Artigo

Mechanisms of ion transport in Potamotrygon, a stenohaline freshwater elasmobranch native to the ion-poor blackwaters of the Rio Negro

Stingrays of the family Potamotrygonidae are the only stenohaline freshwater elasmobranchs. Potomotrygon sp. collected from the ion-poor blackwaters ([Na+], [Cl-] and [Ca2+]=10-30μmoll-1, pH6.1) of the Rio Negro, Amazonas, Brazil, were ammoniotelic (91% ammonia-N, 9% urea-N excretion) and exhibited...

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Autor principal: Wood, Chris M.
Outros Autores: Matsuo, Aline Y.O., Gonzalez, Richard J., Wilson, Rod W., Patrick, Marjorie L., Val, Adalberto Luis
Grau: Artigo
Idioma: English
Publicado em: Journal of Experimental Biology 2020
Assuntos:
Ammonia
Chloride
Fresh Water
Glucose
Nitrogen
Sodium
Urea
Animals
Brasil
Elasmobranchii
Homeostasis
Kinetics
Metabolism
Physiology
Transport At The Cellular Level
Ammonia
Animal
Biological Transport
Brasil
Chlorides
Elasmobranchii
Fresh Water
Glucose
Homeostasis
Kinetics
Nitrogen
Sodium
Urea
Animalsia
Cichlidae
Dasyatidae
Elasmobranchii
Potamotrygon
Potamotrygonidae
Acesso em linha: https://repositorio.inpa.gov.br/handle/1/16411
id oai:repositorio:1-16411
recordtype dspace
spelling oai:repositorio:1-16411 Mechanisms of ion transport in Potamotrygon, a stenohaline freshwater elasmobranch native to the ion-poor blackwaters of the Rio Negro Wood, Chris M. Matsuo, Aline Y.O. Gonzalez, Richard J. Wilson, Rod W. Patrick, Marjorie L. Val, Adalberto Luis Ammonia Chloride Fresh Water Glucose Nitrogen Sodium Urea Animals Brasil Elasmobranchii Homeostasis Kinetics Metabolism Physiology Transport At The Cellular Level Ammonia Animal Biological Transport Brasil Chlorides Elasmobranchii Fresh Water Glucose Homeostasis Kinetics Nitrogen Sodium Urea Animalsia Cichlidae Dasyatidae Elasmobranchii Potamotrygon Potamotrygonidae Stingrays of the family Potamotrygonidae are the only stenohaline freshwater elasmobranchs. Potomotrygon sp. collected from the ion-poor blackwaters ([Na+], [Cl-] and [Ca2+]=10-30μmoll-1, pH6.1) of the Rio Negro, Amazonas, Brazil, were ammoniotelic (91% ammonia-N, 9% urea-N excretion) and exhibited blood chemistry (Na+, Cl-, urea, ammonia and glucose levels and osmolality) typical of freshwater teleosts. Unidirectional Na+ and Cl- influx rates, measured with radiotracers, displayed saturation kinetics. The relationships for Cl- and Na+ had similar Km values (300-500 μmoll-1), but Jmax values for Cl- (approximately 950 μmol kg-1 h-1) were almost twice those for Na+ (approximately 500 μmol kg-1 h-1). Cl- efflux rates varied with external concentration, but Na+ efflux rates did not. There were no differences in the kinetic variables (Km, Jmax) for influx between animals acclimated to their native ion-poor blackwater or to ion-rich hard water, but efflux rates for both Na+ and Cl- were lower in the former, yielding much lower balance points (external Na+ or Cl- levels at which influx and efflux were equal). Na+, Cl- and Ca2+ uptake were all strongly inhibited by acute exposure to pH4.0, but efflux rates and Ca2+ binding to the body surface did not change. Na+ influx was inhibited by amiloride (10-4moll-1) and by two of its analogs, phenamil (4×10-5moll-1) and HMA (4×10-5moll-1), with the latter being slightly more potent, while Cl- fluxes were unaffected. Cl- fluxes were insensitive to DIDS (2×10-5moll-1 or 10-4moll-1) and SITS (10-4moll-1), but both influx and efflux rates were strongly inhibited by DPC (10-4moll-1) and thiocyanate (10-4moll-1). Ammonia excretion was unresponsive to large changes in water Na+ concentration, but was elevated by 70% during acute exposure to pH4.0 and transiently inhibited by approximately 50% by amiloride and its analogues. The strategy of adaptation to ion-poor blackwater appears similar to that of some Rio Negro teleosts (Cichlidae) in which low-affinity transport systems are relatively sensitive to inhibition by low pH but are complemented by low diffusive loss rates. Ionic transport systems in these freshwater elasmobranchs, although superficially similar to those in some freshwater teleosts, may bear more resemblance to their presumed evolutionary precursors in marine elasmobranchs. 2020-06-04T15:17:42Z 2020-06-04T15:17:42Z 2002 Artigo https://repositorio.inpa.gov.br/handle/1/16411 en Volume 205, Número 19, Pags. 3039-3054 Attribution-NonCommercial-NoDerivs 3.0 Brazil http://creativecommons.org/licenses/by-nc-nd/3.0/br/ application/pdf Journal of Experimental Biology
institution Instituto Nacional de Pesquisas da Amazônia - Repositório Institucional
collection INPA-RI
language English
topic Ammonia
Chloride
Fresh Water
Glucose
Nitrogen
Sodium
Urea
Animals
Brasil
Elasmobranchii
Homeostasis
Kinetics
Metabolism
Physiology
Transport At The Cellular Level
Ammonia
Animal
