Artigo

Net ion fluxes in the facultative air-breather Hoplosternum littorale (tamoata) and the obligate air-breather Arapaima gigas (pirarucu) exposed to different Amazonian waters

Fishes that live in the Amazon environment may be exposed to several kinds of water: black water (BW), acidic black water (pH 3.5) (ABW) and white water (WW), among others. The aim of the present study was to analyze net ion fluxes in the facultative air-breather Hoplosternum littorale (tamoata) and...

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Autor principal: Baldisserotto, Bernardo
Outros Autores: Copatti, Carlos Eduardo, Gomes, Levy de Carvalho, Chagas, Edsandra Campos, Brinn, Richard Philip, Roubach, Rodrigo
Grau: Artigo
Idioma: English
Publicado em: Fish Physiology and Biochemistry 2020
Assuntos:
Chloride
Ion
Potassium
Sodium
Animals
Catfish
Chemistry
Fish
Metabolism
Ph
Physiology
River
Animal
Catfishes
Chlorides
Fishes
Hydrogen-ion Concentration
Ions
Potassium
Rivers
Sodium
Arapaima Gigas
Hoplosternum Littorale
Pisces
Acesso em linha: https://repositorio.inpa.gov.br/handle/1/18589
Resumo:
Fishes that live in the Amazon environment may be exposed to several kinds of water: black water (BW), acidic black water (pH 3.5) (ABW) and white water (WW), among others. The aim of the present study was to analyze net ion fluxes in the facultative air-breather Hoplosternum littorale (tamoata) and the obligate air-breather Arapaima gigas (pirarucu) exposed to different types of water. Fishes were acclimated in well water and later placed in individual chambers containing one type of water for ion flux measurements. After 4 h, the water in the chambers was replaced by a different type of water. The transfer of both species to ABW (independent of previous water exposure) increased net ion loss. Tamoatas transferred from ABW to BW or WW presented a net ion influx, but pirarucus showed only small changes on net ion efflux. These results allow us to conclude that tamoatas and pirarucus present differences in terms of ion regulation but that the general aspects of the ion flux are similar: (1) exposure to ABW led to net ion loss; (2) transfer from BW to WW or vice-versa induced only minor changes on net ion fluxes. These observations demonstrate that any osmoregulatory difficulties encountered by either species during changes between these latter two waters can be easily overcome. © Springer Science+Business Media B.V. 2008.

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