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Where is Our SWWA Climate Headed?

Where is Our SWWA Climate Headed?. Bryson C. Bates Director, CSIRO CLIMATE. Talk Outline. Background GHG emissions Time scale and context Planning for climate change Scenarios Global climate models (GCMs) Climate change scenarios for SWWA Concluding remarks.

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Where is Our SWWA Climate Headed?

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  1. Where is Our SWWA Climate Headed? Bryson C. Bates Director, CSIRO CLIMATE

  2. Talk Outline • Background • GHG emissions • Time scale and context • Planning for climate change • Scenarios • Global climate models (GCMs) • Climate change scenarios for SWWA • Concluding remarks

  3. GHG Emissions • CO2 concentrations have grown from 280 ppm in 1750 to 375 ppm in 2003 • Half of CO2 emitted by human activities absorbed by oceans & biosphere, leaving half in atmosphere where it has a lifetime of 50 to 100 years • Impossible to stabilise GHG concentrations at current level • Stabilization at 450 ppm requires reductions of 40% by 2050 & 60% by 2090, limiting global warming to 1.2 to 2.3 ºC by 2100 • Regardless of reductions in GHG emissions, some climate change is inevitable

  4. Time Scale & Context • Super-greenhouse conditions have existed before – well before advent of humans • Estimates of arrival time for next ice age vary from 100s to 20,000 years • Population: 5M@35,000BC; 1.2B@1850; 2.5B @1950; 5.3B@1990; 6.3B@2000; 10B by 2050? • In 200 years, world's urban population has grown from 2% to nearly 50% • Megacities: 4@1975, 19@2000, 23@2015? • Infrastructure designed on assumption of a stationary climate

  5. Planning for Climate Change • Rather than extrapolating observed trends, we use computer models of climate system driven by scenarios of GHG & aerosol emissions, & ozone depletion • Future GHG emissions will depend on demographic, economic, technological, & political factors that are likely to evolve discontinuouslyin coming decades • Reliable prediction of Australia’s climate over next few decades is impossible • Better not to select one future & hope it comes to pass, nor to find the most probable future & adapt to it

  6. Scenarios • Series of events that could lead from the present to plausible but not assured future situations • Exemplify what might happen with/without actions to reduce GHG emissions • Provide baseline against which need for, and effectiveness of, adaptation measures & emission reductions can be measured • Not the same as predictions or forecasts! • Usually consider at most 6 to 7 scenarios (e.g. likely, pessimistic, optimistic) • Acknowledge presence of uncertainty

  7. IPCC SRES Scenarios • A2 – population growth to 15 billion by 2100; rather slow economic and technological development • B2 – population growth to 10.4 billion by 2100; more rapidly evolving economy and more emphasis on environmental protection There are also 5 IPCC CO2 stabilisation scenarios (450-1000 ppm)

  8. Global Warming Scenarios 5.8 2.9 2.3 1.5 1.4 1.2 50% of uncertainty due to GCMs; 50% to emission scenarios

  9. Global Climate Models • Main components: atmosphere, land surface, biosphere, oceans, and polar ice • Simulate water & energy fluxes at 30-minute time steps over 3-D computational grid

  10. A Perspective on GCMs • Current GCMs do good job at simulating most of essential climate-forming processes in atmosphere & oceans, & behaviour of total climate system at global scale • Best GCMs not yet sophisticated enough to capture all of the processes that influence climate at regional scales • We have several well-tested technologies for inferring climatic information at local & regional scales from GCM simulations

  11. IPCC SRES Scenarios Scenarios used: A2, A1B & B1

  12. May to October SRES 450 ppm 550 ppm 2030 2070 November to April Mean Temp: 9 GCMs

  13. May to October SRES 550 ppm 450 ppm 2030 2070 November to April Precipitation: 9 GCMs

  14. May to October SRES 550 ppm 450 ppm 2030 2070 November to April Potential Evaporation: 7 GCMs

  15. L 1012 1016 1020 1016 1012 H Some Weather Types L 1012 .2 .4 .6 .8 1 3 1016 H H Type 1016 1012 1004 1000 1008 5 .2 .4 .6 .8 1 Type

  16. Probabilities 1958 - 2003

  17. Coupled GCM Runs • CSIRO Mk 3 AGCM: T63 (1.875o x 1.875o approx); 18 vertical levels • OGCM: 1.875o longitude x 0.9375o latitude; 31 vertical levels • Transient run (380 years): observed GHG forcing 1871-present; A2 SRES scenario to 2100; stable GHG 2100-2250 • Control run (323 years): 330 ppm equivalent CO2 for 1871-2193; no other historical forcing

  18. Margaret River Current rainfall decrease, as recorded by speleothem P, is well-outside range of natural rainfall variability of last 200 years

  19. A New Way of Thinking! • Climate is non-stationary: changed rapidly in the past; changing now; & will change in the future • Future climate will exhibit wet and dry periods due to natural variability – this variability will be superimposed upon continued warming & changes in mean rainfall • We cannot wait for full scientific certainty: it may never come, or it may be too late! • We must take a balance of evidence approach for the time being (just like medical science)

  20. A New Way of Thinking! • Mitigation & adaptation are necessary & complementary • Developing policies & plans that are robust across a range of plausible futures will improve environmental, food & water security • Planning for the future can lead to beneficial outcomes in the present • We need to find fair & cost-effective measures to minimise adverse impacts & maximise benefits (must consider communities, not just economics)

  21. Awareness Adaptation Abatement Action 13-17 November 2005, Melbourne www.greenhouse2005.com

  22. The End

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