Add to ORKGBiomass burning has long been recognised as an important source of trace gases and aerosols in the atmosphere. The burning of vegetation has a repeating seasonal pattern, but the intensity of burning and the exact localisation of fires vary considerably from year to year. Recent studies have demonstrated the high interannual variability of the emissions that are associated with biomass burning. In this paper I present a methodology using active fire counts from the Along- Track Scanning Radiometer (ATSR) sensor on board the ERS-2 satellite to estimate the seasonal and interannual variability of global biomass burning emissions in the time period 1996- 2000. From the ATSR data, I compute relative scaling factors of burning intensity for each...
A process-based fire regime model (SPITFIRE) has been developed, coupled with ecosystem dynamics in ...
A process-based fire regime model (SPITFIRE) has been developed, coupled with ecosystem dynamics in ...
We compare five global inventories of monthly CO emissions named VGT, ATSR, MODIS, GFED3 and MOPITT ...
International audienceBiomass burning has long been recognised as an important source of trace gases...
This paper suggests a method for improving current inventories of aerosol emissions from biomass bu...
Biomass burning represents an important source of atmospheric aerosols and greenhouse gases, yet lit...
International audienceBiomass burning represents an important source of atmospheric aerosols and gre...
Attribution of the causes of atmospheric trace gas and aerosol variability often requires the use of...
Attribution of the causes of atmospheric trace gas and aerosol variability often requires the use of...
In many regions of the world, fires are an important and highly variable source of air pollutant em...
Satellite fire products have the potential to construct inter-annual time series of fire activity, b...
Satellite fire products have the potential to construct inter-annual time series of fire activity, b...
A process-based fire regime model (SPITFIRE) has been developed, coupled with ecosystem dynamics in ...
A process-based fire regime model (SPITFIRE) has been developed, coupled with ecosystem dynamics in ...
We compare five global inventories of monthly CO emissions named VGT, ATSR, MODIS, GFED3 and MOPITT ...
International audienceBiomass burning has long been recognised as an important source of trace gases...
This paper suggests a method for improving current inventories of aerosol emissions from biomass bu...
Biomass burning represents an important source of atmospheric aerosols and greenhouse gases, yet lit...
International audienceBiomass burning represents an important source of atmospheric aerosols and gre...
Attribution of the causes of atmospheric trace gas and aerosol variability often requires the use of...
Attribution of the causes of atmospheric trace gas and aerosol variability often requires the use of...
In many regions of the world, fires are an important and highly variable source of air pollutant em...
Satellite fire products have the potential to construct inter-annual time series of fire activity, b...
Satellite fire products have the potential to construct inter-annual time series of fire activity, b...
A process-based fire regime model (SPITFIRE) has been developed, coupled with ecosystem dynamics in ...
A process-based fire regime model (SPITFIRE) has been developed, coupled with ecosystem dynamics in ...
We compare five global inventories of monthly CO emissions named VGT, ATSR, MODIS, GFED3 and MOPITT ...