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Journal Abstract Search

152 related items for PubMed ID: 37776806

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  • 7. Effects of one-year exposure to ocean acidification on two species of abalone.
    Guo X, Huang M, Luo X, You W, Ke C.
    Sci Total Environ; 2022 Dec 15; 852():158144. PubMed ID: 35988613
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  • 8. Acid-base balance in the hæmolymph of European abalone (Haliotis tuberculata) exposed to CO2-induced ocean acidification.
    Auzoux-Bordenave S, Chevret S, Badou A, Martin S, Di Giglio S, Dubois P.
    Comp Biochem Physiol A Mol Integr Physiol; 2021 Sep 15; 259():110996. PubMed ID: 34058370
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  • 9. Detrimental effects of reduced seawater pH on the early development of the Pacific abalone.
    Li J, Jiang Z, Zhang J, Qiu JW, Du M, Bian D, Fang J.
    Mar Pollut Bull; 2013 Sep 15; 74(1):320-4. PubMed ID: 23838418
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  • 10. Responses of early life stages of European abalone (Haliotis tuberculata) to ocean acidification after parental conditioning: Insights from a transgenerational experiment.
    Auzoux-Bordenave S, Ledoux A, Martin S, Di Poi C, Suquet M, Badou A, Gaillard F, Servili A, Le Goïc N, Huchette S, Roussel S.
    Mar Environ Res; 2022 Nov 15; 181():105753. PubMed ID: 36130468
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  • 11. Effect of reduced pH on physiology and shell integrity of juvenile Haliotis iris (pāua) from New Zealand.
    Cummings VJ, Smith AM, Marriott PM, Peebles BA, Halliday NJ.
    PeerJ; 2019 Nov 15; 7():e7670. PubMed ID: 31579589
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  • 14. Within- and transgenerational stress legacy effects of ocean acidification on red abalone (Haliotis rufescens) growth and survival.
    Neylan IP, Swezey DS, Boles SE, Gross JA, Sih A, Stachowicz JJ.
    Glob Chang Biol; 2024 Jan 15; 30(1):e17048. PubMed ID: 37988193
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  • 15. Dietary ascorbic acid modulates the expression profile of stress protein genes in hepatopancreas of adult Pacific abalone Haliotis discus hannai Ino.
    Wu C, Wang J, Xu W, Zhang W, Mai K.
    Fish Shellfish Immunol; 2014 Dec 15; 41(2):120-5. PubMed ID: 25193867
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  • 16. Computing the carbonate chemistry of the coral calcifying medium and its response to ocean acidification.
    Raybaud V, Tambutté S, Ferrier-Pagès C, Reynaud S, Venn AA, Tambutté É, Nival P, Allemand D.
    J Theor Biol; 2017 Jul 07; 424():26-36. PubMed ID: 28476563
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  • 17. Contrasting marine carbonate systems in two fjords in British Columbia, Canada: Seawater buffering capacity and the response to anthropogenic CO2 invasion.
    Hare A, Evans W, Pocock K, Weekes C, Gimenez I.
    PLoS One; 2020 Jul 07; 15(9):e0238432. PubMed ID: 32881918
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  • 18. Effect of large-scale kelp and bivalve farming on seawater carbonate system variations in the semi-enclosed Sanggou Bay.
    Li J, Zhang W, Ding J, Xue S, Huo E, Ma Z, Yu W, Jiang Z, Fang J, Mao Y.
    Sci Total Environ; 2021 Jan 20; 753():142065. PubMed ID: 32906051
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  • 19. Food supply and seawater pCO2 impact calcification and internal shell dissolution in the blue mussel Mytilus edulis.
    Melzner F, Stange P, Trübenbach K, Thomsen J, Casties I, Panknin U, Gorb SN, Gutowska MA.
    PLoS One; 2011 Jan 20; 6(9):e24223. PubMed ID: 21949698
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  • 20. Sea Hare Aplysia punctata (Mollusca: Gastropoda) Can Maintain Shell Calcification under Extreme Ocean Acidification.
    Carey N, Dupont S, Sigwart JD.
    Biol Bull; 2016 Oct 20; 231(2):142-151. PubMed ID: 27820906
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