Local differences in robustness to ocean acidification
Author:
Padilla Dianna K.1ORCID, Milke Lisa2ORCID, Akin-Fajiye Morodoluwa13ORCID, Rosa Maria1ORCID, Redman Dylan2ORCID, Liguori Alyssa1ORCID, Rugila Allison1ORCID, Veilleux David2ORCID, Dixon Mark2ORCID, Charifson David1ORCID, Meseck Shannon L.2ORCID
Affiliation:
1. Stony Brook University 1 Department of Ecology and Evolution , , Stony Brook, NY 11794-5254 , USA 2. NOAA Fisheries Service, Milford Laboratory 2 , 212 Rogers Ave, Milford, CT 06460 , USA 3. Thompson Rivers University 3 Department of Natural Resource Sciences , , Kamloops, BC V2C 0C8 , Canada
Abstract
ABSTRACT
Ocean acidification (OA) caused by increased atmospheric carbon dioxide is affecting marine systems globally and is more extreme in coastal waters. A wealth of research to determine how species will be affected by OA, now and in the future, is emerging. Most studies are discrete and generally do not include the full life cycle of animals. Studies that include the potential for adaptation responses of animals from areas with different environmental conditions and the most vulnerable life stages are needed. Therefore, we conducted experiments with the widely distributed blue mussel, Mytilus edulis, from populations regularly exposed to different OA conditions. Mussels experienced experimental conditions prior to spawning, through embryonic and larval development, both highly vulnerable stages. Survivorship to metamorphosis of larvae from all populations was negatively affected by extreme OA conditions (pH 7.3, Ωar, 0.39, pCO2 2479.74), but, surprisingly, responses to mid OA (pH 7.6, Ωar 0.77, pCO21167.13) and low OA (pH 7.9, Ωar 1.53, pCO2 514.50) varied among populations. Two populations were robust and showed no effect of OA on survivorship in this range. One population displayed the expected negative effect on survivorship with increased OA. Unexpectedly, survivorship in the fourth population was highest under mid OA conditions. There were also significant differences in development time among populations that were unaffected by OA. These results suggest that adaptation to OA may already be present in some populations and emphasizes the importance of testing animals from different populations to see the potential for adaptation to OA.
Publisher
The Company of Biologists
Reference63 articles.
1. Life on the margin: implications of ocean acidification on Mg-calcite, high latitude and cold-water marine calcifiers;Andersson;Mar. Ecol. Prog. Ser,2008 2. Physiological energetics of marine molluscs;Bayne,1983 3. Blue mussels (Mytilus edulis spp.) as sentinel organisms in coastal pollution monitoring: a review;Beyer;Mar. Environmental Res.,2017 4. Bindoff, N. L., Cheung, W. W. L., Kairo, J. G., Arístegui, J., Guinder, V. A., Hallberg, R., Hilmi, N., Jiao, N., Karim, M. S. and Levin, L.et al. (2019). Changing ocean, marine ecosystems, and dependent communities. In IPCC special report on the ocean and cryosphere in a changing climate, Intergovernmental Panel on Climate Change (ed. H. O.Pörtner, D. C.Roberts, V.Masson-Delmotte, P.Zhai, M.Tignor, E.Poloczanska, K.Mintenbeck, A.Alegría, M.Nicolai, A.Okem, J.Petzold, B.Rama and N. M.Weyer). Geneva. 5. An inter-laboratory comparison assessing the quality of seawater carbon dioxide measurements;Bockmon;Mar. Chem.,2015
|
|