Characterization of the effects of triclosan on sperm and embryos of Mytilus and Perna mussel species.

Autor: Rolton A; Cawthron Institute, Nelson, New Zealand., Champeau O; Cawthron Institute, Nelson, New Zealand., Barrick A; Cawthron Institute, Nelson, New Zealand., Boundy M; Cawthron Institute, Nelson, New Zealand., Tremblay LA; Cawthron Institute, Nelson, New Zealand; School of Biological Sciences, University of Auckland, Auckland, New Zealand., Vignier J; Cawthron Institute, Nelson, New Zealand. Electronic address: julien.vignier@cawthron.org.nz.
Jazyk: angličtina
Zdroj: Aquatic toxicology (Amsterdam, Netherlands) [Aquat Toxicol] 2022 Apr; Vol. 245, pp. 106107. Date of Electronic Publication: 2022 Feb 04.
DOI: 10.1016/j.aquatox.2022.106107
Abstrakt: The Greenshell™ mussel (GSM), Perna canaliculus, is a culturally and commercially important species in New Zealand. Declines in spat settlement of GSM have been observed in important growing areas and the cause(s) have not been identified. One hypothesis is that chemical contaminants could be a contributing factor. The aim to this study was to investigate the effects of acute exposure on early life stages using the anti-microbial triclosan (TCS) as a benchmark toxicant and the blue mussel (BM), Mytilus galloprovincialis, as a reference species. Sperm and embryos of BM and GSM were exposed to TCS for 1 h and 48 h, respectively. Following exposures, a range of parameters were investigated including spermatozoa cellular characteristics via flow cytometry, fertilization success, larval mortality and size. Exposure to TCS negatively impacted functional parameters of sperm, reduced the fertilization success and larval size, and increased larval mortality in both BM and GSM with LC50 48h of 94.3 and 213 µg L -1 , respectively. Triclosan increased sperm ROS production in both species, which could cause destabilisation of mitochondrial and other cellular membranes, resulting in reduced mitochondrial membrane potential (BM) and increased sperm size (GSM), leading to apoptosis in both species. Fertilization success of GSM was only affected at the highest TCS concentration tested (391 µg L -1 ), but development of larvae derived from exposed sperm was affected from the lowest concentrations tested (0.5 and 5.2 µg L -1 ) in both species. This highlights the importance of assessing the sensitivity of contaminants across developmental stages. Results of this study confirm that TCS causes oxidative stress and has membranotropic effects, and that early life stages of the endemic GSM are suitable to assess ecotoxicity of contaminants such as TCS.
(Copyright © 2022 Elsevier B.V. All rights reserved.)
Databáze: MEDLINE
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