Freshwater sediment pesticide biodegradation potential as an ecological indicator of microbial recovery following a decrease in chronic pesticide exposure: A case study with the herbicide diuron

Pesce, Stéphane; Margoum, C.; Rouard, Nadine; Foulquier, Arnaud; Martin-Laurent, Fabrice

doi:10.1016/j.ecolind.2012.12.014

Cited by 13 publications

(12 citation statements)

References 43 publications

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“…Based on the relationship between community tolerance and the intensity of exposure, applying PICT towards one specific compound can determine whether this compound still modulates the measured tolerance. A recent case field survey, based on the study of pesticide biodegradation potential in river sediments, showed that adaptation capacities of microbial communities can be used as an ecological indicator of microbial recovery following a decrease in chronic pesticide exposure (Pesce et al, 2013).…”

Section: Pict Biodiversity and Ecosystem Functionsmentioning

confidence: 99%

Pollution‐induced community tolerance (PICT): towards an ecologically relevant risk assessment of chemicals in aquatic systems

et al. 2015

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SUMMARY1. A major challenge in environmental risk assessment of pollutants is establishing a causal relationship between field exposure and community effects that integrates both structural and functional complexity within ecosystems. 2. Pollution-induced community tolerance (PICT) is a concept that evaluates whether pollutants have exerted a selection pressure on natural communities. PICT detects whether a pollutant has eliminated sensitive species from a community and thereby increased its tolerance. PICT has the potential to link assessments of the ecological and chemical status of ecosystems by providing causal analysis for effect-based monitoring of impacted field sites. 3. Using PICT measurements and microbial community endpoints in environmental assessment schemes could give more ecological relevance to the tools that are now used in environmental risk assessment. Here, we propose practical guidance and a list of research issues that should be further considered to apply the PICT concept in the field.

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Section: Pict Biodiversity and Ecosystem Functionsmentioning

confidence: 99%

Pollution‐induced community tolerance (PICT): towards an ecologically relevant risk assessment of chemicals in aquatic systems

et al. 2015

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“…A study showed that 12 out of 15 urban creeks in California were toxic, and sediment pyrethroid pesticide (a replacement for organophosphates for many urban applications) concentrations were sufficient to cause toxicity in amphipod, Hyalella azteca (Amweg et al, 2006). Understanding the pesticide presence and its degradation in sediment environment can provide improved information with regards to the ecological health of a waterbody (Pesce et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

Assessing Glyphosate and Fluridone Concentrations in Water Column and Sediment Leachate

Pandey

Caudill

Lesmeister³

et al. 2019

Front. Environ. Sci.

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Purpose: In recreational water bodies, herbicides are widely used for controlling unwanted weeds, and impacts of herbicide residues on health risks to aquatic ecosystem is a serious concern. This study was aimed to improve the existing understanding of the deposition of herbicides from water column to bed sediment and leachate of herbicides from bed sediment to water column. We investigated the attachment of two herbicides with sediment and release from sediment: (1) Glyphosate; and (2) Fluridone. The goal of this study was to determine the deposition and release of Glyphosate and Fluridone in bed sediment of the Sacramento-San Joaquin River Delta.Materials and Methods: Field sampling was performed to collect water and sediment samples from Sacramento-San Joaquin River Delta. Bottom dredge sampler was used for collecting sediment samples and horizontal water bottle sampler was used for collecting water samples. A series of experiments were conducted to determine the attachment and release of Fluridone and Glyphosate from sediment at a different level of initial concentrations. For analyzing Fluridone and Glyphosate in sediment leachate and water, samples were processed using enzyme-linked immunosorbent assay (ELISA) based method.Results and Discussion: Observations showed that proportions of Glyphosate concentrations in water were higher than Fluridone concentrations in water, when both herbicides were inoculated in water in same quantity. On the contrary, the concentrations of Fluridone in sediment-bound leachate were higher than Glyphosate concentrations in sediment-bound leachate, regardless of the initial concentrations. Fluridone and Glyphosate concentrations in water column samples differed significantly (p < 0.05) over the time even initial concentrations of these herbicides were kept similar, which indicates that Fluridone interaction with water column was considerably different than the interaction of Glyphosate with the water column. Pandey et al. Herbicide Concentration in Water and Sediment LeachateConclusions: Bed sediment can be an important sink and source for release of Fluridone and Glyphosate from bed sediment to the water column of an ambient water body. Significant concentrations of herbicides were deposited in bed sediment of Sacramento-San Joaquin Delta, and eventually the high concentrations of herbicides were observed in sediment leachate. Improved understanding of this important release pathway can provide much needed information to adequately address the impacts of particle attached herbicides on aquatic and ecological environment of a water body.Keywords: fluridone and glyphosate in ambient water, particle attached herbicides, herbicides leachate from sediment, sediment and water column interaction, deposition and resuspension

