date: 2016-06-30T13:51:56Z
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pdf:docinfo:title: Climate change reduces warming potential of nitrous oxide by an enhanced Brewer-Dobson circulation
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subject: ATMOSPHERIC COMPOSITION AND STRUCTURE: Middle atmosphere: constituent transport and chemistry, Biosphere/atmosphere interactions, Evolution of the atmosphere, Middle atmosphere: energy deposition; GEODESY AND GRAVITY: Global change from geodesy; GLOBAL CHANGE: Atmosphere, Global climate models, Impacts of global change; ATMOSPHERIC PROCESSES: Middle atmosphere dynamics, Global climate models; NATURAL HAZARDS: Climate impact; PALEOCEANOGRAPHY: Global climate models
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dc:title: Climate change reduces warming potential of nitrous oxide by an enhanced Brewer-Dobson circulation
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cp:subject: ATMOSPHERIC COMPOSITION AND STRUCTURE: Middle atmosphere: constituent transport and chemistry, Biosphere/atmosphere interactions, Evolution of the atmosphere, Middle atmosphere: energy deposition; GEODESY AND GRAVITY: Global change from geodesy; GLOBAL CHANGE: Atmosphere, Global climate models, Impacts of global change; ATMOSPHERIC PROCESSES: Middle atmosphere dynamics, Global climate models; NATURAL HAZARDS: Climate impact; PALEOCEANOGRAPHY: Global climate models
pdf:docinfo:custom:WPS-ARTICLEDOI: 10.1002/2016GL068390
pdf:docinfo:subject: ATMOSPHERIC COMPOSITION AND STRUCTURE: Middle atmosphere: constituent transport and chemistry, Biosphere/atmosphere interactions, Evolution of the atmosphere, Middle atmosphere: energy deposition; GEODESY AND GRAVITY: Global change from geodesy; GLOBAL CHANGE: Atmosphere, Global climate models, Impacts of global change; ATMOSPHERIC PROCESSES: Middle atmosphere dynamics, Global climate models; NATURAL HAZARDS: Climate impact; PALEOCEANOGRAPHY: Global climate models
pdf:docinfo:creator: Daniela Kracher, Christian H. Reick, Elisa Manzini, Martin G. Schultz, Olaf Stein
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dc:description: ATMOSPHERIC COMPOSITION AND STRUCTURE: Middle atmosphere: constituent transport and chemistry, Biosphere/atmosphere interactions, Evolution of the atmosphere, Middle atmosphere: energy deposition; GEODESY AND GRAVITY: Global change from geodesy; GLOBAL CHANGE: Atmosphere, Global climate models, Impacts of global change; ATMOSPHERIC PROCESSES: Middle atmosphere dynamics, Global climate models; NATURAL HAZARDS: Climate impact; PALEOCEANOGRAPHY: Global climate models
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Keywords: 10.1002/2016GL068390 and nitrous oxide; Brewer Dobson circulation; global warming potential; atmospheric lifetime; ECHAM; 1pctCO2
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dc:creator: Daniela Kracher, Christian H. Reick, Elisa Manzini, Martin G. Schultz, Olaf Stein
description: ATMOSPHERIC COMPOSITION AND STRUCTURE: Middle atmosphere: constituent transport and chemistry, Biosphere/atmosphere interactions, Evolution of the atmosphere, Middle atmosphere: energy deposition; GEODESY AND GRAVITY: Global change from geodesy; GLOBAL CHANGE: Atmosphere, Global climate models, Impacts of global change; ATMOSPHERIC PROCESSES: Middle atmosphere dynamics, Global climate models; NATURAL HAZARDS: Climate impact; PALEOCEANOGRAPHY: Global climate models
dcterms:created: 2016-06-18T18:32:47Z
Last-Modified: 2016-06-30T13:51:56Z
dcterms:modified: 2016-06-30T13:51:56Z
title: Climate change reduces warming potential of nitrous oxide by an enhanced Brewer-Dobson circulation
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creator: Daniela Kracher, Christian H. Reick, Elisa Manzini, Martin G. Schultz, Olaf Stein
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