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Two sampling strategies for an overview of pesticide contamination in an agriculture-extensive headwater stream
Authors:Robin Guibal  Sophie Lissalde  Julie Leblanc  Karine Cleries  Adeline Charriau  Gaëlle Poulier  Nicolas Mazzella  Jean-Pierre Rebillard  Yoann Brizard  Gilles Guibaud
Affiliation:1.Groupement de Recherche Eau, Sol, Environnement (GRESE – EA 4330),Université de Limoges,Limoges Cedex,France;2.Unité de Recherche EABX,IRSTEA,Cestas Cedex,France;3.Unité de Recherche Milieux aquatiques, écologie et pollutions (MAEP),IRSTEA,Villeurbanne Cedex,France;4.Agence de l’Eau Adour-Garonne,Toulouse Cedex 4,France;5.Syndicat d’aménagement du Bassin de la Vienne,Aixe sur Vienne,France
Abstract:Two headwaters located in southwest France were monitored for 3 and 2 years (Auvézère and Aixette watershed, respectively) with two sampling strategies: grab and passive sampling with polar organic chemical integrative sampler (POCIS). These watersheds are rural and characterized by agricultural areas with similar breeding practices, except that the Auvézère watershed contains apple production for agricultural diversification and the downstream portion of the Aixette watershed is in a peri-urban area. The agricultural activities of both are extensive, i.e., with limited supply of fertilizer and pesticides. The sampling strategies used here give specific information: grab samples for higher pesticide content and POCIS for contamination background noise and number of compounds found. Agricultural catchments in small headwater streams are characterized by a background noise of pesticide contamination in the range of 20–70 ng/L, but there may also be transient and high-peak pesticide contamination (2000–3000 ng/L) caused by rain events, poor use of pesticides, and/or the small size of the water body. This study demonstrates that between two specific runoff events, contamination was low; hence the importance of passive sampler use. While the peak pesticide concentrations seen here are a toxicity risk for aquatic life, the pesticide background noise of single compounds do not pose obvious acute nor chronic risks; however, this study did not consider the risk from synergistic “cocktail” effects. Proper tools and sampling strategies may link watershed activities (agricultural, non-agricultural) to pesticides detected in the water, and data from both grab and passive samples can contribute to discussions on environmental effects in headwaters, an area of great importance for biodiversity.
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