Synoptic-scale variability of surface winds and ocean response to atmospheric forcing in the eastern austral Pacific Ocean
Abstract
In the Southern Hemisphere, macroscale atmospheric systems such as westerly winds and the southeast Pacific subtropical anti-cyclone (SPSA) influence the wind regime of the eastern austral Pacific Ocean. The average and seasonal behaviors of these systems are well known, although wind variability at different time and distance scales remains largely unexamined. Therefore, the main goal of this study was to determine the variabilities of surface winds on a spatiotemporal scale from 40 to 56 degrees S, using QuikSCAT, Advanced Scatterometer (ASCAT), and the fifth major global European Centre for Medium-Range Weather Forecasts (ECMWF) reanalysis (ERAS) surface-wind information complemented with in situ meteorological data. In addition, interactions between the atmospheric systems, together with the ocean-atmosphere response, were evaluated for the period 1999-2018. The empirical orthogonal function detected dominance at the synoptic scale in mode 1, representing approximately 30 % of the total variance. In this mode, low and high atmospheric pressure systems characterized wind variability for a 16.5 d cycle. Initially, mode 2 - which represents approximately 22 % of the variance - was represented by winds from the west/east (43-56 degrees S), occur-ring mostly during spring and summer/fall and winter at an annual timescale (1999-2008) until they were replaced by systems cycling at 27.5 d (2008-2015). This reflects the influence of the baroclinic annular mode in the Southern Hemisphere. Mode 3, representing approximately 15 % of the variance, involved the passage of small-scale low and high atmospheric pressure (LAP and HAP) systems throughout Patagonia. Persistent Ekman suction occurred throughout the year south of the Gulf of Penas and beyond the Pacific mouth of the Strait of Magellan. Easterly Ekman transport (ET) piled these upwelled waters onto the western shore of South America when winds blew southward. These physical mechanisms were essential in bringing nutrients to the surface and then transporting planktonic organisms from the oceanic zone to Patagonian fjords and channels In the zonal band between 41 and 43 degrees S, the latitude of Chiloe Island, upward Ekman pumping and Ekman transport during spring and summer favored a reduced sea surface temperature and increased chlorophyll a (Chl a) levels; this is the first time that such Ekman upwelling conditions have been reported so far south in the eastern Pacific Ocean. The influence of the northward-migrating LAP systems on the ocean-atmosphere interphase allowed us to understand, for the first time, their direct relationship with recorded nighttime air temperature maxima (locally referred to as "nighttime heatwave events"). In the context of global climate change, greater attention should be paid to these processes based on their possible impact on the rate of glacier melting and on the austral climate.
Más información
Título según WOS: | Synoptic-scale variability of surface winds and ocean response to atmospheric forcing in the eastern austral Pacific Ocean |
Título según SCOPUS: | Synoptic-scale variability of surface winds and ocean response to atmospheric forcing in the eastern austral pacific ocean |
Título de la Revista: | OCEAN SCIENCE |
Volumen: | 15 |
Número: | 5 |
Editorial: | Copernicus Gesellschaft mbH |
Fecha de publicación: | 2019 |
Página de inicio: | 1247 |
Página final: | 1266 |
Idioma: | English |
DOI: |
10.5194/os-15-1247-2019 |
Notas: | ISI, SCOPUS |