Pesticide presence in stream water, suspended sediment and biofilm is strongly linked to upstream catchment land use and crop type

IF 6.2 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES
Moira M. Ijzerman , Melanie Raby , Nick V. Letwin , Tyler Black , Yaryna M. Kudla , Rebecca K. Osborne , Paul K. Sibley , Ryan S. Prosser
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引用次数: 0

Abstract

Pesticide pollution can present high ecological risks to aquatic ecosystems. Small streams are particularly susceptible. There is a need for reproducible and readily available methods to identify aquatic regions at risk of pesticide contamination. There is currently a limited understanding of the relationship between upstream catchment land use and the presence of pesticides in multiple aquatic matrices. The aim of this study was to develop empirical relationships between different land uses and the levels of pesticides detected in multiple aquatic matrices. The inclusion of biofilm and suspended sediment as monitoring matrices has recently been proven effective for the characterization of pesticide exposure in stream ecosystems. Ten streams in Ontario, Canada with a variety of upstream catchment land uses were sampled in 2021 and 2022. Water, suspended sediment and biofilm were collected and analyzed from each site for the presence of approximately 500 different pesticides. Each of the three matrices exhibited distinctive pesticide exposure profiles. We found a significant relationship between the percentage of agriculture and urban land use and the detection of multiple pesticides in water, sediment and biofilm (logistic regressions, P<0.05). Statistically significant probabilistic models capable of predicting pesticide detections based on upstream catchment land use were developed. High-resolution cover crop maps identified soybeans, corn and other agriculture (e.g., vegetables, berries, canola) as the key variables associated with individual pesticide detection frequencies in each of the three matrices (linear regressions, P<0.05). Soybean land use was also the strongest predictor of site-wide pesticide pollution. This modelling approach using upstream catchment land use variables has the potential to be a powerful tool to identify streams at risk of pesticide pollution.
溪水、悬浮沉积物和生物膜中的农药含量与上游集水区的土地利用和作物类型密切相关
农药污染会给水生生态系统带来很高的生态风险。小溪流尤其容易受到影响。我们需要可重复且随时可用的方法来确定面临农药污染风险的水生区域。目前,人们对上游集水区土地利用与多种水生基质中农药存在之间的关系了解有限。本研究旨在建立不同土地利用与多种水生基质中检测到的农药水平之间的经验关系。将生物膜和悬浮沉积物作为监测基质,最近已被证明能有效描述溪流生态系统中的农药暴露特征。2021 年和 2022 年,对加拿大安大略省的十条溪流进行了采样,这些溪流的上游集水区土地用途各不相同。在每个采样点收集并分析了水、悬浮沉积物和生物膜中约 500 种不同的农药。三种基质中的每一种都呈现出独特的农药暴露特征。我们发现,农业用地和城市用地的比例与水、沉积物和生物膜中多种农药的检测之间存在明显关系(逻辑回归,P<0.05)。根据上游集水区的土地利用情况,建立了能够预测农药检测结果的具有统计学意义的概率模型。高分辨率覆盖作物图显示,大豆、玉米和其他农业(如蔬菜、浆果、油菜)是三个矩阵中每个矩阵中与单个农药检测频率相关的关键变量(线性回归,P<0.05)。大豆土地利用也是对整个地点农药污染的最强预测因子。这种利用上游集水区土地利用变量的建模方法有可能成为识别存在农药污染风险的溪流的有力工具。
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来源期刊
CiteScore
12.10
自引率
5.90%
发文量
1234
审稿时长
88 days
期刊介绍: Ecotoxicology and Environmental Safety is a multi-disciplinary journal that focuses on understanding the exposure and effects of environmental contamination on organisms including human health. The scope of the journal covers three main themes. The topics within these themes, indicated below, include (but are not limited to) the following: Ecotoxicology、Environmental Chemistry、Environmental Safety etc.
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