Abstract
Characterizing the capacity of marine organisms to adapt to climate change related drivers (e.g., pCO2 and temperature), and the possible rate of this adaptation, is required to assess their resilience (or lack thereof) to these drivers. Several studies have hypothesized that epigenetic markers such as DNA methylation, histone modifications and noncoding RNAs, act as drivers of adaptation in marine organisms, especially corals. However, this hypothesis has not been tested in zooplankton, a keystone organism in marine food webs. The objective of this study is to test the hypothesis that acute ocean acidification (OA) exposure alters DNA methylation in two zooplanktonic species—copepods (Acartia clausii) and cladocerans (Evadne nordmanii). We exposed these two species to near‐future OA conditions (400 and 900 ppm pCO2) for 24 h and assessed transcriptional and DNA methylation patterns using RNA sequencing and Reduced Representation Bisulfite Sequencing (RRBS). OA exposure caused differential expression of genes associated with energy metabolism, cytoskeletal and extracellular matrix functions, hypoxia and one‐carbon metabolism. Similarly, OA exposure also caused altered DNA methylation patterns in both species but the effect of these changes on gene expression and physiological effects remains to be determined. The results from this study form the basis for studies investigating the potential role of epigenetic mechanisms in OA induced phenotypic plasticity and/or adaptive responses in zooplanktonic organisms.
Highlights
The release of anthropogenic carbon emissions into the earth's atmosphere has resulted in changes in oceanic temperature and pH that have an impact on marine organisms and ecosystems (IPCC, 2021)
The objective of this study is to investigate the effect of acute exposure to ocean acidification (OA) on transcriptional and epigenetic (DNA methylation) patterns in two marine planktonic crustaceans, the copepod Acartia clausi and the Cladoceran Evadne nordmanni
The results from this study provide a basis for investigating the possibility for rapid adaptive responses of planktonic marine organisms to climate change
Summary
The release of anthropogenic carbon emissions into the earth's atmosphere has resulted in changes in oceanic temperature and pH that have an impact on marine organisms and ecosystems (IPCC, 2021). As genomic analysis techniques increase in efficiency, transcriptomic analyses have become important metrics for quantifying the expression of stress- related genes (Evans & Hofmann, 2012), and enable the examination of a broad range of genetic responses to environmental change (Harms et al, 2014; Todgham & Hofmann, 2009). By comparing the responses of copepods and cladocerans (asexually vs sexually reproducing populations) we hope to establish the relative roles of genetic and epigenetic mechanisms in determining the adaptation capacity of marine populations to pCO2. Studies addressing the epigenetic basis of adaptation have been conducted mainly in sessile animals such as corals and mollusks
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