 肥料 水土评价工具 污染 流域 水文学(农业) 地表水 SWAT模型 构造盆地 水流 环境工程 生态学 地理 工程类 地质学 生物 古生物学 地图学 岩土工程
作者
Xiaoting Yan,Yun-Qiu Zhai,Ya-Ya Cai,Zhao Guo,Qian-Qian Zhang,Guang‐Guo Ying
出处
期刊:Science of The Total Environment [Elsevier BV]
卷期号:822: 153177-153177 被引量:27
标识
DOI:10.1016/j.scitotenv.2022.153177
摘要

The application of animal manure containing antibiotic residues as an organic fertilizer to farmlands, poses a major threat to the health of river basin ecosystems. Waste treatment processes can help reduce antibiotic pollution levels in river basins following manure application, but the overall influence of these processes remains unclear. This study evaluates the impact of manure treatment methods on the emission and subsequent river pollution caused by 14 frequently detected antibiotics in a typical pig breeding area in China, by using hypothetical scenarios method. Three scenarios were constructed based on possible fate pathways of antibiotics, representing in 47.0, 55.3, and 81.6 ton·yr −1 antibiotic emissions into the river basin. The soil and water assessment tool (SWAT) model successfully simulated the transport of antibiotics from farmland to surface water, with calibration and verification performed using hydrological station monthly data over 8 consecutive years. Field measured concentrations also verified the reliability of the model and were used to determine the most realistic scenario. In basins applied with manure, environmental antibiotic pollution is most affected by the wastewater treatment process and manure applied patterns, followed by changes in streamflow. The antibiotic pollution in manure applied areas showed significant spatial and temporal differences, resulting from the different manure application patterns. The simulated total outflow of antibiotics in the river basin accounted for 18.1% of the inflow, with the loss of target antibiotics by degradation, volatilization and sedimentation deposition in the river basin being 0.23, 0.01 and 33.2 ton·yr −1 , respectively. This study can help to clarify the environmental fate of antibiotics in the basin following manure application, provide guidance for policy makers and help to design the effective corrective interventions for reducing the environmental pollution. • Hypothetical scenario method evaluates antibiotic pollution in manure applied basin. • SWAT model successfully simulates the antibiotic pollution in pig breeding basin. • Manure treatment can effectively reduce the basin antibiotic emission and pollution. • Manure applied areas showed significant spatial and temporal antibiotic pollution. • Antibiotics were mostly deposited into the basin sediment in manure applied basin.

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