quarta-feira, 11 de agosto de 2010

La Niña: A maioría dos modelos preveêm o desenvolvimento das condicões de La Niña, anomalías de SST menor ou igual a 0.5°C na região de El Niño-3.4 durante o mês Agosto e até princípios de 2011

Cortesia de NOAA
As condições de La Niña são prováveis que se desenvolvam durante o mês de Agosto de 2010.

Durante o mês de Julho de 2010, as anomalías positivas da temperatura da superficie do oceano equatorial (SST pelas siglas em inglês) continuavam a diminuir através do oceano Pacífico equatorial, com anomalías negativas expandindo-se através del Pacífico central y oriental, ver Fig. 1. Todos os índices de El Niño foram mais baixos comparados com os meses anteriores, ver Fig.2. O conteúdo calórico da subsuperficie do oceano, temperatura média nos 300m superiores do oceano, ver Fig.3, também permaneceu abaixo da médio durante o mês. As anomalías na temperatura da subsuperficie do oceano, tornaram-se negativas no Pacífico equatorial leste-central e estendem-se para a superficie através da metade leste da região, ver Fig.4. Os ventos alisios de leste nos níveis baixos e as anomalías nos ventos de oeste nos níveis altos prevaleceram sobre o Pacífico equatorial ocidental e central. Colectivamente, estas anomalías oceânicas e atmosféricas reflectem o desenvolvimento das condicões de La Niña.

A maioría dos modelos preveêm o desenvolvimento das condicões de La Niña, anomalías de SST menor ou igual a 0.5°C na região de El Niño-3.4 durante o mês Agosto e até princípios de 2011, ver Fig. 6
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EL NIÑO/SOUTHERN OSCILLATION (ENSO) DIAGNOSTIC DISCUSSION
issued by CLIMATE PREDICTION CENTER/NCEP/NWS
5 August 2010
ENSO Alert System Status: La Niña Advisory

Synopsis: La Niña conditions are expected to strengthen and last through the Northern Hemisphere winter 2010-11.

During July 2010 La Niña conditions developed, as negative sea surface temperature (SST) anomalies strengthened across the central and eastern equatorial Pacific Ocean (Fig. 1). All of the Niño indices decreased with values less than -1.0°C in Niño 1+2, 3, and 3.4 regions at the end of the month (Fig. 2). The subsurface heat content (average temperatures in the upper 300m of the ocean, Fig. 3) continued to reflect a deep layer of below-average temperatures east of the Date Line (Fig. 4). Also convection was enhanced over Indonesia, while remaining suppressed over the western and central tropical Pacific (Fig. 5). Enhanced low-level easterly trade winds and anomalous upper-level westerly winds continued over the western and central equatorial Pacific. Collectively, these oceanic and atmospheric anomalies reflect the development and strengthening of La Niña conditions.

Nearly all models predict La Niña to continue through early 2011 (Fig. 6). However, there is disagreement among the models over the eventual strength of La Niña. Most dynamical models generally predict a moderate-to-strong La Niña, while the majority of the statistical model forecasts indicate a weaker episode. Given the strong cooling observed over the last several months and the apparent ocean-atmosphere coupling (positive feedback), the dynamical model outcome of a moderate-to-strong episode is favored at this time. Therefore, La Niña conditions are expected to strengthen and last through Northern Hemisphere Winter 2010-11.

Expected La Niña impacts during August-October 2010 include suppressed convection over the central tropical Pacific Ocean, and enhanced convection over Indonesia. Temperature and precipitation impacts over the United States are typically weak during the Northern Hemisphere summer and early fall, but strengthen considerably during late fall and winter. Also, La Niña can contribute to increased Atlantic hurricane activity by decreasing the vertical wind shear over the Caribbean Sea and tropical Atlantic Ocean (see the August 5th update of the NOAA Atlantic Seasonal Hurricane Outlook).

This discussion is a consolidated effort of the National Oceanic and Atmospheric Administration (NOAA), NOAA’s National Weather Service, and their funded institutions. Oceanic and atmospheric conditions are updated weekly on the Climate Prediction Center web site (El Niño/La Niña Current Conditions and Expert Discussions). Forecasts for the evolution of El Niño/La Niña are updated monthly in the Forecast Forum section of CPC's Climate Diagnostics Bulletin. The next ENSO Diagnostics Discussion is scheduled for 9 September 2010. To receive an e-mail notification when the monthly ENSO Diagnostic Discussions are released, please send an e-mail message to: ncep.list.enso-update@noaa.gov. In Climate Prediction Center, National Centers for Environmental Prediction, NOAA/National Weather Service, Camp Springs, MD 20746-4304
Figure 1. Average sea surface temperature (SST) anomalies (°C) for the week centered on 28 July 2010. Anomalies are computed with respect to the 1971-2000 base period weekly means (Xue et al. 2003, J. Climate, 16, 1601-1612).
Figure 2. Time series of area-averaged sea surface temperature (SST) anomalies (°C) in the Niño regions [Niño-1+2 (0°-10°S, 90°W-80°W), Niño 3 (5°N-5°S, 150°W-90°W), Niño-3.4 (5°N-5°S, 170°W-120°W), Niño-4 (150ºW-160ºE and 5ºN-5ºS)]. SST anomalies are departures from the 1971-2000 base period weekly means (Xue et al. 2003, J. Climate, 16, 1601-1612).
Figure 3. Area-averaged upper-ocean heat content anomalies (°C) in the equatorial Pacific (5°N-5°S, 180º-100ºW). Heat content anomalies are computed as departures from the 1982-2004 base period pentad means.
Figure 4. Depth-longitude section of equatorial Pacific upper-ocean (0-300m) temperature anomalies (°C) centered on the week of 27 July 2010. The anomalies are averaged between 5°N-5°S. Anomalies are departures from the 1982-2004 base period pentad means.
Figure 5. Average outgoing longwave radiation (OLR) anomalies (W/m2) for the four-week period 2 – 27 July 2010. OLR anomalies are computed as departures from the 1979-1995 base period pentad means.

Figure 6. Forecasts of sea surface temperature (SST) anomalies for the Niño 3.4 region (5°N-5°S, 120°W-170°W). Figure courtesy of the International Research Institute (IRI) for Climate and Society. Figure updated 16 July 2010.

Cortesia de NOAA/National Weather ServiceClimate Prediction Center/JDACT