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dc.contributor.authorReboita, Michelle Simões
dc.contributor.authorNieto Muñiz, Raquel Olalla 
dc.contributor.authorRocha, Rosmeri Porfírio da
dc.contributor.authorRodrigues De Moraes Drumond, Anita 
dc.contributor.authorVázquez Domínguez, Marta 
dc.contributor.authorGimeno Presa, Luis 
dc.date.accessioned2021-05-11T18:42:23Z
dc.date.available2021-05-11T18:42:23Z
dc.date.issued2019-10-17
dc.identifier.citationAtmosphere, 10(10): 627 (2019)spa
dc.identifier.issn20734433
dc.identifier.urihttp://hdl.handle.net/11093/2124
dc.description.abstractIn this study, the moisture sources acting over each sea (Weddell, King Haakon VII, East Antarctic, Amundsen-Bellingshausen, and Ross-Amundsen) of the Southern Ocean during 1980–2015 are identified with the FLEXPART Lagrangian model and by using two approaches: backward and forward analyses. Backward analysis provides the moisture sources (positive values of Evaporation minus Precipitation, E − P > 0), while forward analysis identifies the moisture sinks (E − P < 0). The most important moisture sources for the austral seas come from midlatitude storm tracks, reaching a maximum between austral winter and spring. The maximum in moisture sinks, in general, occurs in austral end-summer/autumn. There is a negative correlation (higher with 2-months lagged) between moisture sink and sea ice concentration (SIC), indicating that an increase in the moisture sink can be associated with the decrease in the SIC. This correlation is investigated by focusing on extremes (high and low) of the moisture sink over the Weddell Sea. Periods of high (low) moisture sinks show changes in the atmospheric circulation with a consequent positive (negative) temperature anomaly contributing to decreasing (increasing) the SIC over the Weddell Sea. This study also suggests possible relationships between the positive (negative) phase of the Southern Annular Mode with the increase (decrease) in the moisture that travels from the midlatitude sources to the Weddell Sea.en
dc.description.sponsorshipFundação de Amparo à Pesquisa do Estado de São Paulo | Ref. 2017/03981-3spa
dc.description.sponsorshipConselho Nacional de Desenvolvimento Científico e Tecnológico (Brazil) | Ref. 304949/2018-3spa
dc.description.sponsorshipXunta de Galicia | Ref. ED481B 2018/062spa
dc.description.sponsorshipXunta de Galicia | Ref. Ref. ED413C 2017/64spa
dc.description.sponsorshipEuropean Commissionspa
dc.language.isoengen
dc.publisherAtmospherespa
dc.rightsAttribution 4.0 International
dc.rights.urihttps://creativecommons.org/licenses/by/4.0/
dc.titleCharacterization of moisture sources for austral seas and relationship with sea ice concentrationen
dc.typearticlespa
dc.rights.accessRightsopenAccessspa
dc.identifier.doi10.3390/atmos10100627
dc.identifier.editorhttps://www.mdpi.com/2073-4433/10/10/627spa
dc.publisher.departamentoFísica aplicadaspa
dc.publisher.grupoinvestigacionEphysLabspa
dc.subject.unesco25 Ciencias de la Tierra y del Espaciospa
dc.subject.unesco2501 Ciencias de la Atmósferaspa
dc.subject.unesco2501.06 Dinámica Atmosféricaspa
dc.subject.unesco2502 Climatologíaspa
dc.date.updated2021-05-10T11:26:30Z
dc.computerCitationpub_title=Atmosphere|volume=10|journal_number=10|start_pag=627|end_pag=spa
dc.referencesThis research was funded by FAPESP grant number 2017/03981-3, CNPq grant number 304949/2018-3, Xunta de Galicia grant number ED413C 2017/64 “Programa de Consolidación e Estructuración de Unidades de Investigación Competitivas (Grupos de Referencia Competitiva)’’ co-funded by the European Regional Development Fund (FEDER). M.V was supported by the Xunta de Galicia under grant ED481B 2018/062.spa


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    Attribution 4.0 International
    Except where otherwise noted, this item's license is described as Attribution 4.0 International