Add to ORKGSatellite fire products have the potential to construct inter-annual time series of fire activity, but estimating area burned requires considering biases introduced by orbiting geometry, fire behavior, and the presence of clouds and smoke. Here we evaluated the performance of fire counts from the Advanced Thermal Scanning Radiometer (ATSR) for the boreal forest region using area burned information from other sources. We found ATSR detection rate varied between regions and different years, being higher during large fire years than during small fire years. The results show ATSR fire counts do not represent an unbiased sample of fire activity, and independent validation may be required prior to using this data set in studies of global emission...
Several global datasets on fire distribution are being generated from remotely sensed data to suppor...
© The Author(s).Alaska’s boreal region stores large amounts of carbon both in its woodlands and in t...
We develop a simulation model for prediction of forest canopy interception of upwelling fire radiate...
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...
Biomass burning has long been recognised as an important source of trace gases and aerosols in the a...
This paper presents an evaluation of advanced very high resolution radiometer (AVHRR)-based remote s...
[1] Quantifying the contribution of biomass burning to the global distribution of emissions of carbo...
The potential to combine data from two different satellite systems was studied to increase fire dete...
We compared fires detected by different satellite systems with in-situ data mainly for Finland from ...
Satellite observations of fire occurrence, extent, and spread have become a routine source of inform...
Thermal remote sensing is widely used in the detection, study, and management of biomass burning occ...
Alaska’s boreal region stores large amounts of carbon both in its woodlands and in the grounds that ...
We screened the algorithm 2 ( 308 K threshold) European Space Agency (ESA) World Fire Atlas (WFA), f...
We screened the algorithm 2 (308 K threshold) European Space Agency (ESA) World Fire Atlas (WFA), fo...
Several global datasets on fire distribution are being generated from remotely sensed data to suppor...
© The Author(s).Alaska’s boreal region stores large amounts of carbon both in its woodlands and in t...
We develop a simulation model for prediction of forest canopy interception of upwelling fire radiate...
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...
Biomass burning has long been recognised as an important source of trace gases and aerosols in the a...
This paper presents an evaluation of advanced very high resolution radiometer (AVHRR)-based remote s...
[1] Quantifying the contribution of biomass burning to the global distribution of emissions of carbo...
The potential to combine data from two different satellite systems was studied to increase fire dete...
We compared fires detected by different satellite systems with in-situ data mainly for Finland from ...
Satellite observations of fire occurrence, extent, and spread have become a routine source of inform...
Thermal remote sensing is widely used in the detection, study, and management of biomass burning occ...
Alaska’s boreal region stores large amounts of carbon both in its woodlands and in the grounds that ...
We screened the algorithm 2 ( 308 K threshold) European Space Agency (ESA) World Fire Atlas (WFA), f...
We screened the algorithm 2 (308 K threshold) European Space Agency (ESA) World Fire Atlas (WFA), fo...
Several global datasets on fire distribution are being generated from remotely sensed data to suppor...
© The Author(s).Alaska’s boreal region stores large amounts of carbon both in its woodlands and in t...
We develop a simulation model for prediction of forest canopy interception of upwelling fire radiate...