1 / 20

Climate scenarios for hydrological and environmental impact studies in Belgium

Climate scenarios for hydrological and environmental impact studies in Belgium. Patrick Willems K.U.Leuven - Hydraulics Division. Recent and on-going climate change related research projects. PhD researchers in italic. Belgium:

jana
Télécharger la présentation

Climate scenarios for hydrological and environmental impact studies in Belgium

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 scenarios for hydrological and environmental impact studies in Belgium Patrick Willems K.U.Leuven - Hydraulics Division

  2. Recent and on-going climate change related research projects PhD researchers in italic Belgium: • Federal Science Policy: climate change impacts on hydrological extremes in Belgium (Victor Ntegeka) • Flemish Government of Belgium – WL: impacts on river high and low flows (Thomas Vansteenkiste) • Environment Agency (VMM): • Impacts on floods (EU Flood Directive implementation) • Update of urban drainage design guidelines • MIRA-S: review of climate change impacts on water management • INBO: climate scenarios for impact analysis on nature • Federal Science Policy: climate change impacts on river water quality (Liliana Pagliero) Nile Basin: impact on high and low flow extremes (Paul Ogiramoi Nyeko, Sara Girma Mille, Meron Teferi) Tarim basin China: impact on hydrology (Tie Liu) Paute basin Ecuador: impact on hydrology (Diego Mora)

  3. Selected approach for hydrological impact analysis of climate change Hydrological / environmental impact model Historical today series Climate change Historical impact series climate change + perturbation scenario Hydrological system Climate system

  4. Downscaling of climate model simulation results Large Scale General Circulation Models (GCMs) 150 – 300 km; seasonally – monthly Dynamical downscaling Regional Climate Models (RCMs) ± 50 km; weekly - daily ± 25 km; daily Statistical downscaling river subcatchment scale, point scale river catchment: hourly; urban drainage systems: 10 min Hydrological scale

  5. Statistical downscaling GCMs 300 km RCMs 50 km RCMs 25 km • 3 types of methods considered and advanced: • Quantile-perturbation based methods (SD-A) • Weather typing based methods (SD-B) • Combined methods (SD-C) Large scale “predictants” Local scale “predictors” Rainfall-runoff model Hydrological system Climate system

  6. GCM-RCM runs for Belgium simulations of IPCC greenhouse gas emission scenarios by 2100: European PRUDENCE project: 10 RCMs, 31 simulations (A2,B2) IPCC AR4: 21 GCMs, 27 simulations (A2, A1B, B1) DMI 25 km

  7. Quantile perturbation factors RCM Probability distribution / IDF 30 years daily series today = control run (1961 – 1990) Comparison quantiles Probability distribution / IDF 30 years daily series scenario scenario = scenario run (2071 – 2100)

  8. Rainfall IDF-relations 10 min Uccle series: Return period: 100 years 10 years 1 year 1 month

  9. Change in IDF-relations Daily rainfall results, 17 ECHAM5 runs:

  10. Change in IDF-relations SD-A-5, 17 ECHAM5 runs:

  11. µ % change in rainfall, temperature and ETo by 2100 • Dependent on: • Time scale • (hour, day, week, month, season) • Return period / frequency • (incl. extreme rainfall) • Region • (15% higher at Belgian coast) • Accounting for uncertainties in climate model results and future greenhouse gas emissions (31 RCM runs A2/B2; 27 GCM runs A2/A1B/B1) : summarized in High, Mean and Low scenarios Rainfall extremes % rainfall change Return period Belgian coast

  12. Climate change scenarios: perturbation factors on rainfall and ETo quantiles High scenario Mean scenario Low scenario Example: Perturbation factors for daily winter rainfall extremes:

  13. CCI-HYDR high, mean and low climate change scenarios High / Wet IMPACT Floods Mean / Mild Low / Dry Low flows CCI-HYDR Perturbation Tool:

  14. Selected approach for hydrological impact analysis of climate change Hydrological / environmental impact model Historical today series Climate change Historical impact series climate change + perturbation scenario Hydrological system Climate system

  15. River high flow impact results Regional differences hourly runoff peaks: • Change in flood risks is highly uncertain • Runoff peaks due to rainfall/ETo change decrease in low scenario and increase in high scenario (up to 35%) • Major influence due to sea level rise (Scheldt tidal river)

  16. River low flow impact results Regional differences low flow extremes: • Low flow risks increase significantly in all scenarios • May increase problems rel. water quality, navigation, drinking water production, ...

  17. Spatial flood map impact results Flood mapping (before climate change): T = 100 year Current climate

  18. Spatial flood map impact results Flood mapping (after climate change till 2100): T = 100 year High scenario

  19. River water quality impact results Physico-chemical water quality processes considered:

  20. Research challenges • High uncertainties in climate scenarios: • How to calculate? • How to communicate to end users? • How to incorporate in impact investigations? • How to limit number of required impact simulations (scenarios, physical consistency between rainfall, temperature, ETo, ...)? • Limited accuracy of RCM results for rainfall (extremes) • Direct use of rainfall RCM results versus weather typing based downscaling methods? • Statistical downscaling to 10min and point scales: • Several methods and assumptions: ensemble approach on different downscaling methods to be recommended?

More Related