Low exposure levels of urban metals induce heterotrophic community tolerance: a microcosm validation

Fechner, Lise C.; Gourlay-Francé, Catherine; Tusseau‐Vuillemin, Marie‐Hélène

doi:10.1007/s10646-011-0630-4

Cited by 14 publications

(33 citation statements)

References 33 publications

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“…A 319 maximum % inhibition inferior to 100% means that -glucosidase activity cannot be fully 320 inhibited by short-term exposure to metals even at high exposure concentrations (the highest 321 metal concentrations tested are 10 mM namely 2.07 g/L for Pb). This phenomenon was already 322 observed in previous studies on laboratory or in situ exposed biofilms with the same toxicity test 323 (Fechner et al, 2011;Fechner et al, 2012a). In the present study, -glucosidase toxicity tests 324 revealed the impact of Pb exposure on the Pb 100 biofilm with a 1.7 increase of normalized EC 50 325 value and a significant decrease of maximum % inhibition (72.30 %) when compared to Pb 0 326 (Figure 2 and Table 5).…”

Section: Pb Exposure Concentrations (Left Graphs) 287supporting

confidence: 83%

“…DW and AFDW also decreased for the Pb 100 biofilm but 314 increased slightly for Pb 1 and Pb 10 communities. A similar effect was observed on DW for 315 biofilms exposed to low metal concentrations (Morin et al, 2008;Fechner et al, 2011). 316…”

Section: Pb Exposure Concentrations (Left Graphs) 287supporting

confidence: 56%

“…Yet Pb 296 accumulation was much smaller than previously observed for metals like Cd, Ni and Zn (Fechner 297 et al, 2011). For instance, the bioconcentration factor (total biofilm-accumulated metal in µg/g 298 DW divided by the nominal metal concentration in the corresponding microcosm in µg/L) varied 299 16 from 0.50 (Pb 1) to 0.06 (Pb 10 and Pb100) whereas in our previous study the bioconcentration 300 factor reached 11 and 40 for respectively Cd and Zn-exposed biofilms (Fechner et al, 2011). 301…”

Section: Pb Exposure Concentrations (Left Graphs) 287mentioning

confidence: 63%

“…Aquarel mineral water was chosen for the medium so that physico-chemical parameters were 184 roughly similar to those from the river at site 3 (Fechner et al, 2011). show that, for Pb also, the higher the TSS concentration of the biofilm suspension, the higher the 266 EC 50 value obtained (Figure 1 and Table 1).…”

Section: Biofilm Exposure To Pb In Microcosms 177mentioning

confidence: 99%

“…Site 3 was chosen because it is relatively unaffected by the 179 urban area of Paris in terms of metallic contamination (Fechner et al, 2011). 180…”

Section: Biofilm Exposure To Pb In Microcosms 177mentioning

confidence: 99%

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Pollution-induced community tolerance of freshwater biofilms: measuring heterotrophic tolerance to Pb using an enzymatic toxicity test

Fechner¹,

Dufour²,

Gourlay-Francé³

2012

Ecotoxicology

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Section: Pb Exposure Concentrations (Left Graphs) 287supporting

confidence: 83%

Section: Pb Exposure Concentrations (Left Graphs) 287supporting

confidence: 56%

Section: Pb Exposure Concentrations (Left Graphs) 287mentioning

confidence: 63%

Section: Biofilm Exposure To Pb In Microcosms 177mentioning

confidence: 99%

“…Site 3 was chosen because it is relatively unaffected by the 179 urban area of Paris in terms of metallic contamination (Fechner et al, 2011). 180…”

Section: Biofilm Exposure To Pb In Microcosms 177mentioning

confidence: 99%

See 3 more Smart Citations

Pollution-induced community tolerance of freshwater biofilms: measuring heterotrophic tolerance to Pb using an enzymatic toxicity test

