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Main Authors: Winterburn, Keryn, Talevi, Jasmine, Clarke, Shelby B, Clements, Jeff C, Coffin, Michael R S, Filgueira, Ramón
Format: Artículo científico
Language:en
Published: Marine environmental research 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40848566/
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author Winterburn, Keryn
Talevi, Jasmine
Clarke, Shelby B
Clements, Jeff C
Coffin, Michael R S
Filgueira, Ramón
author_facet Winterburn, Keryn
Talevi, Jasmine
Clarke, Shelby B
Clements, Jeff C
Coffin, Michael R S
Filgueira, Ramón
Winterburn, Keryn
Talevi, Jasmine
Clarke, Shelby B
Clements, Jeff C
Coffin, Michael R S
Filgueira, Ramón
collection PubMed - marine biology
contents Metabolic depression explains differences in vulnerability to low oxygen between two species of temperate marine bivalves. Winterburn, Keryn Talevi, Jasmine Clarke, Shelby B Clements, Jeff C Coffin, Michael R S Filgueira, Ramón Animals Crassostrea Oxygen Mytilus edulis Eutrophication Bivalvia Nutrient enrichment and rising temperatures increasingly generate summer hypoxia in temperate estuaries, potentially impacting the physiology and survival of sessile marine bivalves. In the western Atlantic ocean, eastern oysters, Crassostrea virginica, and blue mussels, Mytilus edulis, often co-occur in these habitats, but their comparative resilience to extended hypoxia and anoxia is uncertain. In this study, the effects of hypoxia and anoxia on the physiological response and survival of oysters and mussels were examined under summer eutrophic conditions. Survival, respiration, and pumping rates were determined in both species under three treatments: normoxia (>5 mg O L), hypoxia (∼2 mg O L), and anoxia (
format Artículo científico
id pubmed_40848566
institution PubMed
language en
publishDate 2025
publisher Marine environmental research
record_format pubmed
spellingShingle Metabolic depression explains differences in vulnerability to low oxygen between two species of temperate marine bivalves.
Winterburn, Keryn
Talevi, Jasmine
Clarke, Shelby B
Clements, Jeff C
Coffin, Michael R S
Filgueira, Ramón
Animals
Crassostrea
Oxygen
Mytilus edulis
Eutrophication
Bivalvia
Metabolic depression explains differences in vulnerability to low oxygen between two species of temperate marine bivalves. Winterburn, Keryn Talevi, Jasmine Clarke, Shelby B Clements, Jeff C Coffin, Michael R S Filgueira, Ramón Animals Crassostrea Oxygen Mytilus edulis Eutrophication Bivalvia Nutrient enrichment and rising temperatures increasingly generate summer hypoxia in temperate estuaries, potentially impacting the physiology and survival of sessile marine bivalves. In the western Atlantic ocean, eastern oysters, Crassostrea virginica, and blue mussels, Mytilus edulis, often co-occur in these habitats, but their comparative resilience to extended hypoxia and anoxia is uncertain. In this study, the effects of hypoxia and anoxia on the physiological response and survival of oysters and mussels were examined under summer eutrophic conditions. Survival, respiration, and pumping rates were determined in both species under three treatments: normoxia (>5 mg O L), hypoxia (∼2 mg O L), and anoxia (
title Metabolic depression explains differences in vulnerability to low oxygen between two species of temperate marine bivalves.
topic Animals
Crassostrea
Oxygen
Mytilus edulis
Eutrophication
Bivalvia
url https://pubmed.ncbi.nlm.nih.gov/40848566/