Biological Transport
Brasil
Chlorides
Elasmobranchii
Fresh Water
Glucose
Homeostasis
Kinetics
Nitrogen
Sodium
Urea
Animalsia
Cichlidae
Dasyatidae
Elasmobranchii
Potamotrygon
Potamotrygonidae
spellingShingle Ammonia
Chloride
Fresh Water
Glucose
Nitrogen
Sodium
Urea
Animals
Brasil
Elasmobranchii
Homeostasis
Kinetics
Metabolism
Physiology
Transport At The Cellular Level
Ammonia
Animal
Biological Transport
Brasil
Chlorides
Elasmobranchii
Fresh Water
Glucose
Homeostasis
Kinetics
Nitrogen
Sodium
Urea
Animalsia
Cichlidae
Dasyatidae
Elasmobranchii
Potamotrygon
Potamotrygonidae
Wood, Chris M.
Mechanisms of ion transport in Potamotrygon, a stenohaline freshwater elasmobranch native to the ion-poor blackwaters of the Rio Negro
topic_facet Ammonia
Chloride
Fresh Water
Glucose
Nitrogen
Sodium
Urea
Animals
Brasil
Elasmobranchii
Homeostasis
Kinetics
Metabolism
Physiology
Transport At The Cellular Level
Ammonia
Animal
Biological Transport
Brasil
Chlorides
Elasmobranchii
Fresh Water
Glucose
Homeostasis
Kinetics
Nitrogen
Sodium
Urea
Animalsia
Cichlidae
Dasyatidae
Elasmobranchii
Potamotrygon
Potamotrygonidae
description Stingrays of the family Potamotrygonidae are the only stenohaline freshwater elasmobranchs. Potomotrygon sp. collected from the ion-poor blackwaters ([Na+], [Cl-] and [Ca2+]=10-30μmoll-1, pH6.1) of the Rio Negro, Amazonas, Brazil, were ammoniotelic (91% ammonia-N, 9% urea-N excretion) and exhibited blood chemistry (Na+, Cl-, urea, ammonia and glucose levels and osmolality) typical of freshwater teleosts. Unidirectional Na+ and Cl- influx rates, measured with radiotracers, displayed saturation kinetics. The relationships for Cl- and Na+ had similar Km values (300-500 μmoll-1), but Jmax values for Cl- (approximately 950 μmol kg-1 h-1) were almost twice those for Na+ (approximately 500 μmol kg-1 h-1). Cl- efflux rates varied with external concentration, but Na+ efflux rates did not. There were no differences in the kinetic variables (Km, Jmax) for influx between animals acclimated to their native ion-poor blackwater or to ion-rich hard water, but efflux rates for both Na+ and Cl- were lower in the former, yielding much lower balance points (external Na+ or Cl- levels at which influx and efflux were equal). Na+, Cl- and Ca2+ uptake were all strongly inhibited by acute exposure to pH4.0, but efflux rates and Ca2+ binding to the body surface did not change. Na+ influx was inhibited by amiloride (10-4moll-1) and by two of its analogs, phenamil (4×10-5moll-1) and HMA (4×10-5moll-1), with the latter being slightly more potent, while Cl- fluxes were unaffected. Cl- fluxes were insensitive to DIDS (2×10-5moll-1 or 10-4moll-1) and SITS (10-4moll-1), but both influx and efflux rates were strongly inhibited by DPC (10-4moll-1) and thiocyanate (10-4moll-1). Ammonia excretion was unresponsive to large changes in water Na+ concentration, but was elevated by 70% during acute exposure to pH4.0 and transiently inhibited by approximately 50% by amiloride and its analogues. The strategy of adaptation to ion-poor blackwater appears similar to that of some Rio Negro teleosts (Cichlidae) in which low-affinity transport systems are relatively sensitive to inhibition by low pH but are complemented by low diffusive loss rates. Ionic transport systems in these freshwater elasmobranchs, although superficially similar to those in some freshwater teleosts, may bear more resemblance to their presumed evolutionary precursors in marine elasmobranchs.
format Artigo
author Wood, Chris M.
author2 Matsuo, Aline Y.O.
Gonzalez, Richard J.
Wilson, Rod W.
Patrick, Marjorie L.
Val, Adalberto Luis
author2Str Matsuo, Aline Y.O.
Gonzalez, Richard J.
Wilson, Rod W.
Patrick, Marjorie L.
Val, Adalberto Luis
title Mechanisms of ion transport in Potamotrygon, a stenohaline freshwater elasmobranch native to the ion-poor blackwaters of the Rio Negro
title_short Mechanisms of ion transport in Potamotrygon, a stenohaline freshwater elasmobranch native to the ion-poor blackwaters of the Rio Negro
title_full Mechanisms of ion transport in Potamotrygon, a stenohaline freshwater elasmobranch native to the ion-poor blackwaters of the Rio Negro
title_fullStr Mechanisms of ion transport in Potamotrygon, a stenohaline freshwater elasmobranch native to the ion-poor blackwaters of the Rio Negro
title_full_unstemmed Mechanisms of ion transport in Potamotrygon, a stenohaline freshwater elasmobranch native to the ion-poor blackwaters of the Rio Negro
title_sort mechanisms of ion transport in potamotrygon, a stenohaline freshwater elasmobranch native to the ion-poor blackwaters of the rio negro
publisher Journal of Experimental Biology
publishDate 2020
url https://repositorio.inpa.gov.br/handle/1/16411
_version_ 1787141313882226688
score 11.755432

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