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“…Nevertheless, a recent study has shown that the ban on diuron in December 2008 has resulted in a progressive decrease in its concentrations in the Morcille River. Thus annual median concentrations recorded at the contaminated station (based on biweekly samples) fell more than fivefold between 2008 (about 110 ng/L) and 2011 (about 20 ng/L), while more than 92 % of water samples collected at the reference station exhibited concentrations below the quantification level of 10 ng/L (Pesce et al 2013). In the present study, the mean diuron concentrations recorded in reference (about 4 ng/L) and contaminated channels (about 28 ng/L) were consistent with concentrations previously observed in the river.…”

Section: Discussionmentioning

confidence: 95%

“…This small shallow river, which has been extensively studied over the last decade , is characterized by a contamination gradient running upstream (reference site) to downstream (contaminated site). In addition, we used an original PICT approach designed to assess changes in the tolerance of phototrophic communities to metals and pesticides, by combining the use of individual toxicants (diuron and copper, which are among the main herbicides and metals detected in the Morcille river, despite diuron being banned in France since December 2008; Pesce et al 2013), and the use of mixtures of organic pesticides and metals directly extracted from the river using passive samplers (i.e., POCIS and diffusive gradient in thin films (DGT)). Based on PICT assessments, our objective was to compare differences in acquired tolerance to metals and organic pesticides between phototrophic biofilm communities previously exposed to raw or filtered contaminated water.…”

Section: Responsible Editor: Philippe Garriguesmentioning

confidence: 99%

Effects of mixtures of dissolved and particulate contaminants on phototrophic biofilms: new insights from a PICT approach combining toxicity tests with passive samplers and model substances

Foulquier

Morin

Dabrin

et al. 2014

Environ Sci Pollut Res

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Streams located in vineyard areas are particularly exposed to mixtures of dissolved and particulate contaminants such as metals and organic pesticides. In this context, phototrophic biofilms are increasingly used as indicators of river water contaminations through pollution-induced community tolerance (PICT) assessments based on short-term toxicity tests with individual or mixtures of toxicants. We conducted a laboratory experiment to evaluate the relative influence of the dissolved and particulate fractions on the effects of metals and pesticides on phototrophic biofilms in a context of contamination from a vineyard watershed. Three sets of artificial channels were supplied with (i) unfiltered water from a stream reference site, (ii) unfiltered water from a stream contaminated site, and (iii) filtered water (0.45 μm) from the same contaminated site. Biofilm growth, diatom community structure, and dissolved toxicant concentrations differed slightly between channels supplied with unfiltered or filtered water from the contaminated site. However, PICT assessments with individual toxicants or mixtures of toxicants extracted from passive samplers suggested no significant difference in tolerance to metals and organic pesticides between phototrophic communities supplied with unfiltered or filtered contaminated water. Our results confirm the use of extracts from passive samplers as a promising approach in short-term toxicity tests to characterize impacts of contamination on aquatic communities.

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Freshwater sediment pesticide biodegradation potential as an ecological indicator of microbial recovery following a decrease in chronic pesticide exposure: A case study with the herbicide diuron

Cited by 13 publications

References 43 publications

Pollution‐induced community tolerance (PICT): towards an ecologically relevant risk assessment of chemicals in aquatic systems

Pollution‐induced community tolerance (PICT): towards an ecologically relevant risk assessment of chemicals in aquatic systems

Assessing Glyphosate and Fluridone Concentrations in Water Column and Sediment Leachate

Effects of mixtures of dissolved and particulate contaminants on phototrophic biofilms: new insights from a PICT approach combining toxicity tests with passive samplers and model substances

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