Your search keyword '"Urien N"' showing total 15 results

1. A probabilistic model for assessing uncertainty and sensitivity in the prediction of monochloramine loss in French river waters

Author

Ciffroy, P. and Urien, N.

Published

2021

2. Environmental relevance of laboratory-derived kinetic models to predict trace metal bioaccumulation in gammarids: Field experimentation at a large spatial scale (France)

Author

Urien, N., Lebrun, J.D., Fechner, L.C., Uher, E., François, A., Quéau, H., Coquery, M., Chaumot, A., and Geffard, O.

Published

2016

3. Comparison in waterborne Cu, Ni and Pb bioaccumulation kinetics between different gammarid species and populations: Natural variability and influence of metal exposure history

Author

Urien, N., primary, Farfarana, A., additional, Uher, E., additional, Fechner, L.C., additional, Chaumot, A., additional, Geffard, O., additional, and Lebrun, J.D., additional

Published

2017

4. Comparison in waterborne Cu, Ni and Pb bioaccumulation kinetics between different gammarid species and populations: Natural variability and influence of metal exposure history

Author

Urien, N., Farfarana, A., Uher, E., Fechner, Lise, Chaumot, A., Geffard, O., Lebrun, J. D., Urien, N., Farfarana, A., Uher, E., Fechner, Lise, Chaumot, A., Geffard, O., and Lebrun, J. D.

Abstract

Kinetic parameters (uptake from solution and elimination rate constants) of Cu, Ni and Pb bioaccumulation were determined from two Gammarus pulex and three Gammarus fossrum wild populations collected from reference sites throughout France in order to assess the inter-species and the natural inter-population variability of metal bioaccumulation kinetics in that sentinel organism. For that, each population was independently exposed for seven days to either 2.5 mu g L-1 Cu (39.3 nM), 40 mu g L-1 Ni (681 nM) or 10 mu g L-1 Pb (48.3 nM) in laboratory controlled conditions, and then placed in unexposed microcosms for a 7-day depuration period. In the same way, the possible influence of metal exposure history on subsequent metal bioaccumulation kinetics was addressed by collecting wild gammarids from three populations inhabiting stations contaminated either by Cd, Pb or both Pb and Ni (named pre-exposed thereafter). In these pre-exposed organisms, assessment of any changes in metal bioaccumulation kinetics was achieved by comparison with the natural variability of kinetic parameters defined from reference populations. Results showed that in all studied populations (reference and pre-exposed) no significant Cu bioaccumulation was observed at the exposure concentration of 2.5 mu g L-1, Concerning the reference populations, no significant differences in Ni and Pb bioaccumulation kinetics between the two species (G. pulex and G. fossarum) was observed allowing us to consider all the five reference populations to determine the inter-population natural variability, which was found to be relatively low (kinetic parameters determined for each population remained within a factor of 2 of the minimum and maximum values). Organisms from the population exhibiting a Pb exposure history presented reduced Ni uptake and elimination rate constants, whereas no influence on Ni kinetic parameters was observed in organisms from the population exhibiting an exposure history to both Ni and Pb. Fu

Published

2017

5. Ecotoxicoproteomic assessment of the functional alterations caused by chronic metallic exposures in gammarids

Author

Gismondi, E., primary, Thomé, J.-P., additional, Urien, N., additional, Uher, E., additional, Baiwir, D., additional, Mazzucchelli, G., additional, De Pauw, E., additional, Fechner, L.C., additional, and Lebrun, J.D., additional

Published

2017

6. Contrasting abilities of metal bioaccumulation in Gammarus populations with different exposure histories

Author

Urien, N., Lebrun, J.D., Farfarana, A., Chaumot, Arnaud, Fechner, L.C., Olivier, Geffard, Hydrosystèmes et Bioprocédés (UR HBAN), Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), Milieux aquatiques, écologie et pollutions (UR MALY), IRSTEA ANTONY UR HBAN FRA, and IRSTEA LYON UR MALY FRA

