Regional disparities and social-ecological constraints of soil antibiotic pollution in urban agglomerations of China

IF 3 3区 地球科学 Q2 GEOGRAPHY, PHYSICAL Progress in Physical Geography-Earth and Environment Pub Date : 2024-06-20 DOI:10.1177/03091333241263796
Fangkai Zhao, Lei Yang, Qingyu Feng, Chenxu Ji, Min Li, Li Fang, Xinwei Yu, Liding Chen
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Abstract

With intensive socio-economic growth, antibiotics have been heavily discharged into soils, posing a threat to ecosystems and human health. However, limited data are available in broad-scale urban agglomerations which limit the understanding of the driving mechanisms for antibiotic pollution and hinder action plans for pollution control. Here, we examined the underlying mechanisms driving antibiotic pollution and their regional disparities (Central Yunnan vs. Yangtze River Delta), and we predicted antibiotic concentrations in the soils of these two urban agglomerations using machine learning algorithms. Specifically, anthropogenic pressures such as population aggregation and livestock production accounted for the highest contribution to model accuracy in Central Yunnan, suggesting human interference mediated by geographical isolation likely plays a pivotal role in the clustering of antibiotic pollution in soils. However, soil and climate variables were the most important predictors in the more developed Yangtze River Delta, indicating that human-mediated soil carrying capacity was likely the main mechanism controlling antibiotic pollution in this region. Our results showed that machine learning models performed better (area under the receiver operating characteristics curve: 0.91–0.98) in predicting antibiotic hotspots than classic linear models. Our findings highlight the regional disparities in underlying mechanisms for antibiotic pollution in the soils of urban agglomerations, and demonstrate that machine learning algorithms based on spatially available predictors can be extended to other regions.
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中国城市群土壤抗生素污染的地区差异和社会生态制约因素
随着社会经济的迅猛发展,抗生素大量排入土壤,对生态系统和人类健康构成威胁。然而,在大范围城市群中获得的数据有限,这限制了对抗生素污染驱动机制的了解,阻碍了污染控制行动计划的实施。在此,我们研究了抗生素污染的根本驱动机制及其区域差异(滇中与长三角),并利用机器学习算法预测了这两个城市群土壤中的抗生素浓度。具体而言,在滇中地区,人口聚集和畜牧业生产等人为压力对模型准确性的贡献最大,这表明地理隔离所带来的人为干扰可能在土壤中抗生素污染的聚集中起到了关键作用。然而,在较发达的长江三角洲地区,土壤和气候变量是最重要的预测因子,这表明人类介导的土壤承载能力可能是控制该地区抗生素污染的主要机制。我们的研究结果表明,与传统的线性模型相比,机器学习模型在预测抗生素热点方面表现更好(接收者操作特征曲线下面积:0.91-0.98)。我们的研究结果凸显了城市群土壤中抗生素污染潜在机制的地区差异,并证明了基于空间可用预测因子的机器学习算法可以推广到其他地区。
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来源期刊
CiteScore
7.20
自引率
5.10%
发文量
53
审稿时长
>12 weeks
期刊介绍: Progress in Physical Geography is a peer-reviewed, international journal, encompassing an interdisciplinary approach incorporating the latest developments and debates within Physical Geography and interrelated fields across the Earth, Biological and Ecological System Sciences.
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