Agricultural Insecticide Contamination Threatens U.S. Surface Water Integrity

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Agricultural Insecticide Contamination Threatens U.S. Surface Water Integrity

Insecticide contamination occurs widespread throughout the United States and risks are expected to increase in the future.

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Degraded agricultural stream in the Mississippi delta . Image by Ralf Schulz (Image Source: uni-koblenz-landau.de)

Insecticide contamination of surface waters regularly occurs across the U.S. in concentrations that have severe detrimental effects on aquatic ecosystems, says a recent study by the Institute for Environmental Sciences Landau, Germany. According to their findings, insecticide contamination occurs widespread throughout the United States and risks are expected to increase in the future. This study shows that insecticides thus threaten one of the most important natural resources and highlights the urgent need to re-evaluate current regulatory practices in the U.S.

Insecticides are applied in large volumes across the United States to protect agricultural crops from insect pests. As has been shown before through studies e.g. by the USGS or the U.S. EPA, these substances can be transported from agricultural fields into adjacent water bodies via various pathways where they have profound adverse effects on both water quality and biodiversity. Therefore, insecticides have to pass an elaborated environmental risk assessment procedure before being sold and applied to crops. During this process, regulatory threshold concentrations are derived, which should not be surpassed, in order to prevent adverse effects in non-target environments such as surface waters. These thresholds were compared to actual field concentrations of 32 commonly applied insecticides, obtained from 259 peer-reviewed publications reporting insecticide concentrations in more than 600 water bodies in the U.S.

In this extensive meta-analysis, about half of the total of 5817 measured insecticide concentrations exceeded these critical thresholds; more so, about one-fourth of all concentrations surpassed these thresholds by a factor of ten or more. Thus insecticides occur frequently at adverse concentrations and exceed levels that were expected during the pesticides’ approval process. In addition, risks were even more pronounced for smaller water bodies, which is especially concerning considering that they denote critical habitats for endangered species and serve as important spawning grounds for fish.

In particular newer insecticides, such as pyrethroids and neonicotinoids, were of particular concern, replacing older substances but thereby failing to provide a more environmentally safe alternative. “One of our biggest concerns is that environmental risks did not decrease over time.”, added Jakob Wolfram. As a result, insecticides’ current use practices may not be in accordance with environmental protection goals, requiring a critical reassessment of their environmental risks.

In the future, an insecticide application may even increase due to changing weather conditions and intensifying pressure from invasive pest species. Addressing this central challenge to surface water integrity appears thus more pressing than ever if sustainable and safe use of water resources should be achieved in the United States.

Reference:

Jakob Wolfram, Sebastian Stehle, Sascha Bub, Lara L. Petschick, Ralf Schulz, “Meta-Analysis of Insecticides in United States Surface Waters: Status and Future Implications”; November 2018, Environmental Science & Technology Journal; DOI: http://dx.doi.org/10.1021/acs.est.8b04651

Source: Universitat Koblenz-Landau

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