Subjects

[SDE]Environmental Sciences, GAMMARUS, BIOACCUMULATION, METALS, METAUX

Abstract

International audience; Kinetic models are used to link metal exposure to metal contamination in aquatic organisms and enable also the prediction of metal bioaccumulation. Kinetic models are characterised by kinetic parameters (uptake and elimination rate constants) which can be determined in controlled conditions. “Global” kinetic parameters for Cd, Pb and Ni have been established in five naïve populations of gammarids. Gammarids can, however, live in rivers exhibiting metal contamination to which organisms may adapt physiologically. Adaptation can result in the modulation of bioaccumulation abilities i.e. kinetic parameters. This may limit the environmental relevance of kinetic models and the reliability of bioaccumulation predictions. The aim of thsi study was to assess the bioaccumulation abilities of metals in gammarids chronically exposed to metals in situ by (i) determining the kinetic parameters describing Cd, Pb and Ni bioaccumulation in populations of gammarids chronically exposed to metals in situ, (ii) comparing the kinetic parameters with “global” kinetic parameters already determined in five naïve populations of gammarids.

Published

2015

7. A biodynamic model predicting waterborne lead bioaccumulation in Gammarus pulex: Influence of water chemistry and in situ validation

Author

Urien, N., Uher, E., Billoir, E., Geffard, O., Fechner, L.C., Lebrun, J.D., Hydrosystèmes et bioprocédés (UR HBAN), Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), Laboratoire Interdisciplinaire des Environnements Continentaux (LIEC), Université de Lorraine (UL)-Centre National de la Recherche Scientifique (CNRS), Milieux aquatiques, écologie et pollutions (UR MALY), AgroParisTech, Hydrosystèmes et Bioprocédés (UR HBAN), Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire Terre et Environnement de Lorraine (OTELo), Institut national des sciences de l'Univers (INSU - CNRS)-Université de Lorraine (UL)-Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Lorraine (UL)-Centre National de la Recherche Scientifique (CNRS)-Institut Ecologie et Environnement (INEE), Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS), Fédération Île-de-France de Recherche sur l'Environnement (FIRE), and Muséum national d'Histoire naturelle (MNHN)-Institut de Recherche pour le Développement (IRD)-Institut National de la Recherche Agronomique (INRA)-Université Pierre et Marie Curie - Paris 6 (UPMC)-AgroParisTech-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Centre National de la Recherche Scientifique (CNRS)

Subjects

LEAD, PLOMB, [SDE]Environmental Sciences

Abstract

International audience; Metals bioaccumulated in aquatic organisms are considered to be a good indicator of bioavailable metal contamination levels in freshwaters. However, bioaccumulation depends on the metal, the species, and the water chemistry that influences metal bioavailability. In the laboratory, a kinetic model was used to describe waterborne Pb bioaccumulated in Gammarus pulex. Uptake and elimination rate constants were successfully determined and the effect of Ca2+ on Pb uptake was integrated into the model. Thereafter, accumulated Pb concentrations in organisms were predicted with the model and compared with those measured in native populations from the Seine watershed (France). The predictions had a good agreement with the bioaccumulation levels observed in native gammarids and particularly when the effect of calcium was considered. To conclude, kinetic parameters experimentally derived for Pb in G. pulex are applicable in environmental conditions. Moreover, the consideration of the water's chemistry is crucial for a reliable interpretation of bioaccumulation.

