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| Early Last Interglacial ocean warming drove substantial ice mass loss from Antarctica [期刊论文]
Proceedings of the National Academy of Sciences of the United States of America, 2020-01-01, 117 (8
Turney C.S.M.; Fogwill C.J.; Golledge N.R.; McKay N.P.; van Sebille E.; Jones R.T.; Etheridge D.; Rubino M.; Thornton D.P.; Davies S.M.; Ramsey C.B.; Thomas Z.A.; Bird M.I.; Munksgaard N.C.; Kohno M.; Woodward J.; Winter K.; Weyrich L.S.; Rootes C.M.; Millman H.; Albert P.G.; Rivera A.; van Ommen T.; Curran M.; Moy A.; Rahmstorf S.; Kawamura K.; Hillenbrand C.-D.; Weber M.E.; Manning C.J.; Young J.; Cooper A.
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| Early Last Interglacial ocean warming drove substantial ice mass loss from Antarctica [期刊论文]
Proceedings of the National Academy of Sciences of the United States of America, 2020-01-01, 117 (8
Turney C.S.M.; Fogwill C.J.; Golledge N.R.; McKay N.P.; van Sebille E.; Jones R.T.; Etheridge D.; Rubino M.; Thornton D.P.; Davies S.M.; Ramsey C.B.; Thomas Z.A.; Bird M.I.; Munksgaard N.C.; Kohno M.; Woodward J.; Winter K.; Weyrich L.S.; Rootes C.M.; Millman H.; Albert P.G.; Rivera A.; van Ommen T.; Curran M.; Moy A.; Rahmstorf S.; Kawamura K.; Hillenbrand C.-D.; Weber M.E.; Manning C.J.; Young J.; Cooper A.
View/Download:20/0
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| Early Last Interglacial ocean warming drove substantial ice mass loss from Antarctica [期刊论文]
Proceedings of the National Academy of Sciences of the United States of America, 2020-01-01, 117 (8
Turney C.S.M.; Fogwill C.J.; Golledge N.R.; McKay N.P.; van Sebille E.; Jones R.T.; Etheridge D.; Rubino M.; Thornton D.P.; Davies S.M.; Ramsey C.B.; Thomas Z.A.; Bird M.I.; Munksgaard N.C.; Kohno M.; Woodward J.; Winter K.; Weyrich L.S.; Rootes C.M.; Millman H.; Albert P.G.; Rivera A.; van Ommen T.; Curran M.; Moy A.; Rahmstorf S.; Kawamura K.; Hillenbrand C.-D.; Weber M.E.; Manning C.J.; Young J.; Cooper A.
View/Download:21/0
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| Early Last Interglacial ocean warming drove substantial ice mass loss from Antarctica [期刊论文]
Proceedings of the National Academy of Sciences of the United States of America, 2020-01-01, 117 (8
Turney C.S.M.; Fogwill C.J.; Golledge N.R.; McKay N.P.; van Sebille E.; Jones R.T.; Etheridge D.; Rubino M.; Thornton D.P.; Davies S.M.; Ramsey C.B.; Thomas Z.A.; Bird M.I.; Munksgaard N.C.; Kohno M.; Woodward J.; Winter K.; Weyrich L.S.; Rootes C.M.; Millman H.; Albert P.G.; Rivera A.; van Ommen T.; Curran M.; Moy A.; Rahmstorf S.; Kawamura K.; Hillenbrand C.-D.; Weber M.E.; Manning C.J.; Young J.; Cooper A.
View/Download:23/0
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| A framework to assess evolutionary responses to anthropogenic light and sound [期刊论文]
Trends in Ecology and Evolution, 2015-01-01, 30 (9
Swaddle J.P.; Francis C.D.; Barber J.R.; Cooper C.B.; Kyba C.C.M.; Dominoni D.M.; Shannon G.; Aschehoug E.; Goodwin S.E.; Kawahara A.Y.; Luther D.; Spoelstra K.; Voss M.; Longcore T.
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| Intercomparison of oil spill prediction models for accidental blowout scenarios with and without subsea chemical dispersant injection [期刊论文]
Marine Pollution Bulletin, 2015-01-01, 96 (2018-01-02
Socolofsky S.A.; Adams E.E.; Boufadel M.C.; Aman Z.M.; Johansen T.; Konkel W.J.; Lindo D.; Madsen M.N.; North E.W.; Paris C.B.; Rasmussen D.; Reed M.; Rønningen P.; Sim L.H.; Uhrenholdt T.; Anderson K.G.; Cooper C.; Nedwed T.J.
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