2022
DOI: 10.1111/mec.16703
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The dynamic response to hypo‐osmotic stress reveals distinct stages of freshwater acclimation by a euryhaline diatom

Abstract: The salinity gradient separating marine and freshwater environments is a major ecological divide, and the mechanisms by which most organisms adapt to new salinity environments are poorly understood. Diatoms are a lineage of ancestrally marine microalgae that have repeatedly colonized and diversified in freshwaters. Cyclotella cryptica is a euryhaline diatom that naturally tolerates a broad range of salinities, thus providing a powerful system for understanding the genomic mechanisms for mitigating and acclimat… Show more

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Cited by 11 publications
(30 citation statements)
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“…Given the length of time that has elapsed since the two major freshwater transitions occurred, the probability that shared ancestral polymorphisms persist decreases and the probability that lineage-specific adaptive mutations arise increases (Suh et al 2015; Zou and Zhang 2015; Mendes et al 2016). A large number of genes and pathways have been implicated in the response to low salinity (Nakov et al 2020; Downey et al 2022; Pinseel et al 2022), so an adaptive allele in one of the many possible target genes might have made it possible simply to survive in freshwaters initially. In the tens of millions of years since then, any hemiplasious alleles were most likely overwritten in the extant freshwater descendents, leaving a shared ancestral phenotype (e.g., enhanced transport of sodium ions) as the only remaining evidence of the hemiplasy.…”
Section: Discussionmentioning
confidence: 99%
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“…Given the length of time that has elapsed since the two major freshwater transitions occurred, the probability that shared ancestral polymorphisms persist decreases and the probability that lineage-specific adaptive mutations arise increases (Suh et al 2015; Zou and Zhang 2015; Mendes et al 2016). A large number of genes and pathways have been implicated in the response to low salinity (Nakov et al 2020; Downey et al 2022; Pinseel et al 2022), so an adaptive allele in one of the many possible target genes might have made it possible simply to survive in freshwaters initially. In the tens of millions of years since then, any hemiplasious alleles were most likely overwritten in the extant freshwater descendents, leaving a shared ancestral phenotype (e.g., enhanced transport of sodium ions) as the only remaining evidence of the hemiplasy.…”
Section: Discussionmentioning
confidence: 99%
“…The divergent evolutionary outcomes also suggest a greater role for homoplasy over hemiplasy. The genus Cyclotella includes freshwater, secondarily marine, and generalist euryhaline species that can tolerate a wide range of salinities (Guillard and Ryther 1962; Nakov et al 2020; Downey et al 2022). Similarly, most freshwater transitions at the tips of the tree (Fig.…”
Section: Discussionmentioning
confidence: 99%
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“…However, an important caveat is that fish in the RU study were acclimated to salinity environments for only four days before testing, so it is possible that methylation changes in some CpGs are due to short‐term acute stress that could differ from the methylation responses that would be observed under long‐term rearing conditions. Short versus long‐term exposure to environmental change has been shown to result in distinct transcriptomic patterns in fish and other aquatic species (Downey et al, 2022; Logan & Buckley, 2015). Further studies that compare short and long‐term methylation responses in ancestral versus novel environments will be helpful for a more comprehensive understanding of the role of epigenetic plasticity in adaptation.…”
Section: Discussionmentioning
confidence: 99%