Published

2015

8. Modélisation de la bioaccumulation du Pb et du Cd chez Gammarus pulex : Application en conditions environnementales et considération de la chimie de l'eau

Author

Urien, N., Uher, E., Fechner, L., Olivier, Geffard, Lebrun, J.D., Hydrosystèmes et Bioprocédés (UR HBAN), Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), FIRE FEDERATION ILE DE FRANCE DE RECHERCHE SUR L'ENVIRONNEMENT FRA, Partenaires IRSTEA, Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), Milieux aquatiques, écologie et pollutions (UR MALY), IRSTEA ANTONY UR HBAN FRA, IRSTEA LYON UR MALY FRA, Fédération Île-de-France de Recherche sur l'Environnement (FIRE), and Muséum national d'Histoire naturelle (MNHN)-Institut de Recherche pour le Développement (IRD)-AgroParisTech-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)

Subjects

LEAD, CADMIUM, PLOMB, [SDE]Environmental Sciences, MODELLING, BIOACCUMULATION, GAMMARUS PULEX, MODELISATION

Abstract

[Departement_IRSTEA]Eaux [TR1_IRSTEA]BELCA; International audience; Since Pb and Cd are both non-biodegradable and non–essential, they represent a serious threat for aquatic ecosystems. Metal determination in aquatic organisms such as gammarids offers encouraging perspective to monitor water quality. However, metal uptake in organisms may be influenced by water cationic composition because of competition processes on biological binding sites. The development of bioaccumulation models constitutes promising tools to quantify metal bioavailability and predict metal impact on aquatic ecosystems. In order to arise such models, it is necessary to formalize the abilities of organisms to regulate metals and water chemistry effects in controlled conditions. However, what is the environmental relevance of experimentally derived models to predict bioaccumulation in field conditions?

Published

2014

9. Sub-lethal toxicity of five disinfection by-products on microalgae determined by flow cytometry - Lines of evidence for adverse outcome pathways.

Author

Ciccia T, Pandard P, Ciffroy P, Urien N, Lafay L, and Bado-Nilles A

Subjects

Disinfection methods, Flow Cytometry, Reactive Oxygen Species, Trichloroacetic Acid analysis, Trichloroacetic Acid toxicity, Dichloroacetic Acid analysis, Microalgae, Adverse Outcome Pathways

Abstract

Standardised tests are often used to determine the ecotoxicity of chemicals and focus mainly on one or a few generic endpoints (e.g. mortality, growth), but information on the sub-cellular processes leading to these effects remain usually partial or missing. Flow cytometry (FCM) can be a practical tool to study the physiological responses of individual cells (such as microalgae) exposed to a stress via the use of fluorochromes and their morphology and natural autofluorescence. This work aimed to assess the effects of five chlorine-based disinfection by-products (DBPs) taken individually on growth and sub-cellular endpoints of the green microalgae Raphidocelis subcapitata. These five DBPs, characteristic of a chlorinated effluent, are the following monochloroacetic acid (MCAA), dichloroacetic acid (DCAA), trichloroacetic acid (TCAA), bromochloroacetic acid (BCAA) and 1,1-dichloropropan-2-one (1,1-DCP). Results showed that 1,1-DCP had the strongest effect on growth inhibition (EC 50 = 1.8 mg.L -1 ), followed by MCAA, TCAA, BCAA and DCAA (EC 50 of 10.1, 15.7, 27.3 and 64.5 mg.L -1 respectively). Neutral lipid content, reactive oxygen species (ROS) formation, red autofluorescence, green autofluorescence, size and intracellular complexity were significantly affected by the exposure to the five DBPs. Only mitochondrial membrane potential did not show any variation. Important cellular damages (>10%) were observed for only two of the chemicals (BCAA and 1,1-DCP) and were probably due to ROS formation. The most sensitive and informative sub-lethal parameter studied was metabolic activity (esterase activity), for which three types of response were observed. Combining all this information, an adverse outcome pathways framework was proposed to explain the effect of the targeted chemicals on R. subcapitata. Based on these results, both FCM sub-cellular analysis and conventional endpoint of algal toxicity were found to be complementary approaches., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

10. A seasonal comparison of trace metal concentrations in the tissues of Arctic charr (Salvelinus alpinus) in Northern Québec, Canada.

