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dc.contributor.authorBagarinao, Teodora
dc.date.accessioned2012-06-11T03:01:12Z
dc.date.available2012-06-11T03:01:12Z
dc.date.issued1992
dc.identifier.citationBagarinao, T. (1992). Sulfide as an environmental factor and toxicant: tolerance and adaptations in aquatic organisms. Aquatic Toxicology 24(1-2), 21-62.en
dc.identifier.issn0166-445X
dc.identifier.urihttp://hdl.handle.net/10862/978
dc.description.abstractThis review brings together a large number of independent and seemingly unrelated studies in various disciplines under four major topics: (1) sulfide as an environmental factor in aquatic habitats; (2) sulfide as a toxicant; (3) sulfide tolerance of aquatic organisms; and (4) adaptations limiting sulfide toxicity. Sulfide is widely distributed in the aquatic environment, but has been largely overlooked as an environmental factor for aquatic organisms. Sulfide at nanomoiar to millimolar concentrations adversely affects cytochrome c oxidase, various other enzymes, oxygen transport proteins, cellular structures, and consequently the physiological functions of organisms. These toxic effects are well documented in the biomedical literature, and also occur in the aquatic organisms that have been studied. Sulfide tolerance varies widely among protozoans, sediment meiofauna, polychaetes, bivalves, crustaceans, marine and freshwater fishes, and aquatic plants, often in correlation with the relative sulfide levels in the respective habitats. Aquatic organisms have evolved various adaptations against sulfide toxicity, possibly several acting in concert. Most animals are able to avoid and escape from sulfide, but cannot exclude sulfide from the body. No sulfide-resistant cytochrome c oxidase has been demonstrated, and most animals are capable of some degree of anaerobic meabolism. Various invertebrates have entered into symbiotic associations with sulfide-oxidizing bacteria. Some of these invertebrates immobilize and transport sulfide by means of sulfide-binding proteins or persulfides in the blood. Detoxication of sulfide occurs by methylation, non-specific oxidation, and enzymatic oxidation by mitochondria. Oxidative detoxication of sulfide to thiosulfate by mitochondria is common to several major taxa (protozoan, mollusk, teleosts, mammal), and is effective at low micromolar sulfide concentrations. Among organisms lacking sulfide-oxidizing bacterial symbionts, the mitochondria may thus provide the chief defense against environmental sulfide, and may allow the whole organism to tolerate sulfide concentrations 2–3 orders of magnitude greater than would inhibit cytochrome c oxidase.en
dc.language.isoenen
dc.publisherElsevieren
dc.titleSulfide as an environmental factor and toxicant: tolerance and adaptations in aquatic organismsen
dc.typeArticleen
dc.date.updated2012-06-11T02:56:14Z
dc.identifier.doi10.1016/0166-445X(92)90015-F
dc.citation.volume24
dc.citation.issue1-2
dc.citation.spage21
dc.citation.epage62
dc.citation.journalTitleAquatic Toxicologyen
dc.subject.asfaEnvironmental factorsen
dc.subject.asfaAquatic organismsen
dc.subject.asfaToxicityen
dc.subject.asfaToleranceen
dc.subject.asfaAdaptationsen
dc.subject.asfaToxicantsen
dc.subject.asfaPollution toleranceen
dc.subject.asfaSulphidesen
dc.subject.asfaLiterature reviewsen


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