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Osmolyte and fitness parameters of marine invertebrates exposed to low salinity in the laboratory

Low-salinity stress can severely affect the fitness of marine organisms. As desalination has been predicted for many coastal areas with ongoing climate change, it is crucial to gain more insight in mechanisms that constrain salinity acclimation ability. Low-salinity induced depletion of the organic osmolyte pool has been suggested to set a critical boundary in osmoconforming marine invertebrates. Whether inorganic ions also play a persistent role during low-salinity acclimation processes is currently inconclusive. We investigated the salinity tolerance of six marine invertebrate species following a four-week acclimation period around their low-salinity tolerance threshold. The species investigated were Asterias rubens, Mytilus edulis, Littorina littorea, Diadumene lineata, Strongylocentrotus droebachiensis and Psammechinus milliaris. To obtain complete osmolyte budgets of seawater, body fluids and tissues we quantified total osmolality (via osmometer), organic osmolytes (methylamine and free amino acids) via 1H-NMR spectroscopy and inorganic osmolytes (anions and cations) via flame photometry and a novel protocol using ion-chromatography. We further determined the fitness proxies survival, growth and tissue water content. Our data show the importance of the organic and inorganic osmolyte pool during low-salinity acclimation. It also shows the importance of specific compounds in some species. This data can be used in future osmolyte and salinity tolerance research. This type of data is essential to establish reliable physiological limits of species in order to estimate consequences of future salinity changes with ongoing climate change. It can be used to assess the salinity tolerance capacity and to obtain a better understanding of the basic mechanisms that are utilized in a wide range of species. The established cellular inorganic and organic osmolyte profiles can build a foundation for applied cellular physiological research, for example for designing suitable buffers for in vitro assays as these buffers need to incorporate complex organic and inorganic osmolyte changes. Knowledge about cellular and whole-organism biochemistry and physiology is absolutely crucial for characterizing the functions of genes that are under selection by climate change stressors. A quantitative knowledge of cellular osmolyte systems is key to understand the evolution of euryhalinity and to characterize targets of selection during rapid adaptation to ongoing desalination.

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Podbielski, Imke Anna, Hiebenthal, Claas, Hajati, Mithra-Christin, Bock, Christian, Bleich, Markus, Melzner, Frank (2023). Dataset: Osmolyte and fitness parameters of marine invertebrates exposed to low salinity in the laboratory. https://doi.org/10.1594/PANGAEA.959692

DOI retrieved: 2023

Additional Info

Field Value
Imported on November 30, 2024
Last update November 30, 2024
License CC-BY-4.0
Source https://doi.org/10.1594/PANGAEA.959692
Author Podbielski, Imke Anna
Given Name Imke Anna
Family Name Podbielski
More Authors
Hiebenthal, Claas
Hajati, Mithra-Christin
Bock, Christian
Bleich, Markus
Melzner, Frank
Source Creation 2023
Publication Year 2023
Resource Type application/zip - filename: Podbielski-etal_2023b
Subject Areas
Name: Ecology

Related Identifiers
Title: Capacity for Cellular Osmoregulation Defines Critical Salinity of Marine Invertebrates at Low Salinity
Identifier: https://doi.org/10.3389/fmars.2022.898364
Type: DOI
Relation: References
Year: 2022
Source: Frontiers in Marine Science
Authors: Podbielski Imke Anna , Hiebenthal Claas , Hajati Mithra-Christin , Bock Christian , Bleich Markus , Melzner Frank , Podbielski Imke Anna .

Title: Collection, maintenance and acclimation of marine invertebrates for and during salinity tolerance experiment
Type: DOI
Relation: References
Year: 2023
Source: Christian-Albrechts-Universität zu Kiel
Authors: Podbielski Imke Anna , Hiebenthal Claas , Hajati Mithra-Christin , Bock Christian , Bleich Markus , Melzner Frank , Podbielski Imke Anna .