Author

Martyniuk MAC, Couture P, Tran L, Beaupré L, Urien N, and Power M

Subjects

Animals, Quebec, Seasons, Metals metabolism, Trout metabolism, Water Pollutants, Chemical metabolism

Abstract

Ecotoxicological research detailing trace metal contamination and seasonal variation in the tissues of northern fishes such as Arctic charr (Salvelinus alpinus) has been poorly represented in the literature beyond examination of mercury. In an effort to address this, anadromous Arctic charr were collected from the Deception River watershed in the late summer and post-winter season, before quantifying seasonal and organotropic variations in dorsal muscle and liver concentrations of arsenic, cadmium, chromium, copper, nickel, lead, and zinc. Potential linkages with biological variables (fork length, age, and somatic condition) and indicators of feeding behavior (δ 13 C and δ 15 N) were also assessed. Trace metal organotropism favouring elevation in liver tissue concentrations was exhibited by cadmium, copper, nickel and zinc, while arsenic, chromium and lead exhibited no significant organotropic variation. Seasonal differences in concentrations were metal and tissue dependent, but generally increased in tissues collected from post-winter sampled Arctic charr. Significant correlations with biological and trophic descriptors were also determined to be element and tissue dependent. These parameters, in addition to season, were incorporated into multi-predictor variable models, where variations in trace metal concentration data were often best explained when season, somatic condition, and trophic descriptors were included. These variables were also of greatest relative importance across all considered trace metals and tissue types. These findings suggest that seasonally linked processes have the greatest influence on trace metal concentrations in anadromous Arctic charr. Future metal-related research on Arctic charr and other northern fish species should further consider these variables when evaluating elemental accumulation.

Published

2020

11. Subcellular partitioning of metals and metalloids (As, Cd, Cu, Se and Zn) in liver and gonads of wild white suckers (Catostomus commersonii) collected downstream from a mining operation.

Author

Urien N, Cooper S, Caron A, Sonnenberg H, Rozon-Ramilo L, Campbell PGC, and Couture P

Subjects

Animals, Arsenic chemistry, Arsenic metabolism, Arsenic toxicity, Cadmium chemistry, Cadmium metabolism, Cadmium toxicity, Copper chemistry, Copper metabolism, Copper toxicity, Cypriniformes, Female, Gonads drug effects, Gonads metabolism, Inactivation, Metabolic, Liver drug effects, Liver metabolism, Male, Metals chemistry, Metals toxicity, Mining, Selenium chemistry, Selenium metabolism, Selenium toxicity, Water Pollutants, Chemical chemistry, Water Pollutants, Chemical toxicity, Zinc chemistry, Zinc metabolism, Zinc toxicity, Metals metabolism, Water Pollutants, Chemical metabolism

Abstract

In the present study, we examined the subcellular distribution of metals and metalloids (As, Cd, Cu, Se and Zn) in the liver and gonads of wild white suckers (Catostomus commersonii) collected downstream from a metal mining operation (exposure area) and in a reference area. Metal partitioning among potentially metal-sensitive fractions (heat-denatured proteins (HDP), mitochondria and microsomes) and potentially biologically detoxified fractions (heat-stable proteins (HSP) and metal-rich granules) within cells was determined after differential centrifugation, NaOH digestion and heat-denaturation steps. Metal-handling strategies between liver and gonads, and between sexes, were examined. Hepatic metal concentrations were significantly higher in exposed compared to reference fish, especially for Se (14x), Cd (5x) and Cu (3x), and did not vary between sexes. In contrast, gonadal Cd, Cu, Se and Zn concentrations were consistently lower in testes than in ovaries; marked differences in Cd and Se concentrations between exposed and reference fish were observed for both sexes. Overall, metal-handling strategies were similar in both liver (male and female pooled) and female gonads, but differed from those in male gonads, likely due to the different functions assigned to ovaries and testes. Subcellular partitioning of As, Cd and Cu showed that the HSP fraction was most responsive to increased metal exposure, presumably reflecting Cu regulation, and possibly Cd and As detoxification. Zinc concentrations were tightly controlled and mainly found in the HDP fraction. Interestingly, changes in Cd-handling strategy in female gonads were particularly evident, with Cd shifting dramatically from the metal-sensitive HDP fraction in reference fish to the metal-detoxified HSP fraction in exposed fish. It seems that Cd detoxification in female gonads was not fully induced in the less contaminated fish, but became more effective above a threshold Cd concentration of 0.05 nmol/g dry weight. Partitioning of Se was different, with the largest contributor to the total liver and gonad Se burdens being the putative metal-sensitive HDP fraction, suggesting that excess Se in this fraction in exposed fish may lead to Se-related stress. The present subcellular partitioning results demonstrate that metal handling strategies vary among metals, between organs and (in some cases) as a function of metal exposure. They also show promise in identifying metals of potential concern in a risk assessment context., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

