74 
Fishery Bulletin 119(1) 
Clements, J. C., D. Bourque, J. McLaughlin, M. Stephenson, and 
L. A. Comeau. 
2017. Extreme ocean acidification reduces the susceptibility 
of eastern oyster shells to a polydorid parasite. J. Fish Dis. 
40:1573-1585. 
Clements, J. C., L. A. Comeau, C. E. Carver, E. Mayrand, S. Plante, 
and A. L. Mallet. 
2018. Short-term exposure to elevated pCO, does not affect 
the valve gaping response of adult eastern oysters, Cras- 
sostrea virginica, to acute heat shock under an ad libitum 
feeding regime. J. Exp. Mar. Biol. Ecol. 506:9-17. 
Crockett, E. L. 
1998. Cholesterol function in plasma membranes from ecto- 
therms: membrane-specific roles in adaptation to tempera- 
ture. Am. Zool. 38:291-304. 
Dickinson, G. H., A. V. Ivanina, O. B. Matoo, H. O. Portner, G. Lannig, 
C. Bock, E. Beniash, and I. M. Sokolova. 
2012. Interactive effects of salinity and elevated CO, levels 
on juvenile eastern oysters, Crassostrea virginica. J. Exp. 
Biol. 215:29-43. 
Dickinson, G. H., O. B. Matoo, R. T. Tourek, I. M. Sokolova, and 
E. Beniash. 
2013. Environmental salinity modulates the effects of ele- 
vated CO, levels on juvenile hard-shell clams, Mercenaria 
mercenaria. J. Exp. Biol. 216:2607—2618. 
Dickson, A. G. 
1990. Standard potential of the reaction: AgCl (s) + 12H,(g) = 
Ag(s) + HCl(aq), and and the standard acidity constant of the 
ion HSO, in synthetic sea water from 273.15 to 318.15 K. J. 
Chem. Thermodyn. 22:113-127. 
Dickson, A. G., and F. J. Millero. 
1987. A comparison of the equilibrium constants for the dis- 
sociation of carbonic acid in seawater media. Deep Sea Res. 
Oceanogr., A 34:1733-1743. 
Doney, S. C., V. J. Fabry, R. A. Feely, and J. A. Kleypas. 
2009. Ocean acidification: the other CO, problem. Annu. Rev. 
Mar. Sci. 1:169-192. 
Duarte, C. M., I. E. Hendriks, T: S. Moore, Y. S. Olsen, A. Steckbauer, 
L. Ramajo, J. Carstensen, J. A. Trotter, and M. McCulloch. 
2013. Is ocean acidification an open-ocean syndrome? Under- 
standing anthropogenic impacts on seawater pH. Estuar. 
Coast. 36:221—236. 
Duarte, C., J. M. Navarro, K. Acuna, R. Torres, P. H. Manriquez, 
M.A. Lardies, C. A. Vargas, N. A. Lagos, and V. Aguilera. 
2015. Intraspecific variability in the response of the edible 
mussel Mytilus chilensis (Hupe) to ocean acidification. 
Estuar. Coast. 38:590-598. 
Ekstrom, J. A., L. Suatoni, S. R. Cooley, L. H. Pendleton, 
G. G. Waldbusser, J. E. Cinner, J. Ritter, C. Langdon, R. van 
Hooidonk, D. Gledhill, et al. 
2015. Vulnerability and adaptation of US shellfisheries to 
ocean acidification. Nat. Clim. Chang. 5:207—214. 
Fay, C. W., R. J. Neves, and G. B. Pardue. 
1983. Species profiles: life histories and environmental 
requirements of coastal fishes and invertebrates (mid 
Atlantic): surf clam. U.S. Fish Wildl. Serv. FWS/OBS-82/ 
11.18, 23 p. 
Feely, R. A., C. L. Sabine, K. Lee, W. Berelson, J. Kleypas, V. J. Fabry, 
and F. J. Millero. 
2004. Impact of anthropogenic CO, on the CaCO, system in 
the oceans. Science 305:362-366. 
Feely, R. A., S. R. Alin, J. Newton, C. L. Sabine, M. Warner, A. Devol, 
C. Krembs, and C. Maloy. 
2010. The combined effects of ocean acidification, mixing, and 
respiration on pH and carbonate saturation in an urban- 
ized estuary. Estuar. Coast. Shelf Sci. 88:442-449. 
