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Jabiol Jérémy Chauvet Eric Guérold François Bouquerel Jonathan Usseglio-Polatera Philippe Artigas Joan Margoum Christelle Le Dréau Matthieu Moreira Aurélie Mazzella Nicolas Gouy Véronique 《Environmental science and pollution research international》2022,29(20):29296-29313
Environmental Science and Pollution Research - Freshwater contamination by pesticides in agricultural landscapes is of increasing concern worldwide, with strong pesticide impacts on biodiversity,... 相似文献
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Comparison of arsenate and cadmium toxicity in a freshwater amphipod (Gammarus pulex) 总被引:1,自引:0,他引:1
Vellinger C Parant M Rousselle P Immel F Wagner P Usseglio-Polatera P 《Environmental pollution (Barking, Essex : 1987)》2012,160(1):66-73
Cadmium is largely documented on freshwater organisms while arsenic, especially arsenate, is rarely studied. The kinetic of the LC50s values for both metals was realized on Gammarus pulex. Physiological [i.e. metal concentration in body tissues, bioconcentration factor (BCF)] effects and behavioural responses (via pleopods beats) were investigated after 240-h exposure. Arsenate LC50 value was 100 fold higher than Cd-LC50 value after 240-h exposure, while concentrations in gammarids were similar for both metals at their respective LC50s. BCF decreased with increasing cadmium concentration while BCF remained stable with increasing arsenate concentration. Moreover, BCF was between 148 and 344 times lower for arsenate than cadmium. A significant hypoventilation was observed for cadmium concentrations exceeding or close to the 240h-LC50(Cd), while gammarids hyperventilated for the lowest arsenate concentrations and hypoventilated for the highest arsenate concentrations. We discussed the relationships between potential action mechanisms of these two metals and observed results. 相似文献
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Artigas J Arts G Babut M Caracciolo AB Charles S Chaumot A Combourieu B Dahllöf I Despréaux D Ferrari B Friberg N Garric J Geffard O Gourlay-Francé C Hein M Hjorth M Krauss M De Lange HJ Lahr J Lehtonen KK Lettieri T Liess M Lofts S Mayer P Morin S Paschke A Svendsen C Usseglio-Polatera P van den Brink N Vindimian E Williams R 《Environmental pollution (Barking, Essex : 1987)》2012,160(1):201-206
New concerns about biodiversity, ecosystem services and human health triggered several new regulations increasing the need for sound ecotoxicological risk assessment. The PEER network aims to share its view on the research issues that this challenges. PEER scientists call for an improved biologically relevant exposure assessment. They promote comprehensive effect assessment at several biological levels. Biological traits should be used for Environmental risk assessment (ERA) as promising tools to better understand relationships between structure and functioning of ecosystems. The use of modern high throughput methods could also enhance the amount of data for a better risk assessment. Improved models coping with multiple stressors or biological levels are necessary to answer for a more scientifically based risk assessment. Those methods must be embedded within life cycle analysis or economical models for efficient regulations. Joint research programmes involving humanities with ecological sciences should be developed for a sound risk management. 相似文献
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Banas D Masson G Leglize L Usseglio-Polatera P Boyd CE 《Environmental pollution (Barking, Essex : 1987)》2008,152(3):679-685
Expansion of aquaculture has increased concern over its environmental impact. The composition of effluents from intensive aquaculture is well documented, but few data on extensive aquaculture are available. During 12 draining operations, 523 water samples were collected downstream from six extensively-managed fishponds in northeastern France. Study ponds had surface areas of 2-620 ha and were managed for production of Cyprinids and Percids. Concentrations of total suspended solids, total phosphorus, and Kjeldahl nitrogen in effluents from the ponds were greatest during the final stage of draining. Loads of phosphorus were higher than those reported for effluents of more intensive aquaculture ponds in the USA, but the source of the potential pollutants was catchments and sediment rather than feeds and fertilizer. It will be necessary to reduce the water drawdown rate during the fishing stage and possibly implement other best management practices to prevent the TSS concentration from exceeding 1 g/L. 相似文献
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