12. Application of a multidisciplinary and integrative weight-of-evidence approach to a 1-year monitoring survey of the Seine River.

Author

Barjhoux I, Fechner LC, Lebrun JD, Anzil A, Ayrault S, Budzinski H, Cachot J, Charron L, Chaumot A, Clérandeau C, Dedourge-Geffard O, Faburé J, François A, Geffard O, George I, Labadie P, Lévi Y, Munoz G, Noury P, Oziol L, Quéau H, Servais P, Uher E, Urien N, and Geffard A

Subjects

Acetylcholinesterase metabolism, Amphipoda drug effects, Amphipoda physiology, Animals, Ecosystem, Female, France, Geologic Sediments analysis, Male, Paris, Reproduction drug effects, Rivers chemistry, Seasons, Surveys and Questionnaires, Water Pollutants, Chemical toxicity, Water Quality, Ecotoxicology methods, Environmental Monitoring methods, Water Pollutants, Chemical analysis

Abstract

Quality assessment of environments under high anthropogenic pressures such as the Seine Basin, subjected to complex and chronic inputs, can only be based on combined chemical and biological analyses. The present study integrates and summarizes a multidisciplinary dataset acquired throughout a 1-year monitoring survey conducted at three workshop sites along the Seine River (PIREN-Seine program), upstream and downstream of the Paris conurbation, during four seasonal campaigns using a weight-of-evidence approach. Sediment and water column chemical analyses, bioaccumulation levels and biomarker responses in caged gammarids, and laboratory (eco)toxicity bioassays were integrated into four lines of evidence (LOEs). Results from each LOE clearly reflected an anthropogenic gradient, with contamination levels and biological effects increasing from upstream to downstream of Paris, in good agreement with the variations in the structure and composition of bacterial communities from the water column. Based on annual average data, the global hazard was summarized as "moderate" at the upstream station and as "major" at the two downstream ones. Seasonal variability was also highlighted; the winter campaign was least impacted. The model was notably improved using previously established reference and threshold values from national-scale studies. It undoubtedly represents a powerful practical tool to facilitate the decision-making processes of environment managers within the framework of an environmental risk assessment strategy.

Published

2018

13. Contribution of aqueous and dietary uptakes to lead (Pb) bioaccumulation in Gammarus pulex: From multipathway modeling to in situ validation.

Author

Hadji R, Urien N, Uher E, Fechner LC, and Lebrun JD

Subjects

Animals, Fresh Water, Models, Theoretical, Reproducibility of Results, Amphipoda metabolism, Lead pharmacokinetics, Water Pollutants, Chemical pharmacokinetics

