1 / 53

Climate change scenarios and applications over land

Climate change scenarios and applications over land. Bart van den Hurk, KNMI and many others. What is the global climate problem?. Climate change is normal Natural influences: Internal variability (El Niño) Variations in solar activity and sun/earth geometry (ice ages)

affrica
Download Presentation

Climate change scenarios and applications over land

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Climate change scenarios and applications over land Bart van den Hurk, KNMI and many others New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  2. What is the global climate problem? • Climate change is normal • Natural influences: • Internal variability (El Niño) • Variations in solar activity and sun/earth geometry (ice ages) • (Major) Vulcanic eruptions • Antropogenic influences: • Greenhouse gas emissions • Changes in land use New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  3. The greenhouse effect • Solar radiation heats the Earth • The Earth emits longwave radiation in response • Greenhouse gases like CO2 absorb this longwave radiation • The Earth surface is +15°C i.s.o. -18°C New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  4. Variability of surface temperature New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios IPCC, 2007

  5. Signal/noise of future outlook New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios IPCC, 2007

  6. Climate change in Europe: ECA • Trends in mean precip and temperature 1946-2006 AMJJAS ONDJFM Annual eca.knmi.nl New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  7. Temperature extremes • DJF TN10p: nr of days with TN < 10% • JJA TX90p: nr of days with TX > 90% eca.knmi.nl New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  8. Precipitation indices DJF JJA RR1 (nr of wet days) R95p (nr of very wet days > 95%) eca.knmi.nl New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  9. Model projections of future global climate • Models are imperfect • Future greenhouse gas concentrations are unknown • Coordinated effort: • define set of emission scenarios • calculate concentration evolution • use this to make projections with range of GCMs • AR4: Large (~25) nr of GCMs available for 1900 – 2200 (http://www-pcmdi.llnl.gov/) New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  10. Emission scenario’s (SRES) CO2 N2O SO2 CH4 New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  11. Results (global mean temperature) New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios IPCC, 2007

