{"id":795,"date":"2013-06-15T14:23:05","date_gmt":"2013-06-15T14:23:05","guid":{"rendered":"http:\/\/www.reefrelieffounders.com\/science\/?p=795"},"modified":"2013-06-15T14:50:40","modified_gmt":"2013-06-15T14:50:40","slug":"seaweb-via-coral-list-marine-science-review-contaminants-and-pollution-ocean-acidification","status":"publish","type":"post","link":"https:\/\/www.reefrelieffounders.com\/science\/2013\/06\/15\/seaweb-via-coral-list-marine-science-review-contaminants-and-pollution-ocean-acidification\/","title":{"rendered":"Seaweb via Coral-list: Marine Science Review Contaminants and Pollution – Ocean Acidification"},"content":{"rendered":"

Ahh, the power of the internet and open sources. For anyone studying ocean acidification, this is a nirvana of resources. DV <\/em> <\/p>\n

From: SeaWeb
\nDate: Wed, Jun 12, 2013 at 9:01 AM<\/p>\n

June 11, 2013<\/p>\n

OA indicates an open access article or journal.<\/p>\n

– *Ocean acidification limits temperature-induced poleward expansion of coral habitats around Japan.
\n **Biogeosciences* 9(12): 4955-4968, 2012. *OA*
\n <\/p>\n

– *Observed acidification trends in North Atlantic water masses. **
\n Biogeosciences* 9(12): 5217-5230, 2012. *OA*
\n <\/p>\n

– *Spatiotemporal variability and long-term trends of ocean acidification in the California Current System.
\n **Biogeosciences*10(1): 193-216, 2013.*OA*
\n <\/p>\n

– *High tolerance of microzooplankton to ocean acidification in an Arctic coastal plankton community.
\n **Biogeosciences* 10(3): 1471-1481, 2013. *OA*
\n <\/p>\n

– *Short- and long-term consequences of larval stage exposure to constantly and ephemerally elevated carbon dioxide for
\n marine bivalve populations. **Biogeosciences* 10(4): 2241-2253, 2013. *OA*
\n <\/p>\n

– *Influence of ocean warming and acidification on trace metal biogeochemistry.
\n **Marine Ecology Progress Series* 470: 191-205, 2012. *OA*
\n <\/p>\n

– *Responses of marine primary producers to interactions between ocean acidification, solar radiation, and warming.
\n **Marine Ecology Progress Series* 470: 167-189, 2012. *OA*
\n <\/p>\n

– *Marine life on acid. **BioScience* 63(5): 322-328, 2013.
\n <\/p>\n

– *Red coral extinction risk enhanced by ocean acidification. **Scientific Reports* 3: art. 1457, 2013. *OA*
\n <\/p>\n

– *Dolomite-rich coralline algae in reefs resist dissolution in acidified conditions.
\n **Nature Climate Change* 3(3): 268-272, 2013.
\n <\/p>\n

– *Variation in plastic responses of a globally distributed picoplankton species to ocean acidification.
\n **Nature Climate Change* 3(3): 298-302, 2013.
\n <\/p>\n

– *Effects of ocean acidification on the embryos and larvae of red king crab, Paralithodes camtschaticus.
\n **Marine Pollution Bulletin* 69(1-2): 38-47, 2013.
\n <\/p>\n

– *Temperature and CO2 additively regulate physiology, morphology and genomic responses of larval sea urchins,
\n Strongylocentrotus purpuratus. **Proceedings of the Royal Society of London [B]* 280(1759): art. 20130155, 2013.
\n <\/p>\n

– *Addressing ocean acidification as part of sustainable ocean development. **Ocean Yearbook* 27: 29-46, 2013.
\n <\/p>\n

– *The marine inorganic carbon system along the Gulf of Mexico and Atlantic coasts of the United States: Insights from a
\n transregional coastal carbon study. **Limnology and Oceanography* 58(1): 325-342, 2013. *OA*
\n <\/p>\n

– *The responses of eight coral reef calcifiers to increasing partial pressure of CO2 do not exhibit a tipping point.
\n **Limnology and Oceanography* 58(1): 388-398, 2013. *OA*
\n <\/p>\n

– *Concentration boundary layers around complex assemblages of macroalgae: Implications for the effects of ocean
\n acidification on understory coralline algae. **Limnology and Oceanography* 58(1):121-130, 2013.
\n <\/p>\n

– *Interactive effects of elevated temperature and CO2 levels on metabolism and oxidative stress in two common marine
\n bivalves (Crassostrea virginica and Mercenaria mercenaria).
\n **Comparative Biochemistry and Physiology Part A: Molecular and Integrative Physiology* 164(4):545-553, 2013.
\n <\/p>\n

– *CO2-driven seawater acidification differentially affects development and molecular plasticity along life history of fish
\n (Oryzias latipes). *
\n *Comparative Biochemistry and Physiology Part A: Molecular and Integrative Physiology* 165(2): 119-130, 2013.
\n <\/p>\n

– *Preparing to manage coral reefs for ocean acidification: lessons from coral bleaching.
\n **Frontiers in Ecology and the Environment* 11(1): 20-27, 2013.
\n <\/p>\n

