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Biogeosciences An interactive open-access journal of the European Geosciences Union

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Biogeosciences, 6, 235-249, 2009
http://www.biogeosciences.net/6/235/2009/
doi:10.5194/bg-6-235-2009
© Author(s) 2009. This work is distributed
under the Creative Commons Attribution 3.0 License.
 
20 Feb 2009
Estimates of fire emissions from an active deforestation region in the southern Amazon based on satellite data and biogeochemical modelling
G. R. van der Werf1, D. C. Morton2, R. S. DeFries3, L. Giglio4, J. T. Randerson5, G. J. Collatz6, and P. S. Kasibhatla7 1Faculty of Earth and Life Sciences, VU University, Amsterdam, The Netherlands
2Department of Geography, University of Maryland, College Park, MD, USA
3Department of Ecology, Evolution, and Environmental Biology, Columbia University, New York, NY, USA
4Science Systems and Applications, Inc., Lanham, MD, USA
5Department of Earth System Science, University of California, Irvine, CA, USA
6NASA Goddard Space Flight Center, Greenbelt, MD, USA
7Nicholas School of the Environment, Duke University, Durham, NC, USA
Abstract. Tropical deforestation contributes to the build-up of atmospheric carbon dioxide in the atmosphere. Within the deforestation process, fire is frequently used to eliminate biomass in preparation for agricultural use. Quantifying these deforestation-induced fire emissions represents a challenge, and current estimates are only available at coarse spatial resolution with large uncertainty. Here we developed a biogeochemical model using remote sensing observations of plant productivity, fire activity, and deforestation rates to estimate emissions for the Brazilian state of Mato Grosso during 2001–2005. Our model of DEforestation CArbon Fluxes (DECAF) runs at 250-m spatial resolution with a monthly time step to capture spatial and temporal heterogeneity in fire dynamics in our study area within the ''arc of deforestation'', the southern and eastern fringe of the Amazon tropical forest where agricultural expansion is most concentrated. Fire emissions estimates from our modelling framework were on average 90 Tg C year−1, mostly stemming from fires associated with deforestation (74%) with smaller contributions from fires from conversions of Cerrado or pastures to cropland (19%) and pasture fires (7%). In terms of carbon dynamics, about 80% of the aboveground living biomass and litter was combusted when forests were converted to pasture, and 89% when converted to cropland because of the highly mechanized nature of the deforestation process in Mato Grosso. The trajectory of land use change from forest to other land uses often takes more than one year, and part of the biomass that was not burned in the dry season following deforestation burned in consecutive years. This led to a partial decoupling of annual deforestation rates and fire emissions, and lowered interannual variability in fire emissions. Interannual variability in the region was somewhat dampened as well because annual emissions from fires following deforestation and from maintenance fires did not covary, although the effect was small due to the minor contribution of maintenance fires. Our results demonstrate how the DECAF model can be used to model deforestation fire emissions at relatively high spatial and temporal resolutions. Detailed model output is suitable for policy applications concerned with annual emissions estimates distributed among post-clearing land uses and science applications in combination with atmospheric emissions modelling to provide constrained global deforestation fire emissions estimates. DECAF currently estimates emissions from fire; future efforts can incorporate other aspects of net carbon emissions from deforestation including soil respiration and regrowth.

Citation: van der Werf, G. R., Morton, D. C., DeFries, R. S., Giglio, L., Randerson, J. T., Collatz, G. J., and Kasibhatla, P. S.: Estimates of fire emissions from an active deforestation region in the southern Amazon based on satellite data and biogeochemical modelling, Biogeosciences, 6, 235-249, doi:10.5194/bg-6-235-2009, 2009.
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