Capacity for Cellular Osmoregulation Defines Critical Salinity of Marine Invertebrates at Low Salinity
نویسندگان
چکیده
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. induced depletion organic osmolyte pool suggested set a critical boundary osmoconforming invertebrates. Whether inorganic ions also play persistent role during low-salinity processes currently inconclusive. We investigated tolerance six invertebrate species following four-week period around their threshold. To obtain complete budgets, we quantified and osmolytes determined proxies. Our experiments corroborated importance acclimation. Methylamines constituted large portion molluscs, whereas echinoderms exclusively utilized free amino acids. Inorganic were involved long-term cellular osmoregulation most species, thus are not just modulated acute stress. The was depleted at low salinities, whilst impacted. Instead, often stabilized low-salinity. These findings suggest capacity cannot be simply from size. Rather, multiple parameters (i.e. pools, net growth, water content survival) necessary establish ranges. However, quantitative knowledge systems key understand evolution euryhalinity characterize targets selection rapid adaptation desalination.
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ژورنال
عنوان ژورنال: Frontiers in Marine Science
سال: 2022
ISSN: ['2296-7745']
DOI: https://doi.org/10.3389/fmars.2022.898364