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dc.contributor.authorSulca, Juan
dc.contributor.authorVuille, Mathias
dc.contributor.authorRoundy, Paul
dc.contributor.authorTakahashi, Ken
dc.contributor.authorEspinoza, J.C.
dc.contributor.authorSilva, Yamina
dc.contributor.authorTrasmonte, Grace
dc.contributor.authorZubieta, R.
dc.date.accessioned2020-01-30T20:56:56Z
dc.date.available2020-01-30T20:56:56Z
dc.date.issued2018-08-30
dc.identifier.citationSulca Juan, Vuille Mathias, Roundy Paul y otros (2018) Climatology of extreme cold events in the central Peruvian Andes during austral summer: origin, types and teleconnections. Quarterly Journal of the Royal Meteorological Society. 2018;144:2693-2714. https://doi.org.org/10.1002/qj.3398en_US
dc.identifier.urihttps://hdl.handle.net/20.500.12542/227
dc.description.abstractThe climatological and large‐scale characteristics of the extreme cold events (ECEs) in the central Peruvian Andes (Mantaro basin (MB)) during austral summer (January–March) are examined using reanalysis, gridded and in situ surface minimum temperature (Tmin) data for the 1979–2010 period. To describe the influence of the Madden–Julian Oscillation (MJO) on ECEs in the MB, two ECE groups are defined on the basis of the sign of the outgoing long‐wave radiation (OLR) anomalies in the MJO band (30–100 days, 0–9 eastward) at 12.5°S, 75°W. Type‐1 ECEs occur during the suppressed convection phase of the MJO (OLR anomalies ≥+2 W/m2) while Type‐2 ECEs occur during the enhanced convection phase of the MJO (OLR anomalies ≤−2 W/m2). ECEs in the MB are associated with the advection of cold and dry air along the east of the Andes through equatorward propagation of extratropical Rossby wave trains (ERWTs). This cold advection weakens the Bolivian High–Nordeste Low (BH‐NL) system over South America (SA) at upper‐tropospheric levels. The MJO is an important driver of ECEs in the MB, favouring the cold advection along the Andes during specific MJO phases. Fifty‐nine per cent of Type‐1 ECE's and 86% of Type‐2 ECE's occur in MJO Phases 7‐2. Type‐1 and 2 ECEs feature a weakened BH over SA at upper‐tropospheric levels. For Type‐1, ERWTs emanate from southeastern Africa in MJO Phases 8‐1 while ERWTs are strengthened when crossing the subtropical southern Pacific Ocean during MJO Phases 2 and 7. With respect to Type‐2, MJO Phases 7‐2 feature circumpolar Rossby wave trains propagating toward SA. Ultimately, MJO Phases 7‐2 induce negative Tmin anomalies over MB, while MJO Phases 3‐6 induce positive Tmin anomalies. El Niño and La Niña strengthen negative Tmin anomalies over the MB during MJO Phases 7‐8 while they weaken positive Tmin anomalies over the MB during MJO Phases 3‐6.en_US
dc.language.isoengen_US
dc.publisherRoyal Meteorological Societyen_US
dc.relation.ispartofurn:issn:1477-870X
dc.rightsinfo:eu-repo/semantics/openAccess*
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/3.0/us/*
dc.sourceRepositorio Institucional - SENAMHI
dc.sourceServicio Nacional de Meteorología e Hidrología del Perú
dc.subjectClimatología
dc.subjectENSOen_US
dc.subjectAndesen_US
dc.subjectZonas Climáticas
dc.subjectTeleconnection
dc.subjectTipos Climáticos
dc.titleClimatology of extreme cold events in the central Peruvian Andes during austral summer: origin, types and teleconnections
dc.typeinfo:eu-repo/semantics/article
dc.identifier.isni0000 0001 0746 0446
dc.description.peerreviewPor pares
dc.identifier.doihttps://doi.org/10.1002/qj.3398
dc.identifier.journalQuarterly Journal of the Royal Meteorological Society
dc.subject.siniavariabilidad climatica - Clima y Eventos Naturales
dc.type.siniatext/publicacion cientifica
dc.identifier.urlhttps://hdl.handle.net/20.500.12542/227


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