2018
DOI: 10.1016/j.marenvres.2017.11.002
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Combined, short-term exposure to reduced seawater pH and elevated temperature induces community shifts in an intertidal meiobenthic assemblage

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Cited by 23 publications
(15 citation statements)
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“…The overall decrease in metacommunity species richness under ocean warming and acidification combined also caused a decrease in nematode trophic diversity, which was mainly related to the loss of predatory nematodes. In addition, copepod density decreased under the combined effects of warming and OA, as previously observed (Mevenkamp, Ong, Van Colen, Vanreusel, & Guilini, ; Sarmento, Parreira Santos, Hale, Ingels, & Widdicombe, ). These changes may lead to a loss in ecosystem function since copepods and predatory nematodes create important trophic links between meiofauna and larger animals such as macrofaunal invertebrates and demersal fishes (Gingold, Moens, & Rocha‐Olivares, ; Zeppilli et al, ).…”
Section: Discussionsupporting
confidence: 84%
“…The overall decrease in metacommunity species richness under ocean warming and acidification combined also caused a decrease in nematode trophic diversity, which was mainly related to the loss of predatory nematodes. In addition, copepod density decreased under the combined effects of warming and OA, as previously observed (Mevenkamp, Ong, Van Colen, Vanreusel, & Guilini, ; Sarmento, Parreira Santos, Hale, Ingels, & Widdicombe, ). These changes may lead to a loss in ecosystem function since copepods and predatory nematodes create important trophic links between meiofauna and larger animals such as macrofaunal invertebrates and demersal fishes (Gingold, Moens, & Rocha‐Olivares, ; Zeppilli et al, ).…”
Section: Discussionsupporting
confidence: 84%
“…Previous studies have already shown that OA can shift meiobenthic community composition, as a result of differential sensitivity of the different taxa (Hale et al ; Schade et al ; Mevenkamp et al ). In accordance with the literature, nematodes, the dominant meiobenthic taxon at our study site, were unaffected by low pH.…”
Section: Discussionmentioning
confidence: 97%
“…Negative effects on nematode survivorship have been documented only at extremely low pH levels (~ ≤ 6). However, a recent study using a staining technique found an increase in nematode mortality under OA, whereas nematode density was unaffected, likely due to a reduced degradation rate of dead nematode bodies at low pH (Mevenkamp et al ). These results stress the importance of assessing nematode mortality in OA studies, as stable or even increased densities of these animals could be an artifact of reduced body decomposition, potentially hiding more severe impacts of OA on this dominant group.…”
Section: Discussionmentioning
confidence: 99%
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