Your search keyword '"diuron"' showing total 6 results

1. Ardières‐Morcille in the Beaujolais, France: A research catchment dedicated to study of the transport and impacts of diffuse agricultural pollution in rivers.

Author

Gouy, Véronique, Liger, Lucie, Ahrouch, Samira, Bonnineau, Chloé, Carluer, Nadia, Chaumot, Arnaud, Coquery, Marina, Dabrin, Aymeric, Margoum, Christelle, and Pesce, Stéphane

Subjects

AGRICULTURAL pollution, RIVER pollution, AQUATIC resources, WATER pollution, DIURON, SURFACE contamination, WATERSHEDS

Abstract

The 8‐km2 Morcille catchment, which is a sub‐catchment of the 150‐km2 Ardières catchment in the Beaujolais region of France, is one of the first sites in Europe where research has been conducted on surface water contamination by pesticides. A consolidated hydrological and chemical dataset has been set up with data collected since 2002 on the Morcille River and since 2011 on the Ardières River. Additional data on the ecotoxicological and ecological impacts of pesticides on aquatic microbial communities and macroinvertebrates has also been recorded in both rivers since 2005. The 'Site Atelier Ardières‐Morcille Dataset' described here combines rainfall and stream water height measurements at gauged stations with concentrations of two trace elements and nine pesticides (mainly herbicides, fungicides and some of their metabolites) in both the Ardières and Morcille rivers. All contaminant concentration data showed spatial and temporal variability in water quality associated with pesticide use and rainfall patterns. This long‐term monitoring framework made it possible to estimate the persistence of two herbicides (diuron and norflurazon) after legislation banning them. It took 4 years for diuron and more than 10 years for norflurazon concentrations to fall below 0.1 μg/L. Concurrent biological data showed a gradient of impacts consistent with chemical anthropogenic pressure, and rapid recovery of phototrophic microbial communities after the diuron ban. Finally, monitoring data on pesticide transport in a grassed strip set on a slope of the Morcille catchment confirmed that vegetative filter strips can effectively reduce diuron fluxes in surface runoff (>80% abatement) and infiltration water (>70% abatement). The full dataset offers a valuable resource for the validation of hydrological models and the development of global approaches to better understand the pressure–transport–exposure–impact chain and aquatic community resilience at the small catchment scale. [ABSTRACT FROM AUTHOR]

Published

2021

2. Genotoxic and epigenetic effects of diuron in the Pacific oyster: in vitro evidence of interaction between DNA damage and DNA methylation.

Author

Akcha, Farida, Barranger, Audrey, and Bachère, Evelyne

Subjects

DIURON, DNA damage, PACIFIC oysters, DNA methylation, GENETIC toxicology, EPIGENETICS, P16 gene

Abstract

Recently, research has contributed to better knowledge on the occurrence of pesticides in coastal water by identifying frequently detected substances, their concentration range and their acute and chronic toxicity for organisms. Pesticide pollution is of particular concern in France due to important agricultural activities and presence of several exoreic catchment areas that vehicle pesticides up to coastal waters, impacting non-target marine species. Several ecotoxicology questions remain to be addressed concerning the long-term effects of chronic pesticide exposure and the mechanisms involved in adaptation to chemical stress. In the present study, we brought new insights on the genetic and epigenetic effects of the herbicide diuron in oyster genitors. During gametogenesis, we exposed Crassostrea gigas to environmentally realistic herbicide concentrations (0.2–0.3 μg L−1 during two 7-day periods at half-course and end of gametogenesis). Diuron exposure was shown to decrease global DNA methylation and total methyltransferase activity in whole oyster tissue; this is consistent with the previous observation of a significant decrease in DNMT1 gene expression. Diuron effect seemed to be tissue-specific; hypermethylation was detected in the digestive gland, whereas diuron exposure had no effect on gill and gonad tissue. The genotoxicity of diuron was confirmed by the detection of one adduct in gonad DNA. By using in vitro approaches and human DNMT1 (DNMT1 has not been purified yet in bivalves), the presence of DNA lesions (adduct, 8-oxodGuo) was shown to interfere with DNMT1 activity, indicating a complex interaction between DNA damage and DNA methylation. Based on our results, we propose mechanisms to explain the effect of diuron exposure on DNA methylation, a widespread epigenetic mark. [ABSTRACT FROM AUTHOR]

Published

2021

3. Diuron biotransformation and its effects on biofilm bacterial community structure

Author

Vercraene-Eairmal, Marion, Lauga, Béatrice, Saint Laurent, Stéphanie, Mazzella, Nicolas, Boutry, Sébastien, Simon, Maryse, Karama, Solange, Delmas, François, and Duran, Robert

Subjects

*DIURON, *BIOTRANSFORMATION (Metabolism), *BIOFILMS, *RIVERS, *STATISTICAL correlation, *RIVER ecology, *BIOTIC communities, *BACTERIA, *RESTRICTION fragment length polymorphisms, *BACTERIAL metabolism

Abstract

Abstract: The effect of realistic environmental contamination of diuron on natural epilithic biofilms dwelling bacterial communities and their transformation capacities were investigated by using microcosm experiments. Cobbles carrying biofilms from two sites (“Pau” and “Lacq”) located in areas of contrasting pesticide use (urban and agricultural) on the Gave de Pau river (South-West France) were analysed. The water of the upstream site, Pau, was characterised by fewer pesticides than the water of Lacq, whereas concentrations were higher at Pau. The sampled cobbles were exposed to diuron (10μgL−1) in microcosms. After 3 weeks of exposure, pesticides were analysed and bacterial community structures were assessed with terminal-restriction fragment length polymorphism (T-RFLP). Diuron was biotransformed during contact with biofilms, revealing that these communities contribute to the production of DCPMU (1-(3,4-dichlorophenyl)-3-methylurea) and DCPU metabolites (1-(3,4-dichlorophenyl) urea) in the river ecosystems. Bacterial communities from the most contaminated site appeared to be more resistant to diuron exposure. Correlation analyses combining chemical data with molecular fingerprinting showed that past in situ exposure drove the response of the bacterial communities. [ABSTRACT FROM AUTHOR]

Published

2010

4. Recovery potential of periphytic communities in a river impacted by a vineyard watershed

Author

Morin, S., Pesce, S., Tlili, A., Coste, M., and Montuelle, B.

