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Hauptverfasser: Haider, Fouzia, Sokolov, Eugene, Timm, Stefan, Hagemann, Martin, Blanco-Rayon, Esther, Marigomez, Ionan, Izagirre, Urtzi, Sokolova, Inna M
Format: Dataset Open Access
Sprache:en
Veröffentlicht: PANGAEA 2018
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Online-Zugang:https://doi.org/10.1594/PANGAEA.895673
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author Haider, Fouzia
Sokolov, Eugene
Timm, Stefan
Hagemann, Martin
Blanco-Rayon, Esther
Marigomez, Ionan
Izagirre, Urtzi
Sokolova, Inna M
author_facet Haider, Fouzia
Sokolov, Eugene
Timm, Stefan
Hagemann, Martin
Blanco-Rayon, Esther
Marigomez, Ionan
Izagirre, Urtzi
Sokolova, Inna M
collection Datos científicos de ciencias marinas y ambientales
contents Bioturbators such as sediment-dwelling marine bivalves are ecosystem engineers that enhance sediment-water exchange and benthic-pelagic coupling. In shallow coastal areas, bivalves are exposed to frequent disturbance and salinity stress that might negatively affect their activity and physiological performance; however, the mechanisms underlying these effects are not fully understood. We investigated the effects of osmotic stress (low and fluctuating salinity) and repeated burrowing on aerobic and contractile capacity of the foot muscle (assessed by the activity of succinate dehydrogenase and myosin ATPase) as well as the levels of organic osmolytes (free amino acids) and biochemical markers of protein synthesis and proteolysis in key osmoregulatory and energy storing tissues (gills and hepatopancreas, respectively) in a common bioturbator, the soft shell clam Mya arenaria. Our findings indicate that exhaustive exercise and osmotic stress interactively affect whole-body protein homeostasis and functional capacity of the foot muscle in soft shell clams which might contribute to reduced burrowing activity of bivalve bioturbators in osmotically challenging environments such as estuaries and shallow coastal zones.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_895673
institution PANGAEA
language en
publishDate 2018
publisher PANGAEA
record_format pangaea
spellingShingle Effect of salinity and burial on protein metabolism and muscle capacity in the soft shell clam Mya arenaria
Haider, Fouzia
Sokolov, Eugene
Timm, Stefan
Hagemann, Martin
Blanco-Rayon, Esther
Marigomez, Ionan
Izagirre, Urtzi
Sokolova, Inna M

Bioturbators such as sediment-dwelling marine bivalves are ecosystem engineers that enhance sediment-water exchange and benthic-pelagic coupling. In shallow coastal areas, bivalves are exposed to frequent disturbance and salinity stress that might negatively affect their activity and physiological performance; however, the mechanisms underlying these effects are not fully understood. We investigated the effects of osmotic stress (low and fluctuating salinity) and repeated burrowing on aerobic and contractile capacity of the foot muscle (assessed by the activity of succinate dehydrogenase and myosin ATPase) as well as the levels of organic osmolytes (free amino acids) and biochemical markers of protein synthesis and proteolysis in key osmoregulatory and energy storing tissues (gills and hepatopancreas, respectively) in a common bioturbator, the soft shell clam Mya arenaria. Our findings indicate that exhaustive exercise and osmotic stress interactively affect whole-body protein homeostasis and functional capacity of the foot muscle in soft shell clams which might contribute to reduced burrowing activity of bivalve bioturbators in osmotically challenging environments such as estuaries and shallow coastal zones.
title Effect of salinity and burial on protein metabolism and muscle capacity in the soft shell clam Mya arenaria
topic
url https://doi.org/10.1594/PANGAEA.895673