Presentation is loading. Please wait.

Presentation is loading. Please wait.

The role of vegetation-climate interaction on Africa under climate change - literature review seminar Minchao Wu Supervisor: Markku Rummukainen, Guy Schurgers.

Published byAmbrose Warner Modified over 8 years ago

Similar presentations

Presentation on theme: "The role of vegetation-climate interaction on Africa under climate change - literature review seminar Minchao Wu Supervisor: Markku Rummukainen, Guy Schurgers."— Presentation transcript:

1 The role of vegetation-climate interaction on Africa under climate change - literature review seminar Minchao Wu Supervisor: Markku Rummukainen, Guy Schurgers 2015-01-15

2 Main drivers of climate and climate change Source. IPCC 2013

3 The development of Earth System Models (ESMs) Source. IPCC 2013

4 Vegetation feedback on climate A Source. Bonan et al. 2008

5 Challenge to quantify due to various sensitivity in different process Adapted from Zhang et al. 2014 + Positive or negative depends on process sensitivity (contribution)

6 Effects of large-scale deforestation Source. Bala et al. 2007 Borael : Deforst.  Albedo (+)  shortwave net rad. (-)  temp. (-) Tropics : Deforst.  Albedo (+)  shortwave net rad. (-)  evap. (-) & sensible heat flux (-)  temp. (+)

7 Effects of vegetation carbon-cycle feedback CO2 (+)  Stomata cond. (-)  Evap. (-)  Precp. (-)Veg. (-) Temp. + Source. Bett et al. 2004

8 RCMs : essential for policymaking for regional climate change

9 Coupled Regional climate model – dynamic global vegetation model (coupled RCM-DGVM) Feedback Variables Study region Models (RCM/DGVM) Finding PapersComments/outlook Vegetation structure Central United States RAMS/CENTURY (weekly) Seasonal vegetation phenological variation strongly influences regional climate patterns through its control over land surface water and energy exchange. (Lu et al., 2001)Lu et al., 2001 The inadequate and unrealistic description of vegetation evolution in its current land surface models is considered a major deficiency Vegetation structure West Africa RegCM3/CLM- DGVM (asynchronously, yearly) Precipitation increase by 23% over the Sahel in summer compared 5% decrease without vegetation feedback (Alo and Wang, 2010), (Wang and Alo, 2012)Alo and Wang, 2010Wang and Alo, 2012 Should use synchronously (fully) coupling approach in future study; Land use should be consider; model consistency: soil moisture; Vegetation structure, fraction Europe RCA/LPJ-GUESS, (fully coupled, daily) Feedback effects are rather modest: feedback contribute 0.2-1 degree C increase for southern Europe and 0.2-0.5 decrease for northern and central Europe. (Smith et al., 2011, Wramneby et al., 2010)Smith et al., 2011 Wramneby et al., 2010 Smaller than assumed, such as in other studies Betts et al., 2000, Bala et al., 2007; Land use should be consider; model consistency: such as land surface process, stomatal regulation and soil hydrology. Land use Unite State WRF3/CLM3.5 Strong soil moisture-precipitation feedback in Midwest irrigated area (Lu and Kueppers, 2012)Lu and Kueppers, 2012 Need to improve LAI simulation, and irrigation scheme. Crop, Vegetation structure, vegetation fraction East Asian monsoon area RegCM3/CERES (fully coupled, daily, land-surface scheme derived from BATS) Reduced RMSE of the simulated precipitation by 2.2–10.7% over north China (Chen and Xie, 2012)Chen and Xie, 2012 Uncertainties in modeling how monsoon dynamics responds in RCMs. Uncertainties also lie in the lack of description of natural vegetation growth and develop and the simplification of cropping system over the region. Vegetation structure EuropeREMO/iMOVE (vegetation part originates from JSBACH) Dynamics of vegetation cover and density contribute to difference from REMO2009 (Wilhelm et al., 2013)Wilhelm et al., 2013Soil hydrological dynamics is not capture for some regions that influence vegetation growth, e.g. LAI Further development effort should put to multi-layer scheme Uncertainties in vegetation dynamics Or coupling approach

10 RCA-GUESS application (Europe) Normalized phenology index summer Temp. summer Latent Heat flux Change in future Feedback contribution Wramneby et al., 2010 Northern & central E.: cooler & wetter Southern E: warmer & drier

11 RCA-GUESS application (Arctic) Normalized phenology index Change in future Feedback contribution Zhang et al., 2014 Spring: warming Summer: cooling

12 Reflection of previous RCA-GUESS studies Europe - Small feedback effects:  Climate is controlled by general circulation and effects of the Atlantic sea.  Feedback is merely locally significant? Artic – More processes should be included?  SST feedback, Permafrost C feedbacks, land use, nutrient feedbacks

13 Attractive research domain - Africa Carbon stock: 20% of global (NPP) Landscape change: Deforestation: ca. 10% of the total forest area of Africa annually (2000-2010) Greening: 10%-50% increase in NDVI in over Sahel. 20% of global land use CO 2 emission Wildfire: > 68% of the global wildfire, 40% fire emission

14 Research Questions General research question: What is the role of regional vegetation-climate feedback for African climate change studies? Sub-research questions:  Can vegetation-climate feedbacks help to better understand regional climate and vegetation conditions for present-day Africa?  If vegetation feedback is still limited to local or regional effects, it remote effect is possible to identify?  If integrating more processes would help better under vegetation- climate feedback and if so if how to better constrain uncertainty?

15 Papers plan

16 Some results for the current project plan

17 Thanks!

Download ppt "The role of vegetation-climate interaction on Africa under climate change - literature review seminar Minchao Wu Supervisor: Markku Rummukainen, Guy Schurgers."