Friedland, K. D., R. E. Morse, J. P. Manning, D. C. Melrose, T. Miles, 
A. G. Goode, D. C. Brady, J. T. Kohut, and E. N. Powell. 
2020. Trends and change points in surface and bottom ther- 
mal environments of the US Northeast Continental Shelf 
Ecosystem. Fish. Oceanogr. 29:396—414. 
Gazeau, F., L. M. Parker, S. Comeau, J.-P. Gattuso, W. A. O’Connor, 
S. Martin, H.-O. Poértner, and P. M. Ross. 
2013. Impacts of ocean acidification on marine shelled mol- 
luses. Mar. Biol. 160:2207—2245. 
Gledhill, D. K., M. M. White, J. Salisbury, H. Thomas, I. Mlsna, 
M. Liebman, B. Mook, J. Grear, A. C. Candelmo, R. C. Chambers, 
et al. 
2015. Ocean and coastal acidification off New England and 
Nova Scotia. Oceanography 28(2):182-197. 
Gobler, C. J., and S. C. Talmage. 
2014. Physiological response and resilience of early life- 
stage Eastern oysters (Crassostrea virginica) to past, 
present and future ocean acidification. Conserv. Physiol. 
2:cou004. 
Goldberg, R. 
1989. Biology and culture of the surf clam. Jn Clam maricul- 
ture in North America (J. Manzi and M. Castagna, eds.), 
p. 263-276. Elsevier Sci. Publ., Amsterdam, Netherlands. 
Goldsmith, K. A., S. Lau, M. E. Poach, G. P. Sakowicz, T. M. Trice, 
C. R. Ono, J. Nye, E. H. Shadwick, K. A. StLaurent, and 
G. K. Saba. 
2019. Scientific considerations for acidification monitoring 
in the U.S. Mid-Atlantic region. Estuar. Coast. Shelf Sci. 
225:106189. 
Green, M. A., M. E. Jones, C. L. Boudreau, R. L. Moore, and 
B. A. Westman. 
2004. Dissolution mortality of juvenile bivalves in coastal 
marine deposits. Limnol. Oceanogr. 49:727—734. 
Green, M. A., G. G. Waldbusser, S. L. Reilly, K. Emerson, and 
S. O'Donnell. 
2009. Death by dissolution: sediment saturation state as a 
mortality factor for juvenile bivalves. Limnol. Oceanogr. 
54:1037-1047. 
Green, M. A., G. G. Waldbusser, L. Hubazc, E. Cathcart, and 
J. Hall. 
2013. Carbonate mineral saturation state as the recruitment 
cue for settling bivalves in marine muds. Estuar. Coast. 
36:18—27. 
Hare, M. P., and J. R. Weinberg. 
2005. Phylogeography of surfclams, Spisula solidissima, in 
the western North Atlantic based on mitochondrial and 
nuclear DNA sequences. Mar. Biol. 146:707—716. 
Hare, M. P., J. Weinberg, O. Peterfalvy, and M. Davidson. 
2010. The “southern” surfclam (Spisula solidissima similis) 
found north of its reported range: a commercially harvested 
population in Long Island Sound, New York. J. Shellfish 
Res. 29:799-807. 
Hare, J. A., W. E. Morrison, M. W. Nelson, M. M. Stachura, 
E. J. Teeters, R. B. Griffis, M. A. Alexander, J. D. Scott, L. Alade, 
R. J. Bell, et al. 
2016. A vulnerability assessment of fish and invertebrates 
to climate change on the Northeast U.S. continental shelf. 
PLoS ONE 11(2):e0146756. 
Hartin, C. A., B. Bond-Lamberty, P. Patel, and A. Mundra. 
2016. Ocean acidification over the next three centuries using 
a simple global climate carbon-cycle model: projections and 
sensitivities. Biogeosciences 13:4329-4342. 
Honisch, B., A. Ridgwell, D. N. Schmidt, E. Thomas, S. J. Gibbs, 
A. Sluijs, R. Zeebe, L. Kump, R. C. Martindale, S. E. Greene, et al. 
2012. The geological record of ocean acidification. Science 
335:1058-1063. 
