Encontro de Oceanografia: extensão da data de inscrição

O prazo para inscrição no Encontro de Oceanografia, que terá lugar dias 21 e 22 de Março na Nazaré, foi alargado para 21 de Fevereiro.

Pedimos aos participantes que nos enviem o resumo dos seus trabalhos até 28 de Fevereiro.

O prazo para pagamento ou pedido de factura (invoice) é também 21 de Fevereiro.

As inscrições podem ser feitas aqui: Inscrições

Para mais informações consulte: Encontro de Oceanografia

IPCC Report (executive). Physical basis está disponível dia 30

The global ocean will continue to warm during the 21st century. Heat will penetrate from the surface to the deep ocean and affect ocean circulation.

The strongest ocean warming is projected for the surface in tropical and Northern Hemisphere subtropical regions. At greater depth the warming will be most pronounced in the Southern

Ocean (high confidence). Best estimates of ocean warming in the top one hundred meters are about 0.6°C (RCP2.6) to 2.0°C (RCP8.5), and about 0.3°C (RCP2.6) to 0.6°C (RCP8.5) at a depth of about 1000 m by the end of the 21st century.

It is very likely that the Atlantic Meridional Overturning Circulation (AMOC) will weaken over the 21st century. Best estimates and range18 for the reduction from CMIP5 are 11% (1 to 24%) in

RCP2.6 and 34% (12 to 54%) in RCP8.5. It is likely that there will be some decline in the
AMOC by about 2050, but there may be some decades when the AMOC increases due to
large internal variability.

It is very unlikely that the AMOC will undergo an abrupt transition or collapse in the 21st century for the scenarios considered. There is low confidence in assessing the evolution of the AMOC beyond the 21st century because of the limited number of analyses and equivocal results. However, a collapse beyond the 21st century for large sustained warming cannot be excluded.

Global mean sea level will continue to rise during the 21st century. Under all
RCP scenarios the rate of sea level rise will very likely exceed that observed during 1971–2010 due to increased ocean warming and increased loss of mass from glaciers and ice sheets.

Confidence in projections of global mean sea level rise has increased since the AR4 because of the improved physical understanding of the components of sea level, the improved agreement of process-based models with observations, and the inclusion of ice-sheet dynamical changes

Global mean sea level rise for 20812100 relative to 1986–2005 will likely be in the ranges of 0.26 to 0.55 m for RCP2.6, 0.32 to 0.63 m for RCP4.5, 0.33 to 0.63 m for RCP6.0, and 0.45 to 0.82 m for RCP8.5 (medium confidence). For RCP8.5, the rise by the year 2100 is 0.52 to 0.98m, with a rate during 2081–2100 of 8 to16 mm yr–1 (medium confidence). These ranges are derived from CMIP5 climate projections in combination with process-based models and literature assessment of glacier and ice sheet contributions

In the RCP projections, thermal expansion accounts for 30 to 55% of 21st century global mean sea level rise, and glaciers for 15 to 35%. The increase in surface melting of the Greenland ice sheet will exceed the increase in snowfall, leading to a positive contribution from changes in surface mass balance to future sea level (high confidence). While surface melting will remain small, an increase in snowfall on the Antarctic ice sheet is expected (medium confidence), resulting in a negative contribution to future sea level from changes in surface mass balance. Changes in outflow from both ice sheets combined will likely make a contribution in the range of 0.03 to 0.20 m by 20812100 (medium confidence).

Sea level rise will not be uniform. By the end of the 21st century, it is very likely that sea level will rise in more than about 95% of the ocean area. About 70% of the coastlines worldwide are projected to experience sea level change within 20% of the global mean sea level change.

Climate datasets

The Climate Data Guide, <https://climatedataguide.ucar.edu>, provides
concise and reliable information on the strengths and limitations of the
key observational data sets, tools and methods used to evaluate Earth
system models and to understand the climate system. We are very pleased
to announce the launch of a redesigned website, where you will find
easily searchable and relevant information on well over 100 climate data
sets. Unique to the Climate Data Guide, citable expert commentaries on
the data sets are authored by experienced data users and developers,
enabling scientists to expose their work and the diverse user community
to access and understand the essential data.

Alvaro Peliz
Instituto Dom Luiz, FCUL