Similar presentations

Africa Group paper session, Monday 18 February 2008 Charlie Williams Climate modelling in AMMA Ruti, P. M., Hourding, F. & Cook, K. H. CLIVAR Exchanges,

Africa Group paper session, Monday 18 February 2008 Charlie Williams Climate modelling in AMMA Ruti, P. M., Hourding, F. & Cook, K. H. CLIVAR Exchanges,
Changes in the seasonal activity of temperate and boreal vegetation The critical role of Autumn temperatures. Shilong Piao, Philippe Ciais, Pierre Friedlingstein,

Changes in the seasonal activity of temperate and boreal vegetation The critical role of Autumn temperatures. Shilong Piao, Philippe Ciais, Pierre Friedlingstein,
The Global Impacts of Deforestation and an Increase in CO 2 Emissions Between 1990 and 2020 Erina Paõline Molina M`rie Angela Petines.

The Global Impacts of Deforestation and an Increase in CO 2 Emissions Between 1990 and 2020 Erina Paõline Molina M`rie Angela Petines.
Global Change Research in Belgium 1990-2002 Guy P. Brasseur Max Planck Institute for Meteorology Chair, International Geosphere Biosphere Programme (IGBP)

Global Change Research in Belgium Guy P. Brasseur Max Planck Institute for Meteorology Chair, International Geosphere Biosphere Programme (IGBP)
Responses of terrestrial ecosystems to drought

Responses of terrestrial ecosystems to drought
Reducing Canada's vulnerability to climate change - ESS Variation of land surface albedo and its simulation Shusen Wang Andrew Davidson Canada Centre for.

Reducing Canada's vulnerability to climate change - ESS Variation of land surface albedo and its simulation Shusen Wang Andrew Davidson Canada Centre for.
Presented by: Audrey Eggenberger Geography: ASCS major Amazon Deforestation and Climate Change (1990) By: J. Shukla et. all Combined Climate and Carbon-Cycle.

Presented by: Audrey Eggenberger Geography: ASCS major Amazon Deforestation and Climate Change (1990) By: J. Shukla et. all Combined Climate and Carbon-Cycle.
© Crown copyright Met Office Regional/local climate projections: present ability and future plans Research funded by Richard Jones: WCRP workshop on regional.

© Crown copyright Met Office Regional/local climate projections: present ability and future plans Research funded by Richard Jones: WCRP workshop on regional.
1 Hadley Centre for Climate Prediction and Research Biophysical forcing of climate by anthropogenic vegetation change Richard A. Betts & Pete Falloon Hadley.

1 Hadley Centre for Climate Prediction and Research Biophysical forcing of climate by anthropogenic vegetation change Richard A. Betts & Pete Falloon Hadley.
3. Climate Change 3.1 Observations 3.2 Theory of Climate Change 3.3 Climate Change Prediction 3.4 The IPCC Process.

3. Climate Change 3.1 Observations 3.2 Theory of Climate Change 3.3 Climate Change Prediction 3.4 The IPCC Process.
The Ocean’s Role in Climate Change. Responding to the Kyoto Protocol Climate Change Action Fund (CCAF) Initiatives Reduce greenhouse gas emissions. Reduce.

The Ocean’s Role in Climate Change. Responding to the Kyoto Protocol Climate Change Action Fund (CCAF) Initiatives Reduce greenhouse gas emissions. Reduce.
Sea-ice & the cryosphere

Sea-ice & the cryosphere
Outline Background, climatology & variability Role of snow in the global climate system Indicators of climate change Future projections & implications.

Outline Background, climatology & variability Role of snow in the global climate system Indicators of climate change Future projections & implications.
May 2007 vegetation Kevin E Trenberth NCAR Kevin E Trenberth NCAR Weather and climate in the 21 st Century: What do we know? What don’t we know?

May 2007 vegetation Kevin E Trenberth NCAR Kevin E Trenberth NCAR Weather and climate in the 21 st Century: What do we know? What don’t we know?
Modern Global Climate Change by Thomas R. Karl and Kevin E. Trenberth Summary: Ken Hu Critique: Roy Chen.

Modern Global Climate Change by Thomas R. Karl and Kevin E. Trenberth Summary: Ken Hu Critique: Roy Chen.
Impact of Sea Surface Temperature and Soil Moisture on Seasonal Rainfall Prediction over the Sahel Wassila M. Thiaw and Kingtse C. Mo Climate Prediction.

Impact of Sea Surface Temperature and Soil Moisture on Seasonal Rainfall Prediction over the Sahel Wassila M. Thiaw and Kingtse C. Mo Climate Prediction.
CSIRO LAND and WATER Estimation of Spatial Actual Evapotranspiration to Close Water Balance in Irrigation Systems 1- Key Research Issues 2- Evapotranspiration.

CSIRO LAND and WATER Estimation of Spatial Actual Evapotranspiration to Close Water Balance in Irrigation Systems 1- Key Research Issues 2- Evapotranspiration.
3. Climate Change 3.1 Observations 3.2 Theory of Climate Change 3.3 Climate Change Prediction 3.4 The IPCC Process.

3. Climate Change 3.1 Observations 3.2 Theory of Climate Change 3.3 Climate Change Prediction 3.4 The IPCC Process.
Land Use and Climate Change Stephanie J Houser Earth Climate Systems www.dcnr.state.pa.us www.gnb.ca www.injuryupdate.com.au.

Land Use and Climate Change Stephanie J Houser Earth Climate Systems
Effects of Land Cover Change on local and regional climate Ann Thijs Physical Climatology December 1, 2005 Tropical deforestation, Borneo.

Effects of Land Cover Change on local and regional climate Ann Thijs Physical Climatology December 1, 2005 Tropical deforestation, Borneo.

Similar presentations

Ads by Google