2016
DOI: 10.3354/meps11916
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Resilience to ocean acidification: decreased carbonic anhydrase activity in sea anemones under high pCO2 conditions

Abstract: Seawater chemistry for long-term in situ exposureDuring the one week fieldwork, seawater pH (NBS scale) was measured each day (n=7) using a pH-meter and an electrode (Metrohm pH mobile). Seawater samples were filtered with a Whatman GF/F, treated with 0.05 ml of 50 % HgCl 2 (Merck, Analar) and stored in the dark at 4°C pending analysis. Three replicate were analysed at 25°C. Titration of TA standards provided by A.G. Dickson was within 0.5 µmol kg -1 of the nominal value. The other parameters of the carbonate … Show more

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Cited by 20 publications
(17 citation statements)
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“…Indeed, any increase in net oxygen production must equate to a net increase in CO 2 fixation during photosynthesis (Reece et al, 2015). In addition to reduced costs of carbon acquisition under high pCO 2 (Ventura et al, 2016), we hypothesize that inhibition of photorespiration may also partially explain the higher rate of asexual reproduction of symbiotic polyps under acidification alone due to increased efficiency of carbon fixation and increased availability of organic carbon for growth. Clearly, better understanding processes such as photorespiration is needed to assess why only some Symbiodinium types, that is perhaps those more susceptible to…”
Section: Discussionmentioning
confidence: 97%
See 1 more Smart Citation
“…Indeed, any increase in net oxygen production must equate to a net increase in CO 2 fixation during photosynthesis (Reece et al, 2015). In addition to reduced costs of carbon acquisition under high pCO 2 (Ventura et al, 2016), we hypothesize that inhibition of photorespiration may also partially explain the higher rate of asexual reproduction of symbiotic polyps under acidification alone due to increased efficiency of carbon fixation and increased availability of organic carbon for growth. Clearly, better understanding processes such as photorespiration is needed to assess why only some Symbiodinium types, that is perhaps those more susceptible to…”
Section: Discussionmentioning
confidence: 97%
“…Elevated p CO 2 of surrounding seawater may also stimulate the photosynthetic activity of Symbiodinium spp. where cells have become CO 2 limited (see Gibbin et al., ; Suggett et al., , ; Ventura et al., ) and may act as a key condition needed to enhance oxygenation of the host tissues. Whilst this potential mitigating role of endosymbiotic algae is interesting, it may ultimately be restricted to certain Symbiodinium spp.…”
Section: Introductionmentioning
confidence: 99%
“…A second protein of interest is a membrane-bound and excreted enzyme in the carbonic anhydrase family (SPU_012518). Carbonic anhydrases catalyse the hydration of CO 2 to bicarbonate [66] and have been shown to be responsive to experimental acidification in many organisms, including purple sea urchin [27,56], corals [67], anemones [68], mussels [69], oysters [70] and giant kelp [71]. In the royalsocietypublishing.org/journal/rspb Proc.…”
Section: (C) Mechanisms For Response To Low-ph Conditionsmentioning
confidence: 99%
“…Moreover, previous studies investigating the nature of A. viridis morphs did not systematically consider A. viridis as a holobiont. A. viridis' gastrodermal tissue harbours millions of dinoଏagellate cells (Muscatine et al 1998;Suggett et al 2012;Zamoum and Furla 2012;Ventura et al 2016) belonging to the family Symbiodiniaceae (LaJeunesse et al 2018) that live in a close trophic relationship (Davy et al 1996) and that are vertically transmitted (Schäfer 1984). The Symbiodiniaceae associated to A. viridis belong to the temperate clade A (LaJeunesse et al 2018; or A' sensu Savage et al 2002;Visram et al 2006) presenting not only an intra-clade genetic diversity partially structured by host species but also an intra-host genetic diversity (Visram et al 2006;Forcioli et al 2011;Casado-Amezúa et al 2014).…”
Section: Introductionmentioning
confidence: 99%