2021
DOI: 10.3389/fmars.2021.602601
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Synthesis of Thresholds of Ocean Acidification Impacts on Echinoderms

Abstract: Assessing the vulnerability of marine invertebrates to ocean acidification (OA) requires an understanding of critical thresholds at which developmental, physiological, and behavioral traits are affected. To identify relevant thresholds for echinoderms, we undertook a three-step data synthesis, focused on California Current Ecosystem (CCE) species. First, literature characterizing echinoderm responses to OA was compiled, creating a dataset comprised of >12,000 datapoints from 41 studies. Analysis of this… Show more

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Cited by 24 publications
(17 citation statements)
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“…Finally, tipping point is a single value that reflects susceptibility to stressors that is easily communicable to end-users and society (Bednaršek et al, 2019(Bednaršek et al, , 2021.…”
Section: Accepted Articlementioning
confidence: 99%
See 1 more Smart Citation
“…Finally, tipping point is a single value that reflects susceptibility to stressors that is easily communicable to end-users and society (Bednaršek et al, 2019(Bednaršek et al, , 2021.…”
Section: Accepted Articlementioning
confidence: 99%
“…Tipping point is valid for a whole population regardless of habitat. In addition, this is a single, easily communicable value that reflects susceptibility to OA (Bednaršek et al, 2019(Bednaršek et al, , 2021. To date, only four studies have experimentally established reaction norms for marine calcifiers in relation to pH.…”
mentioning
confidence: 99%
“…While these studies have a great value in outlining the sensitivity of the American lobster to OA, improving our appreciation of the metabolic challenges that early life stages face under OA conditions requires: (i) investigating multiple successive early life stages, not excluding developmental keystones; (ii) determining early life stages responses to a discreet pH/pCO 2 gradient, instead of single or few specific OA scenarios, which enables us to produce more robust predictions of physiological responses and supports scienceinformed management decisions [43][44][45][46]; and (iii) explicitly investigating the metabolic implications of exposure to low pH/high pCO 2 [47]. Consequently, the aim of our work was to simultaneously investigate life history traits and metabolic (both at the cellular and whole-organism level) responses of successive early life stages exposed to a range of elevated pCO 2 conditions.…”
Section: Introductionmentioning
confidence: 99%
“…This difference may represent an acidification threshold nearer to the 7.85 treatment, where the majority of transcriptional adaptation to acidification is activated. Such a threshold effect in gene expression patterns has also been observed in the gill tissue of spider crabs exposed to two levels of acidification (Harms et al, 2014), as well as in the muscle tissue of blue rockfish ( Sebastes mystinus ; Hamilton et al, 2017), and thresholds in OA response have been noted across taxa (Bednaršek et al, 2021; Castillo et al, 2014; Wittmann & Pörtner, 2013). Interestingly, although 33 gene sets were commonly enriched across the pH 7.85 and 7.70 static‐variable comparisons, the majority of them (30) were enriched in opposite directions depending on the pH level, with variability at pH 7.85 eliciting a directional response mirroring that of static acidification, and variability at pH 7.70 eliciting the opposite response (Figure 6; Table ).…”
Section: Discussionmentioning
confidence: 82%