Subjects

*PERIPHYTON, *WATERSHEDS, *VINEYARDS, *BIOFILMS, *DIATOMS, *BIOINDICATORS, *WATER quality, *ENVIRONMENTAL impact analysis, *HERBICIDES & the environment

Abstract

Abstract: Vineyard areas are important causes of water contamination, especially by pesticides and residues. These compounds can markedly disturb aquatic communities particularly photosynthetic organisms that are targeted by herbicides. Biofilms and diatoms were used as bioindicators for quality assessment in the Morcille watershed, an area impacted by Beaujolais vineyards (SE France), during the pesticide spreading period (April–May 2008). Biofilms were allowed to settle on glass slides for 4 or 8 weeks at three sites along a 7-km long gradient of trophic (mainly orthophosphate) and pesticide pollution. After a 4-week colonization, samples from the two contaminated downstream sites were transferred upstream to the clean site for 4 weeks while others were left in the same place. In vivo fluorescence measurements indicated that the periphytic communities were dominated by diatoms. Going downstream, biofilm biomass and diatom species richness decreased; normalized diatom indices (including the French standard BDI) expressed the increase in trophic status quite well. The species composition of the assemblages was used to discriminate between the effects of nutrients and toxicants, which increased simultaneously as the river continued downstream. The way in which the biofilm samples transferred upstream recovered was quite different depending on the location of the original site in the contamination gradient. Most of the quantitative descriptors reached a level comparable to that of the reference communities, but the diatom assemblages (cell density per surface unit, taxonomic composition) varied between dates and along the gradient. These communities did not entirely recover a reference structure but the increase in diversity, associated with the settlement of sensitive species, suggested an elevated recovery potential. [Copyright &y& Elsevier]

Published

2010

5. Multiresidue analysis of atrazine, diuron and their degradation products in sewage sludge by liquid chromatography tandem mass spectrometry.

Author

Ghanem, Aline, Bados, Philippe, Perreau, François, Benabdallah, Rachid, Plagellat, Cécile, de Alencastro, Luiz Felippe, and Einhorn, Jacques

Subjects

*ATRAZINE, *TRIAZINES, *DIURON, *LIQUID chromatography, *MASS spectrometry, *SEWAGE sludge

Abstract

A multiresidue method has been developed to analyze atrazine (ATZ), diuron (DIU), and their major degradation products, desethylatrazine (DEA), desisopropylatrazine (DIA), and dichlorophenylmethylurea in sewage sludge. Liquid chromatography coupled to electrospray tandem mass spectrometry (LC–ESI-MS–MS) allowed, in the multiple-reaction monitoring mode, the simultaneous analysis of these pesticides in only one run after their extraction with ethyl acetate–dichloromethane 90:10 ( v/ v) and a cleanup on a Florisil column. Stable isotopically labeled ATZ and DIU were used as internal standards to overcome matrix effects during the pesticide quantification. Using fortified samples, the method gave rise to 86–115% as mean recovery values depending on the analyte. Limits of detection (LODs) and of quantification (LOQs) ranging from 0.3 (DIA) to 1.5 (DEA) μg kg−1 dw and from 0.4 (DIA) to 2.0 (DEA) μg kg−1 dw, respectively, were sufficient to achieve the monitoring of these molecules in sludge from wastewater treatment plants of the Ile-de-France region. [ABSTRACT FROM AUTHOR]

Published

2008

6. Phytotoxicity of diuron alone and in combination with copper or folpet on duckweed (Lemna minor)

Author

Teisseire, H., Vernet, G., and Couderchet, M.

Subjects

WATER pollution monitoring, COPPER, DIURON, HERBICIDES, LEMNA minor, PHYTOTOXICITY

Abstract

The photosystem II-herbicide diuron is widely used for weed control in Champagne's vineyards. Its important use and its relative persistence make it of particular interest for ecotoxicological studies. Toxicity of diuron was assessed on Lemna minor L., a representative aquatic macrophyte regularly used for toxicological studies. Toxicity assessments were based on inhibition of growth and total chlorophyll content of L. minor cultures after 7 days. Growth was inhibited and IC50 and IC90 were, respectively, 25 and 60 mu g l-1, but chlorophyll content of L. minor increased in response to the herbicide. When diuron was combined with copper, growth inhibition of L. minor depended on the concentrations of both chemicals. For some concentrations, combination of these chemicals resulted in aslight (but non-significant) antagonism. Additivity was observed forall other mixtures. When diuron was combined with folpet, growth andchlorophyll content of L. minor only depended on the concentration of the herbicide. Diuron was also found to prevent the copper-induced decrease of chlorophyll content when it was combined with this metal.A multifactorial model was found more appropriate to characterize interactions between pesticides than Abott's model. [ABSTRACT FROM AUTHOR]

Published

1999