– *Marine fungi may benefit from ocean acidification. **Aquatic Microbial Ecology* 69(1): 59-67, 2013.
\n <\/p>\n

– *Effects of ocean acidification on early life-history stages of the intertidal porcelain crab Petrolisthes cinctipes.
\n **Journal of Experimental Biology* 216(8): 1405-1411, 2013.
\n <\/p>\n

– *Impact of ocean acidification on metabolism and energetics during early life stages of the intertidal porcelain crab
\n Petrolisthes cinctipes. **Journal of Experimental Biology* 216(8): 1412-1422, 2013.
\n <\/p>\n

– *Response to ocean acidification in larvae of a large tropical marine fish, Rachycentron canadum. **Global Change Biology*
\n 19(4): 996-1006, 2013.
\n <\/p>\n

– *Interacting effects of ocean acidification and warming on growth and DMS-production in the haptophyte coccolithophore
\n Emiliania huxleyi.
\n **Global Change Biology* 19(4): 1007-1016, 2013.
\n <\/p>\n

– *Food availability outweighs ocean acidification effects in juvenile Mytilus edulis: laboratory and field experiments.
\n **Global Change Biology*19(4): 1017-1027, 2013.
\n <\/p>\n

– *Anthropogenic changes to seawater buffer capacity combined with natural reef metabolism induce extreme future coral reef
\n CO2 conditions. **Global Change Biology *19(5): 1632-1641, 2013.
\n <\/p>\n

– *Impacts of ocean acidification on marine organisms: quantifying sensitivities and interaction with warming.
\n **Global Change Biology*19(6): 1884-1896, 2013.*OA*
\n <\/p>\n

– *Detrimental effects of ocean acidification on the economically important Mediterranean red coral (Corallium rubrum).
\n **Global Change Biology* 19(6): 1897-1908, 2013.
\n <\/p>\n

– *Ocean acidification and warming scenarios increase micro-bioerosion of coral skeletons.
\n **Global Change Biology* 19(6):1919-1929, 2013.
\n <\/p>\n

– *Vulnerability of the calcifying larval stage of the Antarctic sea urchin Sterechinus neumayeri to near-future ocean
\n acidification and warming. **Global Change Biology *19(7): 2264-2275, 2013.
\n <\/p>\n

– *Does elevated pCO2 affect reef octocorals? **Ecology and Evolution*3(3): 465-473, 2013. *OA*
\n <\/p>\n

– *One-year experiment on the physiological response of the Mediterranean crustose coralline alga, Lithophyllum cabiochae, to
\n elevated pCO2 and temperature. **Ecology and Evolution* 3(3): 676-693, 2013. *OA*
\n <\/p>\n

– *Meta-analysis reveals complex marine biological responses to the interactive effects of ocean acidification and warming.
\n **Ecology and Evolution* 3(4): 1016-1030, 2013. *OA*
\n <\/p>\n

– *Near-future ocean acidification causes differences in microbial associations within diverse coral reef taxa.
\n **Environmental Microbiology Reports* 5(2): 243-251, 2013.
\n <\/p>\n

– *Consequences of increased temperature and acidification on bacterioplankton community composition during a mesocosm spring
\n bloom in the Baltic Sea. **Environmental Microbiology Reports* 5(2): 252-262, 2013.
\n <\/p>\n

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\nresearch at editor@seaweb.org so that we can highlight your work.<\/p>\n","protected":false},"excerpt":{"rendered":"

Ahh, the power of the internet and open sources. For anyone studying ocean acidification, this is a nirvana of resources. DV From: SeaWeb Date: Wed, Jun 12, 2013 at 9:01 AM June 11, 2013 OA indicates an open access article or journal. – *Ocean acidification limits temperature-induced poleward expansion of coral habitats around Japan. **Biogeosciences* … Continue reading Seaweb via Coral-list: Marine Science Review Contaminants and Pollution – Ocean Acidification<\/span> →<\/span><\/a><\/p>\n","protected":false},"author":1,"featured_media":0,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"footnotes":"","_links_to":"","_links_to_target":""},"categories":[1],"tags":[],"class_list":["post-795","post","type-post","status-publish","format-standard","hentry","category-uncategorized"],"aioseo_notices":[],"_links":{"self":[{"href":"https:\/\/www.reefrelieffounders.com\/science\/wp-json\/wp\/v2\/posts\/795","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.reefrelieffounders.com\/science\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/www.reefrelieffounders.com\/science\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/www.reefrelieffounders.com\/science\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.reefrelieffounders.com\/science\/wp-json\/wp\/v2\/comments?post=795"}],"version-history":[{"count":4,"href":"https:\/\/www.reefrelieffounders.com\/science\/wp-json\/wp\/v2\/posts\/795\/revisions"}],"predecessor-version":[{"id":799,"href":"https:\/\/www.reefrelieffounders.com\/science\/wp-json\/wp\/v2\/posts\/795\/revisions\/799"}],"wp:attachment":[{"href":"https:\/\/www.reefrelieffounders.com\/science\/wp-json\/wp\/v2\/media?parent=795"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/www.reefrelieffounders.com\/science\/wp-json\/wp\/v2\/categories?post=795"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/www.reefrelieffounders.com\/science\/wp-json\/wp\/v2\/tags?post=795"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}