CMUG meeting – 14-16 March 2016 Fire_cci phase 2 progress. Interactions with other ECVs Phase 2 of the Climate Change Initiative Fire_cci project Emilio.

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Presentation transcript:

CMUG meeting – March 2016 Fire_cci phase 2 progress. Interactions with other ECVs Phase 2 of the Climate Change Initiative Fire_cci project Emilio Chuvieco University of Alcalá

CMUG meeting – March 2016 Fireeffects Loss of lives and properties Greenhouse gas emissions Vegetation succession Run-off alteration Soil erosion Fireuses Deforestation Grazing Arson Shifting agriculture Cyclical Fire factors Land use changes Fire policy: suppression Climate changes Population dynamics Increase Decrease Context

CMUG meeting – March 2016 Fire factors: It needs biomass and dryness Harrison, S. P., J. R. Marlon y P. J. Bartlein (2010): Fire in the Earth System, en Changing Climates, Earth Systems and Society (editado por J. Dodson). Springer Netherlands:

CMUG meeting – March 2016 Source: Ward et al., 2012 Fire impacts

CMUG meeting – March 2016 Annual mean fire emissions (GFED v3) Global fire emissions: ~2.3 Pg C/yr ~ 1/4 of total occurs at the deforestation frontier Van der Werf et al., 2010 g C m -2 yr -1

CMUG meeting – March 2016 Impacts of fire on vegetation composition Without fire C4 PFT will increase from 27% to 56% while reducing C3. Bond, et al. 2005

CMUG meeting – March 2016 Effects on human lives and properties

CMUG meeting – March 2016 Australia, 2009 MODIS Images: visibleearth.nasa.gov 173 people died and 7,562 people were displaced. Over 3,500 structures destroyed 450,000 ha were burned

CMUG meeting – March 2016 Russia, 2010 MERIS images. August, 2010 Courtesy DLR 50 people were killed. Over 2,500 houses in 150 villages and towns were destroyed 6 m ha burned

CMUG meeting – March 2016 Indonesia,

CMUG meeting – March 2016 Uses of BA information GCOS: o Estimation of emissions of trace gases and aerosols from vegetation fires. o Provision of inputs to climate and carbon-cycle models o Parameterization of climate-driven models for simulating BA. Other potential benefits: o Civil-protection: fire risk assessment. o Ecological impacts: Soil erosion, hydrological cycle

CMUG meeting – March 2016 Challenges for global burned area detection Different BA conditions: o Different land covers. o Different proportions burned. o Different combustion completeness. Sensor suitability. Consistency of the time series: o Different sensors / calibration issues.

CMUG meeting – March 2016 Fire CCI BA products Pixel product: o 3 variables: date of detection, uncertainty, and burned land cover. o Monthly files, continental tiles, GeoTiff format. Grid product: o 22 variables: total burned area, standard error, % observed area, number of patches and burned area of each land cover. o 15-day files at 0.25 x 0.25 degree. o NetCDF4 format.

CMUG meeting – March 2016 New tile distribution Geotiff format, multilayer file

CMUG meeting – March 2016 California 300m, June 2008

CMUG meeting – March 2016 Central Asia 300m, June 2008

CMUG meeting – March 2016 Day of the Year of BA detection MERIS (2008) v3

CMUG meeting – March 2016 Uncertainty characterization: Monthly confidence level (%)

CMUG meeting – March 2016 Grid product: total yearly BA MERIS fire_cci estimation million km2 (Chuvieco et al., 2016, GCB)

CMUG meeting – March 2016 Burned Area Standard error from (2008/06/22)

CMUG meeting – March 2016 Burned Area Number of patches from (2008/06/22)

CMUG meeting – March 2016 Burned Area Land cover from (2008/06/22)

CMUG meeting – March pairs of Landsat TM/ETM+ images. 130 sites for spatial validation from 2008 (red) 112 pairs for temporal validation (blue). Validation

CMUG meeting – March 2016 Intercomparison: total burned area Burned Area Sq km

CMUG meeting – March 2016 Differences with GFED4 Chuvieco et al., 2016, GEB

CMUG meeting – March 2016 Regional differences Chuvieco et al., 2016, GEB

CMUG meeting – March 2016 Fire patch analysis Chuvieco et al., 2016, GEB

CMUG meeting – March 2016 Gas emissions: Bottom-up approach Emission BA (Burned Area) CC (Combustion Completenes) EF (Emission Factor) ESA fire_cci fase 1 &2 Fuel Loads ESA fire_cci Fase 2 DVM Lab Measurements

CMUG meeting – March 2016 Mean annual CO2 emissions (GgC yr-1) (a) GFED3.1 emission dataset, emissions from the GFED3.1 data; (b) ORCHIDEE - prognostic, emissions by ORCHIDEE prognostic simulation; (c) ORCHIDEE - GFED3.1, ORCHIDEE simulation with BA being forced by GFED3.1 burned area data; (d) ORCHIDEE - MERIS, ORCHIDEE simulation with BA being forced by ESA MERIS burned area product Chao et al., 2014

CMUG meeting – March 2016 Emission comparisons Burned area (Mha yr -1 ) CO emissions (TgCO yr -1 ) Carbon emissions (PgC yr -1 ) GFED4 data set ORCHIDEE – GFED ORCHIDEE – Prognostic ORCHIDEE – Fire_cci ORCHIDEE – Fire_cci - HIGH ORCHIDEE - Fire_cci - LOW GFED3.1 data set Chuvieco et al., 2016, GEB

CMUG meeting – March 2016 Seasonal trends in carbon emissions Chuvieco et al., 2016, GEB

CMUG meeting – March 2016 Product Downloads (v3.0) 63 researchers from 26 countries (+ESA, JRC, FAO) DGVM, fire risk, fire behavior, emissions, terrestrial ecology, fire ecology, fire management

CMUG meeting – March 2016 Phase 2 Processing status Processing the Fire_cci product over the full temporal coverage of MERIS: o Adaptation and improvements on the MERIS BA algorithm. o Implementation at BC. o Global processing ( ). Next tasks: o Complete temporal series with MODIS, S-3 ( ). Potential extension to 1980 (AVHRR option): LTDR. o Small-fire database from Sentinel-2 & Prova-V (Africa).

CMUG meeting – March 2016 ¡Thank you!