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Physiology is pivotal for interactions between salinity and acute copper toxicity to fish and invertebrates
Grosell, M.; Blanchard, J.; Brix, K.V.; Gerdes, R. (2007). Physiology is pivotal for interactions between salinity and acute copper toxicity to fish and invertebrates. Aquat. Toxicol. 84(2): 162-172. https://dx.doi.org/10.1016/j.aquatox.2007.03.026
In: Aquatic Toxicology. Elsevier Science: Tokyo; New York; London; Amsterdam. ISSN 0166-445X; e-ISSN 1879-1514, meer
Ook verschenen in:Wood, C.M.; Gorsuch, J.W. (Ed.) (2007). Proceedings of a Symposium: SETAC 27th Annual Meeting. A Tribute to Rick Playle: The interface of toxicology, physiology, and modeling in improving water quality regulations for metals, Montreal, Quebec, Canada, November 5-9, 2006. Aquatic Toxicology, 84(Spec. Issue 2). Elsevier: Amsterdam. 119-298, I-X pp., meer
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Trefwoorden |
Chemical elements > Metals > Transition elements > Heavy metals > Copper Properties > Biological properties > Toxicity Fundulus heteroclitus (Linnaeus, 1766) [WoRMS] Marien/Kust |
Author keywords |
killifish; Fundulus heteroclitus; toxic mechanism; Cu; BLM |
Auteurs | | Top |
- Grosell, M.
- Blanchard, J.
- Brix, K.V.
- Gerdes, R.
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Abstract |
The present paper presents original data and a review of the copper (Cu) toxicity literature for estuarine and marine environments. For the first time, acute Cu toxicity across the full salinity range was determined. Killifish, Fundulus heteroclitus, eggs were hatched in freshwater (FW), 2.5, 5, 10, 15, 22 and 35 ppt (seawater, SW) and juveniles were allowed to acclimate for 7 days prior to acute toxicity testing. Sensitivity was highest in FW (96 h LC50: 18 μg/l), followed by SW (96 h LC50: 294 μg/l) with fish at intermediate salinities being the most tolerant (96 h LC50 > 963 μg/l at 10 ppt). This approximately 50-fold, non-linear variation in sensitivity could not be accounted for by Cu speciation or competition among cations but can be explained by physiology. The relative Na+ gradient from the blood plasma to the water is greatest in FW followed by SW and is smallest at 10 ppt. Regression of Cu toxicity versus the equilibrium potential for Na+, which reflects the relative Na+ gradient, revealed that 93% of the variation can be attributed to Na+ gradients and thus osmoregulatory physiology. Examination of the existing literature on acute Cu toxicity in SW (defined as >25 ppt) confirmed that early life stages generally are most sensitive but this pattern may be attributable to size rather than developmental stage. Regardless of developmental stage and phylogeny, size clearly matters for Cu sensitivity. The existing literature on the influence of salinity on acute Cu toxicity as well as studies of mechanisms of Cu toxicity in fish and invertebrates are reviewed. |
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