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Carbon cycle assessment Patricia Cadule Jean-Louis Dufresne Institut Pierre Simon Laplace, Paris. CCI-CMUG, 27 May 2015.

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Presentation on theme: "Carbon cycle assessment Patricia Cadule Jean-Louis Dufresne Institut Pierre Simon Laplace, Paris. CCI-CMUG, 27 May 2015."— Presentation transcript:

1 Carbon cycle assessment Patricia Cadule Jean-Louis Dufresne Institut Pierre Simon Laplace, Paris. CCI-CMUG, 27 May 2015

2 Regional CO 2 fluxes [IPCC AR5] Inversions [Peylin et al] Veget. models

3 CMIP5 Models vs Inversions (PgC/yr) Month (PgC/yr) Month (PgC/yr) Month (PgC/yr) Month (PgC/yr) Month Regional CO 2 fluxes Grey shading: inversions Color lines: CMIP5 models

4 Evaluations of the atmospheric CO 2 concentration of the 23 CMIP5 models Alert (Canada) Comparing models with carbon flux estimates (inversions) CO2 concentration in a few locations (transport of surface CO 2 flux) Over 11 CO2 stations Regional CO 2 fluxes

5 Fires produce Greenhouse gases (CO 2, CH 4, N 2 O, …) that impact the radiation budget CO, non-methane hydrocarbons, and NO x altering the oxidation capacity of the atmosphere Aerosols (OC, BC) having an impact on the radiation budget Ward et al., 2012 Project - Added value of CCI variables - Consistencies amongst variables - Focus on fires

6 Fires and vegetation models ORCHIDEE-SPITFIRE modeling framework, coupled with the LMDZ climate model SPITFIRE (Thonicke et al., 2010) Project - Added value of CCI variables - Consistencies amongst variables - Focus on fires

7 Emission (carbon and other gases) BA (Burned Area) CF (Combustion Fraction) EF (Emission Factor) ESA fire_cci Fuel (biomass, litter etc.) DGVM Atmospheric model Vegetation model Transport and Inversion models Observation Bottom-up approach of emissions estimation (aided by vegetation models )

8 Consistency fires vs precipitation Low precipitation: limited by fuel (vegetation) amount High precipitations: limited by the degree of drought Mean annual precipitation (mm/yr) (1997-2009) Mean burn area

9 2006 2007 2008 Annual burned area ESACCI ≈ 2x GFED4, despite many tiles still missing in ESACCI ESACCI GFED4 ESACCI/GFED Burned area: ESA fire_cci vs. GFED4

10 Experiments: Land cover data LC_CCI Current land cover map Outdated land cover inputs IGBP land cover (Belward et al. 1999) and, Olson vegetation map with 96 classes (1983) Land cover Köppen-Geiger climate zones Phenology & Physiognomy Plant Functional Types Land Cover -> PFT Conversion Tool (BEAM) ESA LC_CCI PFT datasets

11 Increase in BoNE Increase in Bare Soil Decrease in BoNS increase decrease Decrease in tundra C3 grass cover Increase in BoBS at expense of BoNE PFT differences – high latitudes (LC_CCI – Olson)

12 PFT differences – tropics (LC_CCI – Olson) GV2M Avignon - February 2014 Increase in C4 crops Decrease in TrRG Decrease in TrEV

13 Carbon budget evaluation Mauna Loa (Pacific)

14 Carbon budget evaluation Barrow (Alaska)

15 Complementary studies towards assessment of carbon cycle and fires in coupled climate model: Identify (in)consistencies amongst related datasets Determine the origins of added values of CCI Improve knowledge and understanding processes

16 Study 1 Dataset analysis Using the following datasets: SST, SI, LC, GHG, FIRE, SM, ALB Look for fires (region, spread/extent, duration) Identify corresponding pre-fire conditions (availability of fuel, climate conditions, ignition source, …) Identify corresponding post-fire conditions (climate conditions, emissions, albedo, land cover) Objectives –Propose to the extent possible improvement margins for future datasets (e.g., spatial and temporal resolutions) in case of inconsistencies between fires and pre/post conditions –Categorize fires for use in Study 2

17 Thank you for your attention

18 increase decrease Decrease in C3 croplands replaced by C3 grasslands Increases in C4 grasslands due to use of Koppen-Geiger climate zones C3 C4 PFT differences (1) – crops (LC_CCI – Olson) 1 - Bare soil 2 – TrBE : tropical broad-leaved evergreen 3 – TrBR : tropical broad-leaved raingreen 4 – TeNE : temperate needleleaf evergreen 5 – TeBE : temperate broad-leaved evergreen 6 – TeBS : temperate broad-leaved summergreen 7 – BoNE : boreal needleleaf evergreen 8 – BoBS : boreal broad-leaved summergreen 9 – BoNS : boreal needleleaf summergreen 10 – NC3 : C3 grass 11 – NC4 : C4 grass 12 – AC3 : C3 agriculture 13 – AC4 : C4 agriculture

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