date: 2016-10-25T11:35:49Z
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pdf:docinfo:title: High atmospheric horizontal resolution eliminates the wind-driven coastal warm bias in the southeastern tropical Atlantic
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subject: Atmospheric Science; ATMOSPHERIC COMPOSITION AND STRUCTURE: Air/sea constituent fluxes; COMPUTATIONAL GEOPHYSICS: Modeling, Numerical solutions; GLOBAL CHANGE: Global climate models; INFORMATICS: Modeling; ATMOSPHERIC PROCESSES: Global climate models, Ocean/atmosphere interactions; OCEANOGRAPHY: GENERAL: Numerical modeling, Upwelling and convergences; NATURAL HAZARDS: Atmospheric; OCEANOGRAPHY: PHYSICAL: Air/sea interactions; PALEOCEANOGRAPHY: Global climate models, Upwelling
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dc:title: High atmospheric horizontal resolution eliminates the wind-driven coastal warm bias in the southeastern tropical Atlantic
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cp:subject: Atmospheric Science; ATMOSPHERIC COMPOSITION AND STRUCTURE: Air/sea constituent fluxes; COMPUTATIONAL GEOPHYSICS: Modeling, Numerical solutions; GLOBAL CHANGE: Global climate models; INFORMATICS: Modeling; ATMOSPHERIC PROCESSES: Global climate models, Ocean/atmosphere interactions; OCEANOGRAPHY: GENERAL: Numerical modeling, Upwelling and convergences; NATURAL HAZARDS: Atmospheric; OCEANOGRAPHY: PHYSICAL: Air/sea interactions; PALEOCEANOGRAPHY: Global climate models, Upwelling
pdf:docinfo:custom:WPS-ARTICLEDOI: 10.1002/2016GL070530
pdf:docinfo:subject: Atmospheric Science; ATMOSPHERIC COMPOSITION AND STRUCTURE: Air/sea constituent fluxes; COMPUTATIONAL GEOPHYSICS: Modeling, Numerical solutions; GLOBAL CHANGE: Global climate models; INFORMATICS: Modeling; ATMOSPHERIC PROCESSES: Global climate models, Ocean/atmosphere interactions; OCEANOGRAPHY: GENERAL: Numerical modeling, Upwelling and convergences; NATURAL HAZARDS: Atmospheric; OCEANOGRAPHY: PHYSICAL: Air/sea interactions; PALEOCEANOGRAPHY: Global climate models, Upwelling
pdf:docinfo:creator: Sebastian Milinski, Jürgen Bader, Helmuth Haak, Angela Cheska Siongco, Johann H. Jungclaus
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dc:description: Atmospheric Science; ATMOSPHERIC COMPOSITION AND STRUCTURE: Air/sea constituent fluxes; COMPUTATIONAL GEOPHYSICS: Modeling, Numerical solutions; GLOBAL CHANGE: Global climate models; INFORMATICS: Modeling; ATMOSPHERIC PROCESSES: Global climate models, Ocean/atmosphere interactions; OCEANOGRAPHY: GENERAL: Numerical modeling, Upwelling and convergences; NATURAL HAZARDS: Atmospheric; OCEANOGRAPHY: PHYSICAL: Air/sea interactions; PALEOCEANOGRAPHY: Global climate models, Upwelling
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dc:creator: Sebastian Milinski, Jürgen Bader, Helmuth Haak, Angela Cheska Siongco, Johann H. Jungclaus
description: Atmospheric Science; ATMOSPHERIC COMPOSITION AND STRUCTURE: Air/sea constituent fluxes; COMPUTATIONAL GEOPHYSICS: Modeling, Numerical solutions; GLOBAL CHANGE: Global climate models; INFORMATICS: Modeling; ATMOSPHERIC PROCESSES: Global climate models, Ocean/atmosphere interactions; OCEANOGRAPHY: GENERAL: Numerical modeling, Upwelling and convergences; NATURAL HAZARDS: Atmospheric; OCEANOGRAPHY: PHYSICAL: Air/sea interactions; PALEOCEANOGRAPHY: Global climate models, Upwelling
dcterms:created: 2016-10-20T00:30:29Z
Last-Modified: 2016-10-25T11:35:49Z
dcterms:modified: 2016-10-25T11:35:49Z
title: High atmospheric horizontal resolution eliminates the wind-driven coastal warm bias in the southeastern tropical Atlantic
Last-Save-Date: 2016-10-25T11:35:49Z
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creator: Sebastian Milinski, Jürgen Bader, Helmuth Haak, Angela Cheska Siongco, Johann H. Jungclaus
dc:subject: 10.1002/2016GL070530 and SST bias; southeastern tropical Atlantic; coastal orography
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