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Climate trends, regional and national climate change projections Gillian Cambers, SPC, GCCA: PSIS Project Manager Outline of presentation • Source of the science presented in this presentation – the Pacific Climate Change Science Program (PCCSP) • Climate change and climate variability • How has the Pacific climate changed in the last 50 years? • Changes expected by 2055 • Aid effectiveness and climate change science 1. Source of science presented here Some of the PCCSP partners from National Meteorological Services Pacific Climate Change Science Program The Pacific Climate Change Science Program (PCCSP) is a partnership between the Australian Government and science agencies (the Bureau of Meteorology & CSIRO) in close collaboration with 14 Pacific island countries, East Timor and Pacific regional organisations. The science program is continuing until 2013 under the banner of PACCSAP. Goal of the PCCSP The Pacific Climate Change Science Program (PCCSP) is working closely with National Meteorological Offices as well as other national agencies in the 15 partner countries to better understand how their climate has changed in the past and how it may change in the future. PCCSP products • A technical, peer reviewed report Climate Change in the Pacific: Scientific Assessment and New Research, launched November 2011: Volume 1- Regional Overview; Volume 2- Country Reports • Eight page brochures on the current and future climate of each country, English and local language versions • All available at: www.PacificClimateChangeScience.org 2. Climate change and climate variability Rainfall observations: Niue Climate variability and change Climate change Climate variability Weather hours days Rain squall months years centuries Pacific Decadal Oscillation (PDO) Wet season/ dry season Typhoon decades El NiñoSouthern Oscillation (ENSO) Global warming & ocean acidification Climate change and variability: Tarawa Climate Variability Climate Change? 3. Pacific climate changes in last 50 years Changes in the atmosphere • Air temperatures have warmed across the Pacific since 1950 between 0.1 – 0.2oC/decade. • Rainfall across the region has increased and decreased in response to natural climate variability, mainly due to the El Niño Southern Oscillation. • No significant trends in the overall number of tropical cyclones, or in the number of intense tropical cyclones in the South Pacific Ocean between 1981 and 2007. Changes in the ocean • Sea-surface temperatures in the region have generally warmed since 1950. • Changes in ocean saltiness mirror rainfall changes • Ocean acidity has increased • Sea level has risen Key points • Analysis of observations show the ocean and atmosphere have been changing over the past 50 – 60 years • Considerable variation from country to country • Climate change signal is very small in comparison to natural climate variability • Importance of accurate recording and analysis of climate observations cannot be over-emphasized 4. Climate projections 2055 Preparation of climate projections • The climate system is very complex: we cannot assume that current trends will continue • Global climate models; these are mathematical representations of the ocean and atmosphere based on the laws of physics and run on powerful computers • 24 models are available from around the world Laws of physics Temp, wind, rain 40 layers 100-400 km www.pacificclimatefutures.net Projected climate changes in 21st century • Increases in air temperature, sea-surface temperature, extreme rainfall and extreme temperature events, potential evapotranspiration, humidity, solar radiation, ocean stratification, sea level, ocean acidification • Changes in rainfall, tropical cyclones, wind speed, salinity Climate projections 2055 • Regional warming greatest near the equator • Large increases in extremely hot days and warm nights • Increases in annual mean rainfall most prominent near the SPCZ and ITCZ, little change elsewhere • More heavy and extreme rain days • Increases in potential evapotranspiration • Wind speed generally decreases in the equatorial and northern parts of the region, while increases are indicated in the south, but changes are small • Humidity and solar radiation changes are also small Projected temperature and rainfall changes 2055 Greenhouse gas emissions Northern Marshall Islands Vanuatu TEMPERATURE CHANGES RELATIVE TO 1980-2000 Low emissions 0.5 – 1.7 0.5 – 1.5 Medium emissions 0.9 – 2.1 0.8 – 2.0 High emissions 1.0 – 1.8 1.1 – 1.7 RAINFALL CHANGES RELATIVE 1980-2000 Low emissions -2% to +6% -11% to +13% Medium emissions -7% to +19% -12% to + 18% High emissions -14% to +31% -10% to +20% Climate projections - oceans • Intensified warming and freshening at the ocean surface is projected to make the surface ocean less dense compared to the deep ocean, so there is less vertical mixing • Regional sea level rise is projected to be similar to the global average, but improved understanding of the processes responsible for ice-sheet changes are needed to improve estimates of the rate and timing • Higher levels of CO2 will cause further ocean acidification, increasing risks to reef ecosystems Ocean acidification • Ocean acidification is simulated to continue throughout the 21st century; after 2050, levels of aragonite saturation in many parts of the Pacific are projected to fall below 3.5Ω - a critical level for coral reef health Tropical cyclones • South Pacific basin: most models indicate a decrease in the frequency of tropical cyclones by 2090 and an increase in the proportion of more intense storms • North Pacific basin: models indicate a decrease in the frequency of tropical cyclones and a decrease in the proportion of more intense storms Key points • Climate change and climate variability are already taking place • PCCSP’s “Climate Change in the Pacific” and the SPC book on the “Vulnerability of Pacific fisheries to climate change” contain rigorous scientific information on which to base adaptation planning • Science is continually evolving and climate change projections are becoming more reliable as our knowledge grows Climate science and aid effectiveness • Do we need more climate science in the Pacific? • YES • Building the strength and capacity of national Meteorological Services to provide the information on which to base adaptation planning • Building the capacity of Pacific Island Countries to adapt to climate change over time frames longer than the normal project cycle Thank you