Dataset:
Impact of changes in southern hemisphere westerlies on Southern Ocean CO2 uptake

dc.date.accessioned 2021-11-26T09:55:03Z
dc.date.available 2021-11-26T09:55:03Z
dc.date.issued 2020 en_US
dc.description.abstract Impact of changes in southern hemisphere westerlies on Southern Ocean CO2 uptake as simulated in an eddy-permitting ocean, sea-ice, carbon cycle model. A series of wind perturbation experiments is performed and the impact on anthropogenic and natural CO2 fluxes is investigated. Changes in DIC are also studied. en_US
dc.identifier.uri http://hdl.handle.net/1959.4/resource/collection/resdatac_1051/1
dc.language English
dc.language.iso EN en_US
dc.rights CC-BY-ND en_US
dc.rights.uri https://creativecommons.org/licenses/by-nd/4.0/ en_US
dc.subject.other southern hemispheric westerlies en_US
dc.subject.other Atmospheric CO2 en_US
dc.subject.other Southern Ocean CO2 sink en_US
dc.title Impact of changes in southern hemisphere westerlies on Southern Ocean CO2 uptake en_US
dc.type Dataset en_US
dcterms.accessRights open access
dcterms.accrualMethod Eddy-permitting ocean, sea-ice, carbon cycle model forced by different wind forcings, including the core 2 IAF, and core 2 NYF, as well as 3 perturbation experiments with abrupt changes in SH westerly strength and positiion. en_US
dcterms.rightsHolder Copyright 2020, University of New South Wales en_US
dspace.entity.type Dataset en_US
unsw.accessRights.uri https://purl.org/coar/access_right/c_abf2
unsw.contributor.leadChiefInvestigator Menviel, Laurie en_US
unsw.contributor.researchDataCreator Spence, Paul en_US
unsw.contributor.researchDataCreator Waugh, Darryn en_US
unsw.coverage.temporalFrom 1948 en_US
unsw.coverage.temporalTo 2007 en_US
unsw.description.storageplace CCRC, Science en_US
unsw.identifier.doi https://doi.org/10.26190/5f31f0318a5c8 en_US
unsw.relation.FunderRefNo FT180100606
unsw.relation.OriginalPublicationAffiliation Menviel, Laurie, Biological| Earth & Env Sci, Faculty of Science, en_US
unsw.relation.OriginalPublicationAffiliation Spence, Paul, , University of Sydney, en_US
unsw.relation.OriginalPublicationAffiliation Waugh, Darryn, , John Hopkins University, en_US
unsw.relation.faculty Science
unsw.relation.fundingAgency AUSTRALIAN RESEARCH COUNCIL
unsw.relation.fundingScheme FUTURE FELLOWSHIP
unsw.relation.projectDesc the oceanic circulation varied significantly over the last glacial cycle (~140,000 years) and is expected to change over the coming centuries due to rising atmospheric co2. this project aims to understand the impact of changes in ocean circulation on marine biogeochemistry, climate and ultimately the antarctic ice-sheet by combining transient simulations of the last glacial cycle performed with an earth system model with compilation of paleoproxy records. the impact of future changes in oceanic circulation on ocean acidification and oxygen content will be further assessed with a state-of-the-art high-resolution ocean, carbon cycle model. this project will lead to improved understanding of processes and feedbacks within the earth system.
unsw.relation.projectEndDate 2023-02-28
unsw.relation.projectStartDate 2019-02-28
unsw.relation.projectTitle past to future changes in ocean dynamics and biogeochemistry en_US
unsw.relation.school School of Biological, Earth & Environmental Sciences
unsw.relation.unswGrantNo RG173035
unsw.subject.SEOcode 960304 Climate Variability (excl. Social Impacts) en_US
unsw.subject.SEOcode 961104 Physical and Chemical Conditions of Water in Marine Environments en_US
unsw.subject.SEOcode 970104 Expanding Knowledge in the Earth Sciences en_US
unsw.subject.fieldofresearchcode 040605 Palaeoclimatology en_US
unsw.subject.fieldofresearchcode 040104 Climate Change Processes en_US
unsw.subject.fieldofresearchcode 040502 Chemical Oceanography en_US
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