Abstract

Although dynamic approaches are nowadays used increasingly to describe metal bioaccumulation in aquatic organisms, the validation of such laboratory-derived modeling is rarely assessed under environmental conditions. Furthermore, information on bioaccumulation kinetics of Pb and the significance of its uptake by dietary route is scarce in freshwater species. This study aims at modeling aqueous and dietary uptakes of Pb in the litter-degrader Gammarus pulex and assessing the predictive quality of multipathway modeling from in situ bioaccumulation data. In microcosms, G. pulex were exposed to environmentally realistic concentrations of Pb (from 0.1 to 10µg/L) in the presence of Pb-contaminated poplar leaves, which were enclosed or not in a net to distinguish aqueous and dietary uptakes. Results show that water and food both constitute contamination sources for gammarids. Establishing biodynamic parameters involved in Pb aqueous and dietary uptake and elimination rates enabled to construct a multipathway model to describe Pb bioaccumulation in gammarids. This laboratory-derived model successfully predicted bioaccumulation measured in native populations of G. pulex collected in situ when local litter was used as dietary exposure source. This study demonstrates not only the suitable applicability of biodynamic parameters for predicting Pb bioaccumulation but also the necessity of taking dietary uptake into account for a better interpretation of the gammarids' contamination in natural conditions., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

14. A biodynamic model predicting waterborne lead bioaccumulation in Gammarus pulex: Influence of water chemistry and in situ validation.

Author

Urien N, Uher E, Billoir E, Geffard O, Fechner LC, and Lebrun JD

Subjects

Animals, Calcium chemistry, France, Fresh Water chemistry, Lead analysis, Reproducibility of Results, Water Pollutants, Chemical analysis, Amphipoda metabolism, Lead metabolism, Models, Theoretical, Water Pollutants, Chemical metabolism

Abstract

Metals bioaccumulated in aquatic organisms are considered to be a good indicator of bioavailable metal contamination levels in freshwaters. However, bioaccumulation depends on the metal, the species, and the water chemistry that influences metal bioavailability. In the laboratory, a kinetic model was used to describe waterborne Pb bioaccumulated in Gammarus pulex. Uptake and elimination rate constants were successfully determined and the effect of Ca(2+) on Pb uptake was integrated into the model. Thereafter, accumulated Pb concentrations in organisms were predicted with the model and compared with those measured in native populations from the Seine watershed (France). The predictions had a good agreement with the bioaccumulation levels observed in native gammarids and particularly when the effect of calcium was considered. To conclude, kinetic parameters experimentally derived for Pb in G. pulex are applicable in environmental conditions. Moreover, the consideration of the water's chemistry is crucial for a reliable interpretation of bioaccumulation., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

15. Seasonal variability and inter-species comparison of metal bioaccumulation in caged gammarids under urban diffuse contamination gradient: implications for biomonitoring investigations.

Author

Lebrun JD, Geffard O, Urien N, François A, Uher E, and Fechner LC

Subjects

Animals, Paris, Rivers, Seasons, Amphipoda metabolism, Environmental Monitoring methods, Metals metabolism, Water Pollutants, Chemical metabolism

Abstract

Although caging of Gammarus species offers promising lines of inquiry to monitor metal bioavailability in freshwaters, the interspecies responsiveness to metal exposures is still unclear. In addition, abiotic factors inherent to transplantation can hamper the interpretation of field bioaccumulation data. To assess the relevance of using gammarids as biomonitors, we investigated the seasonal influence on metal bioaccumulation in two common species, Gammarus pulex and Gammarus fossarum. During four seasons, caged gammarids were deployed on three sites along the Seine River exhibiting a diffuse gradient of multi-metal contamination: a site upstream and two sites downstream from the Paris megacity. For each seasonal deployment, metal concentrations in animals were determined after 7d-exposure in situ (Ag, Cd, Co, Cu, Mn, Ni, Pb and Zn). Results show that the seasonal patterns of metal contaminations are similar between both Gammarus species, and closely related to the river axis' contamination gradient. Statistical analyses indicate that bioaccumulation of essential metals in both species is influenced by season, especially by water temperature. This highlights the necessity to consider this climatic factor inherent to the deployment period for a reliable interpretation of bioaccumulation data in the field. The comparison of accumulation factors suggests that these two species coming from different geochemical origins display similar abilities to internalize metals. This generic responsiveness of caged gammarids supports their use as sentinel organisms to quantify low spatiotemporal variations in metal bioavailabilities., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015