TY - JOUR
T1 - Biochemical and behavioural responses of the endobenthic bivalve Scrobicularia plana to silver nanoparticles in seawater and microalgal food
AU - Buffet, Pierre-Emmanuel
AU - Pan, Jin-Fen
AU - Poirier, Laurence
AU - Amiard-Triquet, Claude
AU - Amiard, Jean-Claude
AU - Gaudin, Pierre
AU - Risso-de Faverney, Christine
AU - Guibbolini, Marielle
AU - Gilliland, Douglas
AU - Valsami-Jones, Eugenia
AU - Mouneyrac, Catherine
N1 - Copyright © 2012 Elsevier Inc. All rights reserved.
PY - 2013/3
Y1 - 2013/3
N2 - Because of their bactericidal effects, Ag nanoparticles (Ag NPs) have promising industrial development but could lead to potential ecological risks. The aim of this study was to examine the uptake and effect of silver (soluble or as lactate Ag NPs of 40 nm) at low concentrations (10 μg L(-1)) in the endobenthic bivalve Scrobicularia plana exposed, for 14 days, directly (water) or via the diet (microalgae). The stability of Ag NPs in seawater was examined using dynamic light scattering. Release of soluble Ag from Ag NPs in the experimental media was quantified by using diffusive gradient in thin film. Bioaccumulation of Ag in bivalves was measured by electrothermal atomic absorption spectrometry. Behavioural and biochemical biomarkers were determined in bivalves. Aggregation of Ag NPs and the release of soluble Ag from Ag NPs were observed in the experimental media. For both forms of Ag, bioaccumulation was much more important for waterborne than for dietary exposure. The response of oxidative stress biomarkers (catalase, glutathion S-transferase, superoxide dismutase) was more important after dietary than waterborne exposure to Ag (soluble and NPs). These defences were relatively efficient since they led to a lack of response of damage biomarkers. Burrowing was not affected for bivalves exposed directly or through the diet to both Ag forms but feeding behaviour was impaired after 10 days of dietary exposure. Since no differences of responses to Ag either soluble or nanoparticulate were observed, it seems that labile Ag released from Ag NPs was mainly responsible for toxicity.
AB - Because of their bactericidal effects, Ag nanoparticles (Ag NPs) have promising industrial development but could lead to potential ecological risks. The aim of this study was to examine the uptake and effect of silver (soluble or as lactate Ag NPs of 40 nm) at low concentrations (10 μg L(-1)) in the endobenthic bivalve Scrobicularia plana exposed, for 14 days, directly (water) or via the diet (microalgae). The stability of Ag NPs in seawater was examined using dynamic light scattering. Release of soluble Ag from Ag NPs in the experimental media was quantified by using diffusive gradient in thin film. Bioaccumulation of Ag in bivalves was measured by electrothermal atomic absorption spectrometry. Behavioural and biochemical biomarkers were determined in bivalves. Aggregation of Ag NPs and the release of soluble Ag from Ag NPs were observed in the experimental media. For both forms of Ag, bioaccumulation was much more important for waterborne than for dietary exposure. The response of oxidative stress biomarkers (catalase, glutathion S-transferase, superoxide dismutase) was more important after dietary than waterborne exposure to Ag (soluble and NPs). These defences were relatively efficient since they led to a lack of response of damage biomarkers. Burrowing was not affected for bivalves exposed directly or through the diet to both Ag forms but feeding behaviour was impaired after 10 days of dietary exposure. Since no differences of responses to Ag either soluble or nanoparticulate were observed, it seems that labile Ag released from Ag NPs was mainly responsible for toxicity.
KW - Animals
KW - Behavior, Animal
KW - Biological Markers
KW - Bivalvia
KW - Catalase
KW - Food
KW - Glutathione Transferase
KW - Microalgae
KW - Nanoparticles
KW - Oxidative Stress
KW - Seawater
KW - Silver
KW - Spectrophotometry, Atomic
KW - Superoxide Dismutase
U2 - 10.1016/j.ecoenv.2012.11.019
DO - 10.1016/j.ecoenv.2012.11.019
M3 - Article
C2 - 23260182
SN - 0147-6513
VL - 89
SP - 117
EP - 124
JO - Ecotoxicology and Environmental Safety
JF - Ecotoxicology and Environmental Safety
ER -