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Main Authors: Shirokova, Yulia, Telnes, Ekaterina, Mutin, Andrey, Rzhechitskiy, Yaroslav, Shatilina, Zhanna, Sokolova, Inna, Timofeyev, Maxim
Format: Artículo científico
Language:en
Published: Comparative biochemistry and physiology. Part A, Molecular & integrative physiology 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40379082/
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author Shirokova, Yulia
Telnes, Ekaterina
Mutin, Andrey
Rzhechitskiy, Yaroslav
Shatilina, Zhanna
Sokolova, Inna
Timofeyev, Maxim
author_facet Shirokova, Yulia
Telnes, Ekaterina
Mutin, Andrey
Rzhechitskiy, Yaroslav
Shatilina, Zhanna
Sokolova, Inna
Timofeyev, Maxim
Shirokova, Yulia
Telnes, Ekaterina
Mutin, Andrey
Rzhechitskiy, Yaroslav
Shatilina, Zhanna
Sokolova, Inna
Timofeyev, Maxim
collection PubMed - marine biology
contents Metabolic responses to thermal ramping in two endemic eurybathic amphipods of the genus Ommatogammarus from ancient Lake Baikal. Shirokova, Yulia Telnes, Ekaterina Mutin, Andrey Rzhechitskiy, Yaroslav Shatilina, Zhanna Sokolova, Inna Timofeyev, Maxim Animals Amphipoda Lakes Temperature Glycogen Catalase Acclimatization Siberia Glucose Glutathione Transferase Lake Baikal harbors freshwater profundal amphipods, including the eurybathic species Ommatogammarus flavus and O. albinus. O. flavus occupies shallower habitats, including the littoral zone, which is subject to greater temperature variability. Consequently, O. flavus may demonstrate a higher degree of tolerance to temperature fluctuations in comparison with O. albinus. We compared the metabolic responses of these two amphipod species to thermal ramping. Specimens were collected from a range of depths and acclimated to a temperature of 4 °C. They were then subjected to controlled temperature up- and downshifts to assess the parameters of tissue energy status, antioxidant enzyme activity, and survival. O. flavus showed a higher degree of tolerance to warming than the deeper-dwelling O. albinus, while both species were resilient to temperature decreases. The depth of sampling had a minor effect on glycogen levels in O. flavus as well as catalase and glutathione S-transferase activity in O. albinus but had no effect on survival during experimental warming. Glucose level was shown to be the most sensitive biochemical marker to temperature variations, indicating that it could be used as a stress indicator for Baikal deep-water amphipods. This finding might provide insight into their adaptability to ambient temperature fluctuations.
format Artículo científico
id pubmed_40379082
institution PubMed
language en
publishDate 2025
publisher Comparative biochemistry and physiology. Part A, Molecular & integrative physiology
record_format pubmed
spellingShingle Metabolic responses to thermal ramping in two endemic eurybathic amphipods of the genus Ommatogammarus from ancient Lake Baikal.
Shirokova, Yulia
Telnes, Ekaterina
Mutin, Andrey
Rzhechitskiy, Yaroslav
Shatilina, Zhanna
Sokolova, Inna
Timofeyev, Maxim
Animals
Amphipoda
Lakes
Temperature
Glycogen
Catalase
Acclimatization
Siberia
Glucose
Glutathione Transferase
Metabolic responses to thermal ramping in two endemic eurybathic amphipods of the genus Ommatogammarus from ancient Lake Baikal. Shirokova, Yulia Telnes, Ekaterina Mutin, Andrey Rzhechitskiy, Yaroslav Shatilina, Zhanna Sokolova, Inna Timofeyev, Maxim Animals Amphipoda Lakes Temperature Glycogen Catalase Acclimatization Siberia Glucose Glutathione Transferase Lake Baikal harbors freshwater profundal amphipods, including the eurybathic species Ommatogammarus flavus and O. albinus. O. flavus occupies shallower habitats, including the littoral zone, which is subject to greater temperature variability. Consequently, O. flavus may demonstrate a higher degree of tolerance to temperature fluctuations in comparison with O. albinus. We compared the metabolic responses of these two amphipod species to thermal ramping. Specimens were collected from a range of depths and acclimated to a temperature of 4 °C. They were then subjected to controlled temperature up- and downshifts to assess the parameters of tissue energy status, antioxidant enzyme activity, and survival. O. flavus showed a higher degree of tolerance to warming than the deeper-dwelling O. albinus, while both species were resilient to temperature decreases. The depth of sampling had a minor effect on glycogen levels in O. flavus as well as catalase and glutathione S-transferase activity in O. albinus but had no effect on survival during experimental warming. Glucose level was shown to be the most sensitive biochemical marker to temperature variations, indicating that it could be used as a stress indicator for Baikal deep-water amphipods. This finding might provide insight into their adaptability to ambient temperature fluctuations.
title Metabolic responses to thermal ramping in two endemic eurybathic amphipods of the genus Ommatogammarus from ancient Lake Baikal.
topic Animals
Amphipoda
Lakes
Temperature
Glycogen
Catalase
Acclimatization
Siberia
Glucose
Glutathione Transferase
url https://pubmed.ncbi.nlm.nih.gov/40379082/