AI Article Synopsis
- The study investigated the effects of anthracene (ANT) and permethrin (PER) on Venerupis decussata, a valuable marine species, focusing on changes in shell structure and oxidative stress response.
- Experiments showed that exposure to PER led to a transformation of the shell composition from aragonite to calcite, while ANT alone did not cause this change.
- Both contaminants triggered oxidative stress in V. decussata, with PER affecting the digestive gland and ANT impacting the gills, and their combination resulted in heightened biochemical responses.
Article Abstract
Anthracene (ANT) and permethrin (PER) are two of the more toxic compounds reaching the marine environment. This study aimed to determine the impact of these molecules on Venerupis decussata, an economically important species cultured on the Tunisian coast. Shell structure and its possible transformation upon exposure to the two contaminants were studied by X-ray diffraction and gravimetric analyses. Results revealed a phase transition in shell composition from aragonite to calcite after PER exposure, to a mixture of PER and ANT (Mix) but not for ANT alone. Catalase (CAT), superoxide dismutase (SOD) and glutathione transferase (GST) activities were determined in digestive gland and gills after exposure to ANT, PER and Mix to assess the impact of the contamination on the oxidative status of V. decussata. Enzyme activities increased in the digestive gland after PER treatment and in the gills after ANT treatment. PER exposure significantly reduced the levels of free thiols and increased levels of carbonylated proteins in the digestive gland, as compared to controls. In contrast, ANT exposure significantly reduced free thiols and increased the number of carbonylated proteins in the gills. Mix induced additive effects as measured by both enzymatic and proteomic approaches. The present study suggests that PER has a strong effect on shell structure; that PER and ANT exposure generate compound-dependent oxidative stress in the tissues of V. decussata and that a mixture of the two compounds has synergistic effects on biochemical response.
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| http://dx.doi.org/10.1016/j.aquatox.2014.10.020 | DOI Listing |
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