  12. Results (global mean temperature) New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios IPCC, 2007

  13. Precipitation changes New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios IPCC, 2007

  14. But there’s more than global mean temperature Sea level pressure difference from 2 different GCMs Van Ulden and Van Oldenborgh, 2006 New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  15. G-west in West-Europe for present-day climate • Approx 10 AR4 GCM-runs Observations Models Van Ulden et al, 2006 New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  16. G-west end of 21st century with doubled CO2-levels • Changes relative to present climate New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  17. G-west end of 21st century with doubled CO2-levels • Changes relative to present climate New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  18. The influence from the driving GCM! • Change of precipitation annual cycle in Rhine area from multiple regional climate model simulations • Two different GCM’s ECHAM4/OPYC (more Atlantic advection in winter, less in summer) HadAM3H (small changes in circulation statistics) New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  19. Rationale of the scenarios • The steering variables • 1. Global temperature – 2. Strength of seasonal mean west-circulation (not for zsea) Strength of west-circulation month New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  20. Downscaling • Downscaling = local interpretation of GCM-scenario by using local added information • Orography, land/sea • Land use, … • 2 families of methods • Statistical • Dynamical New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  21. Statistical downscaling • Ingredients: • Local observed time series of weather variable (e.g. precipitation) • Archive of large scale circulation-indicators (e.g. air pressure, temperature/wind in higher atmosphere, gradients of humidity, pressure, …) • Correlation-equation • Large scale circulation-indicators from a GCM projection to be downscaled New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  22. Statistical downscaling I from GCM’s + a and b from local calibration  local P New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  23. Dynamical downscaling: Regional Climate Model (RCM) • High resolution GCM (50 – 20 km) • better resolving land-sea, orography, atm.gradients • Lateral boundary conditions from reanalysis (present-day climate conditions) or GCM runs (scenario runs) • multi-level • temporal frequency dependent on domain • Inner domain free evolving New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  24. Regional climate change: downscaling • GCM-grid box too coarse Global model Regional model New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  25. Precipitation extremes in summer (difference A2 – CTL) Mean; 90%; 95%; 99%; 99.5%; 99.9% more less Danish Met. Institute New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  26. Precipitation extremes in summer (difference A2 – CTL) Mean; 90%; 95%; 99%; 99.5%; 99.9% more less Danish Met. Institute New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  27. Precipitation extremes in summer (difference A2 – CTL) Mean; 90%; 95%; 99%; 99.5%; 99.9% more less Danish Met. Institute New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  28. Precipitation extremes in summer (difference A2 – CTL) Mean; 90%; 95%; 99%; 99.5%; 99.9% more less Danish Met. Institute New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  29. Precipitation extremes in summer (difference A2 – CTL) Mean; 90%; 95%; 99%; 99.5%; 99.9% more less Danish Met. Institute New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  30. Precipitation extremes in summer (difference A2 – CTL) Mean; 90%; 95%; 99%; 99.5%; 99.9% more less Danish Met. Institute New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  31. Precipitation extremes in summer (difference A2 – CTL) Mean; 90%; 95%; 99%; 99.5%; 99.9% more less Danish Met. Institute New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  32. Result: change in 2050 relative to 1990 New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  33. Result: change in 2050 relative to 1990 mean temperature yearly coldest day With circulation change the coldest temperature changes more than mean New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  34. Result: change in 2050 relative to 1990 Nr of wet days strongly dependent on circulation change wet day frequency New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  35. Result: change in 2050 relative to 1990 Wet day mean precipitation dependent on global temperature rise mean precipitation New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  36. Result: change in 2050 relative to 1990 Extreme precipitation is more likely in a wetter climate daily precipitation exceeded 1/10yrs New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  37. Result: change in 2050 relative to 1990 annual maximum daily mean wind Windscenarios hardly show a significant change New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  38. Result: change in 2050 relative to 1990 Sea level scenario’s after 2050 show acceleration: For 2100 the range is between 35 and 85 cm sea level rise New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  39. General picture • Extreme temperature change is stronger than mean, especially when circulation also changes • When circulation changes number of precipitation days is strongly reduced in summer, causing a reduction of mean summertime precipitation • In winter mean precipitation increases (dependent on circulation) • Extreme precipitation increases both in summer and winter • Sea level rise is slightly smaller than in TAR • 1/yr Wind slightly increases (but not significantly) New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  40. Tailored climate scenarios • Specific use in many applications (e.g. water management) requires “tailoring” • Examples • High resolution time series of precipitation • Ground water tables in the Netherlands • Long (>100 yr) time series • Dynamical downscaling in Rhine basin • Closure of Maasland barrier New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  41. Generation of high resolution time series • Climate scenarios provide general key numbers (change of mean, change of 1/10yr return value) • Change an existing (obs) time series of precipitation • linearly (using only mean change) • non-linearly (changing also shape of distribution and # wet days) New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  42. Non-linear time series transformation • Determination of extremes (via statistical downscaling) • From previous step: p50, p99, scaled to pn via assumed scaling of pdf • Observed time series transformed with pn • From transformed time series: • Return time of extremes • Nr of frost days • Length growing season… New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  43. Change in ground water table the Netherlands • Aim: first assessment of effect of W+ scenario on ground water table in various stages of the growing season • Tailoring: • production of location specific meteo • running high resolution ground water model Lowest water table during growing season: generally drier Start of growing season: generally wetter courtesy Timo Kroon, Franziska Keller ea New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  44. Long time series • Extremes (1/x jr; x»1) have more impact than the mean climate • Length of time series is limited • Observations: < 150 jr • GCM’s: < 200 jr • RCM’s: < 50 jr • Estimation of extremes by: • Extrapolation of fitted Generalized Extreme Value (GEV) functions • Creation of long time series by resampling New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  45. Fit of GEV-distribution • Assume that yearly maxima obey a given ditribution P(,) (for instance Gumbel) • Determine return time from ranked sequence • Fit GEV to ranked sequence • Extrapolate return times   New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  46. Resampling • Use historical time series of combination of weather variables (P, T, u) • Select a random day • Search for analogues • Select a random analogue day • Take next day in historical time series • Preservation of temporal correlation New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  47. Resampling Simulated rainfall series  Historical rainfall series date value (mm) Resampling with replacement New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  48. Resampling Historical rainfall series date value (mm) Largest 4-day amount: 46 mm Simulated rainfall series  Largest 4-day amount: 80 mm New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  49. Dynamical downscaling using 1 RCM: results for Rhine discharge Control J F M A M J J A S O N D SWURVE project (Lenderink et al, 2003) New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

  50. Dynamical downscaling using 1 RCM: results for Rhine discharge Annual cycle increases A2-scenario 2070-2100 Extreme value analysis: Shorter return period of peak discharge J F M A M J J A S O N D SWURVE project (Lenderink et al, 2003) New climate scenarios for the Netherlands – www.knmi.nl/climatescenarios

More Related