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Pesticides reduce regional biodiversity of stream invertebrates.

Author(s): Mikhail A. Beketov, B Kefford, Matthias Liess, Ralf Schäfer

Publication date: 2013-07-02

Journal: Proceedings of the National Academy of Sciences of the United States of America

Keywords: Animals, Aquatic Organisms, classification, drug effects, Biodiversity, Conservation of Natural Resources, Ecotoxicology, France, Germany, Invertebrates, Pesticides, toxicity, Risk Assessment, Rivers, Victoria, Water Pollutants, Chemical

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Abstract

The biodiversity crisis is one of the greatest challenges facing humanity, but our understanding of the drivers remains limited. Thus, after decades of studies and regulation efforts, it remains unknown whether to what degree and at what concentrations modern agricultural pesticides cause regional-scale species losses. We analyzed the effects of pesticides on the regional taxa richness of stream invertebrates in Europe (Germany and France) and Australia (southern Victoria). Pesticides caused statistically significant effects on both the species and family richness in both regions, with losses in taxa up to 42% of the recorded taxonomic pools. Furthermore, the effects in Europe were detected at concentrations that current legislation considers environmentally protective. Thus, the current ecological risk assessment of pesticides falls short of protecting biodiversity, and new approaches linking ecology and ecotoxicology are needed.

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Most cited references 23

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Nicholas Gotelli, Robert K. Colwell (2001)

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Approaching a state shift in Earth's biosphere.

Anthony D. Barnosky, Elizabeth Hadly, Jordi Bascompte … (2012)

Localized ecological systems are known to shift abruptly and irreversibly from one state to another when they are forced across critical thresholds. Here we review evidence that the global ecosystem as a whole can react in the same way and is approaching a planetary-scale critical transition as a result of human influence. The plausibility of a planetary-scale 'tipping point' highlights the need to improve biological forecasting by detecting early warning signs of critical transitions on global as well as local scales, and by detecting feedbacks that promote such transitions. It is also necessary to address root causes of how humans are forcing biological changes.