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Main Authors: Kong, Hui, Sokolova, Inna M
Format: Artículo científico
Language:en
Published: The Journal of experimental biology 2026
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41550066/
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author Kong, Hui
Sokolova, Inna M
author_facet Kong, Hui
Sokolova, Inna M
Kong, Hui
Sokolova, Inna M
collection PubMed - marine biology
contents Variation in sperm performance and mitochondrial metabolism of Mytilus spp. from the North and Baltic Seas under different environmental scenarios. Kong, Hui Sokolova, Inna M Animals Male Mitochondria Spermatozoa Salinity Sperm Motility Mytilus edulis Temperature Oceans and Seas Fertilization Seawater Climate Change Reproduction Adenosine Triphosphate Climate change, including seawater warming and salinity fluctuations, is increasingly affecting marine ecosystems worldwide. The blue mussel, Mytilus edulis, widely distributed along the temperate coasts of the Northern Hemisphere, thrives in environments characterized by temperature fluctuations and salinity gradients. In particular, populations in the Baltic and North Seas are exposed to significant variation in these factors, which can affect the reproductive capacity of blue mussels, essential for sustainability of their populations. This study assessed the effects of varying temperature and salinity on the reproductive performance of blue mussels from the Baltic and North Seas, focusing on sperm motility, ATP content and fertilization success. Additionally, sperm mitochondrial function in Baltic Sea mussels was examined under different temperature and osmolarity conditions. The results showed that mussels from both populations tolerated seawater warming, but were sensitive to cold and low salinity, with sperm motility and fertilization success significantly impaired under these conditions. The salinity window for sperm motility and fertilization was population specific: optimal ranges were a salinity of 13-17 for Baltic Sea mussels and 21-35 for North Sea mussels. Notably, North Sea mussels were unable to reproduce at salinity 9, whereas Baltic Sea mussels were severely impaired at salinity 5. High temperature (25°C) reduced mitochondrial respiratory efficiency and increased reactive oxygen species (ROS) production, while osmolarity did not appear to be a key factor. These findings highlight population-specific reproductive traits in M. edulis and link sperm performance to mitochondrial function, providing new insights into benthic adaptation to changing coastal environments.
format Artículo científico
id pubmed_41550066
institution PubMed
language en
publishDate 2026
publisher The Journal of experimental biology
record_format pubmed
spellingShingle Variation in sperm performance and mitochondrial metabolism of Mytilus spp. from the North and Baltic Seas under different environmental scenarios.
Kong, Hui
Sokolova, Inna M
Animals
Male
Mitochondria
Spermatozoa
Salinity
Sperm Motility
Mytilus edulis
Temperature
Oceans and Seas
Fertilization
Seawater
Climate Change
Reproduction
Adenosine Triphosphate
Variation in sperm performance and mitochondrial metabolism of Mytilus spp. from the North and Baltic Seas under different environmental scenarios. Kong, Hui Sokolova, Inna M Animals Male Mitochondria Spermatozoa Salinity Sperm Motility Mytilus edulis Temperature Oceans and Seas Fertilization Seawater Climate Change Reproduction Adenosine Triphosphate Climate change, including seawater warming and salinity fluctuations, is increasingly affecting marine ecosystems worldwide. The blue mussel, Mytilus edulis, widely distributed along the temperate coasts of the Northern Hemisphere, thrives in environments characterized by temperature fluctuations and salinity gradients. In particular, populations in the Baltic and North Seas are exposed to significant variation in these factors, which can affect the reproductive capacity of blue mussels, essential for sustainability of their populations. This study assessed the effects of varying temperature and salinity on the reproductive performance of blue mussels from the Baltic and North Seas, focusing on sperm motility, ATP content and fertilization success. Additionally, sperm mitochondrial function in Baltic Sea mussels was examined under different temperature and osmolarity conditions. The results showed that mussels from both populations tolerated seawater warming, but were sensitive to cold and low salinity, with sperm motility and fertilization success significantly impaired under these conditions. The salinity window for sperm motility and fertilization was population specific: optimal ranges were a salinity of 13-17 for Baltic Sea mussels and 21-35 for North Sea mussels. Notably, North Sea mussels were unable to reproduce at salinity 9, whereas Baltic Sea mussels were severely impaired at salinity 5. High temperature (25°C) reduced mitochondrial respiratory efficiency and increased reactive oxygen species (ROS) production, while osmolarity did not appear to be a key factor. These findings highlight population-specific reproductive traits in M. edulis and link sperm performance to mitochondrial function, providing new insights into benthic adaptation to changing coastal environments.
title Variation in sperm performance and mitochondrial metabolism of Mytilus spp. from the North and Baltic Seas under different environmental scenarios.
topic Animals
Male
Mitochondria
Spermatozoa
Salinity
Sperm Motility
Mytilus edulis
Temperature
Oceans and Seas
Fertilization
Seawater
Climate Change
Reproduction
Adenosine Triphosphate
url https://pubmed.ncbi.nlm.nih.gov/41550066/