Use este identificador para citar ou linkar para este item: https://repositorio.inpa.gov.br/handle/1/16917
Título: High waterborne Mg does not attenuate the toxic effects of Fe, Mn, and Ba on Na+ regulation of Amazonian armored catfish tamoatá (Hoplosternum litoralle)
Autor: Duarte, Rafael Mendonça
Benaduce, Ana Paula da Silva
Garcia, Luciano
Gomes, Levy de Carvalho
Gomes, Adriana Chippari
Val, Adalberto Luis
Baldisserotto, Bernardo
Palavras-chave: Barium
Bioaccumulation
Byproduct
Cation
Concentration (composition)
Fish
Formation Water
Fresh Water
Histology
Inhibition
Iron
Magnesium
Manganese
Pollution Effect
Pollution Exposure
Toxicity
Amazonia
Animalsia
Hoplosternum
Hoplosternum Littorale
Barium
Calcium
Ion
Magnesium
Sodium
Analysis
Animals
Catfish
Chemistry
Gill
Metabolism
Water Pollutant
Animal
Barium
Calcium
Catfishes
Gills
Ions
Magnesium
Sodium
Water Pollutants, Chemical
Data do documento: 2018
Revista: Environmental Science and Pollution Research
É parte de: Volume 25, Número 18, Pags. 18027-18037
Abstract: Formation water (FoW) is a by-product from oil and gas production and usually has high concentrations of soluble salts and metals. Calcium (Ca) and magnesium (Mg) have been shown to reduce the toxicity of metals to aquatic animals, and previous study showed that high waterborne Ca exerts mild effect against disturbances on Na+ regulation in Amazonian armored catfish tamoatá (Hoplosternum littorale) acutely exposed to high Fe, Mn, and Ba levels. Here, we hypothesized that high Mg levels might also reduce the toxic effects of these metals on Na+ regulation of tamoatá. The exposure to 5% FoW promoted an increase in Na+ uptake and a rapid accumulation of Na+ in all tissues analyzed (kidney<plasma<gills<carcass<liver), besides increasing the branchial activity of both NKA and v-type H+-ATPase in fish. High waterborne Mg lowered Na+ efflux rates and markedly inhibited Na+ uptake, and also reduced both NKA activity and newly Na+ accumulation in gills of fish. High Fe levels increased Na+ net losses and inhibited Na+ uptake in tamoatá. The diffusive Na+ losses and the newly accumulated Na+ in gills were reduced in fish exposed to high Mn and Ba. High waterborne Ba also inhibited NKA in gills, while both high Mn and Ba inhibited v-type H+-ATPase in kidney of tamoatá. High Mg did not lessen the toxic effect of Fe on Na+ net fluxes, and reduced even more Na+ uptake and the newly Na+ accumulation in gills and plasma, and did not prevent the inhibition of both NKA and v-type H+-ATPases in kidney. Furthermore, Mg did not attenuate the effect of Mn on inhibition Na+ uptake, keeping the activity of v-type H+-ATPase in kidney significantly lowered. High Mg levels mildly attenuated the effects of Ba in Na+ balance by increasing the new accumulation of Na+ in liver, and restore the activity of both NKA and v-type H+-ATPase in gills of tamoatá. Overall, high waterborne Mg does not have a strong contribution to, or have only minor effects, in protecting tamoatá against disruptions in Na+ regulation mediated by high Fe, Mn, and Ba levels. © 2018, Springer-Verlag GmbH Germany, part of Springer Nature.
DOI: 10.1007/s11356-018-2064-5
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