Fechner¹,

Dufour²,

Gourlay-Francé³

2012

Ecotoxicology

Self Cite

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Natural Occurrence of Enantiomers of Organic Compounds Versus Phytoremediations: Should Research on Phytoremediations Be Revisited? A Mini‐review

et al. 2013

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Decontamination of polluted soils using plants is based on the ability of plant species (including transgenic plants) to enhance bioavailability of pollutants in the rhizosphere and support growth of pollutant-degrading microorganisms via root exudation and plant species-specific composition of the exudates. In this work, we review current knowledge of enantiomers of low-molecular-weight (LMW) organic compounds with emphasis on their use in phytoremediation. Many research studies have been performed to search for plants suitable for decontamination of polluted soils. Nevertheless, the natural occurrence of L- versus D-enantiomers of dominant compounds of plant root exudates which play different roles in the complexation of heavy metals, chemoattraction, and support of pollutant-degrading microorganisms were not included in these studies. D-enantiomers of aliphatic organic acids and amino acids or L-enantiomers of carbohydrates occur in high concentrations in root exudates of some plant species, especially under stress, and are less stimulatory for plants to extract heavy metals or for rhizosphere microflora to degrade pollutants compared with L-enantiomers (organic acids and amino acids) or D-carbohydrates. Determining the ratio of L- versus D-enantiomers of organic compounds as a criterion of plant suitability for decontamination of polluted soils and development of other types of bioremediation technologies need to be subjects of future research.

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Temperature and Photoperiod Affect the Sensitivity of Biofilms to Nickel and its Accumulation

Laderrière

Richard

Morin

et al. 2022

Enviro Toxic and Chemistry

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Whereas metal impacts on fluvial communities have been extensively investigated, effects of abiotic parameters on community responses to contaminants are poorly documented. Variations in photoperiod and temperature commonly occur over the course of a season and could affect aquatic biofilm communities and their responses to contaminants. Our objective was to characterize the influence of environmental conditions (photoperiod and temperature) on nickel (Ni) bioaccumulation and toxicity using a laboratory‐grown biofilm. Environmental parameters were chosen to represent variations that can occur over the summer season. Biofilms were exposed for 7 days to six dissolved Ni treatments (ranging from 6 to 115 µM) at two temperatures (14 and 20 °C) using two photoperiods (16:8 and 12:12‐h light:dark cycle). Under these different scenarios, structural (dry weight biomass and chlorophyll‐a) and functional biomarkers (photosynthetic yield and Ni content) were analyzed at four sampling dates, allowing us to evaluate Ni sensitivity of biofilms over time. The results highlight the effects of temperature on Ni accumulation and tolerance of biofilms. Indeed, biofilms exposed at 20 °C accumulated 1.6–4.2‐fold higher concentrations of Ni and were characterized by a lower median effect concentration value using photosynthetic yield compared with those exposed at 14 °C. In terms of photoperiod, significantly greater rates of Ni accumulation were observed at the highest tested Ni concentration for biofilms exposed to a 12:12‐h compared with a 16:8‐h light:dark cycle. Our study demonstrates the influence of temperature on biofilm metabolism and illustrates that environmental factors may influence Ni accumulation response and thus Ni responses of phototrophic biofilms. Environ Toxicol Chem 2022;41:1649–1662. © 2022 SETAC

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Low exposure levels of urban metals induce heterotrophic community tolerance: a microcosm validation

Cited by 14 publications

References 33 publications

Pollution-induced community tolerance of freshwater biofilms: measuring heterotrophic tolerance to Pb using an enzymatic toxicity test

Pollution-induced community tolerance of freshwater biofilms: measuring heterotrophic tolerance to Pb using an enzymatic toxicity test

Natural Occurrence of Enantiomers of Organic Compounds Versus Phytoremediations: Should Research on Phytoremediations Be Revisited? A Mini‐review

Temperature and Photoperiod Affect the Sensitivity of Biofilms to Nickel and its Accumulation

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