about
Sizing ocean giants: patterns of intraspecific size variation in marine megafaunaEndemicity, biogeograhy, composition, and community structure on a northeast pacific seamountBiodiversity and body size are linked across metazoansTen simple rules for effective online outreachMetabolic dominance of bivalves predates brachiopod diversity decline by more than 150 million yearsEnergetics of life on the deep seafloorSpecies-energy relationships in deep-sea molluscsThe dynamics of biogeographic ranges in the deep seaTwo-phase increase in the maximum size of life over 3.5 billion years reflects biological innovation and environmental opportunityExtinctions. Paleontological baselines for evaluating extinction risk in the modern oceans.A source-sink hypothesis for abyssal biodiversity.Habitat heterogeneity, disturbance, and productivity work in concert to regulate biodiversity in deep submarine canyons.Beta-diversity on deep-sea wood falls reflects gradients in energy availabilityPractices and promises of Facebook for science outreach: Becoming a "Nerd of Trust".Extinctions in ancient and modern seas.Science incubators: synthesis centers and their role in the research ecosystem.A critical evaluation of science outreach via social media: its role and impact on scientistsMarine extinction risk shaped by trait-environment interactions over 500 million years.Unravelling the determinants of insular body size shifts.The evolutionary consequences of oxygenic photosynthesis: a body size perspective.Evolution of the indoor biome.Increased energy promotes size-based niche availability in marine mollusks.Dispersal, environmental niches and oceanic-scale turnover in deep-sea bivalves.Does energy availability predict gastropod reproductive strategies?Energetic increases lead to niche packing in deep-sea wood fallsDigital Environmentalism: Tools and Strategies for the Evolving Online EcosystemPersistent and substantial impacts of the Deepwater Horizon oil spill on deep-sea megafaunaAlligators in the abyss: The first experimental reptilian food fall in the deep ocean
P50
Q21128701-2B9BC091-8399-4005-B125-3BA1BDAA779EQ21143891-D4E7F66A-C11D-4372-815D-A157ABE04DC4Q24649928-670E2EBF-DD56-4CDC-8DBC-803AA4CEAACCQ28649586-051E9776-6E9C-496D-B29E-11DD489314C2Q28658466-9D55A920-C598-4F7A-903F-6D27119BE518Q28727464-5CACA253-C9F7-4CDF-B408-FD320A65ABE8Q28740613-130770E2-F562-419D-8F42-BCFF239B947DQ28748345-5CAC218A-1DD9-493F-B6FC-6EB3E3E653B3Q28756066-0C8249A8-78D2-4323-8C19-7420BBA77832Q30941725-D09D3BC0-EF34-40F2-B460-0657C00E8CFCQ31149802-3EE672BC-6DEB-414A-A094-348602942E3EQ33576153-4A1D41A4-81BE-4F6D-BB16-6B455FA4EE4BQ33580959-2F3C939E-D7A9-4BA1-A390-2DC539337D15Q33842028-BD43DC3D-9E79-48CA-A0EA-1481B1FDF1A8Q34378649-F1F1A1EB-9DB6-48D9-8A8D-5294FDFCDA85Q34555563-10919C92-EA7A-45F9-A211-BA263924C2D1Q35223178-25E1E5EC-1243-40D8-88F4-8F3E5EBBE731Q35696954-FB1F7131-CCCC-443C-9749-720818C3F720Q36590564-5D6F904B-8C9E-450D-A52A-D180C2DDBC19Q37785859-E2D636E6-1343-4F10-878F-836556E48B07Q38377563-97324821-2ECA-4775-BD65-BFC82F67EC16Q47300191-F1A26377-DA42-4488-B983-7E85293AE0FEQ51467151-811597E9-1527-418E-BAFF-5F8778057C76Q55092569-D56725CA-3F9B-4320-B7C1-D81DC711D7C3Q57086572-D94008D0-9BA7-41C4-ACC1-071C487CE519Q58039083-C6CFC150-39AB-43A0-8EEB-E2EB1062CA89Q90619391-00E9CBA0-D2D0-4579-94A5-3DF8AC72B310Q92149813-EAC40029-F01F-41CA-8A21-C0927F3F088D
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Craig McClain
@fr
Craig R McClain
@nl
Craig R McClain
@sl
Craig R. McClain
@en
Craig R. McClain
@es
type
label
Craig McClain
@fr
Craig R McClain
@nl
Craig R McClain
@sl
Craig R. McClain
@en
Craig R. McClain
@es
prefLabel
Craig McClain
@fr
Craig R McClain
@nl
Craig R McClain
@sl
Craig R. McClain
@en
Craig R. McClain
@es
P106
P1153
7102016431
P21
P31
P496
0000-0003-0574-428X