Development of a virtual active fire product for Africa through a synthesis of geostationary and polar orbiting satellite data
Development of a virtual active fire product for Africa through a synthesis of geostationary and polar orbiting satellite data
We explore the ability to enhance landscape fire detection and characterization by constructing a ‘virtual’ fire product from a synthesis of geostationary and polar orbiting satellite data. Active fire pixels detected by the Spinning Enhanced Visible and Infrared Imager (SEVIRI) and the Moderate Resolution Imaging Spectroradiometer (MODIS) were spatially and temporally collated across Africa between February 2004 and January 2005. Coincident fire pixels detected by SEVIRI and MODIS were used to populate an empirical database of frequency density (f-D) distributions of fire radiative power (FRP). Frequency density distributions of FRP measured by SEVIRI at 5.0° grid cell resolution and 15-minute temporal resolution were then cross referenced in the database to a set of counterpart f-D distributions of FRP measured by MODIS. This procedure resulted in the first generation of a ‘virtual’ fire product that exhibits the full continental coverage and high temporal resolution of SEVIRI whilst quantifying fire pixel counts and FRP with accuracies approaching those of MODIS. Diurnal cycles extracted from the virtual fire product indicate that SEVIRI measures a greater proportion of the active fire pixels and FRP potentially detectable by MODIS during the day due to the increased prevalence and stronger radiant contribution of highly energetic fire pixels. On a daily basis (sample size n = 365) the peak magnitude in the diurnal cycle of the virtual FRP occurred within the same 15-minute timeslot as in the native SEVIRI fire product. Continental-scale ignition and extinction events, however, were detected on average 44 min earlier (standard deviation s.d. = 40 min) and 137 min later (s.d. = 92 min), respectively. It is anticipated that the methodology developed here can be used to cross-calibrate active fire products between a variety of different satellite platforms.
1700-1711
Freeborn, Patrick H.
0b629922-ad4e-4669-8317-f94c570d2df9
Wooster, Martin J.
b5333d24-509d-463b-8767-e2ca1f367805
Roberts, Gareth
fa1fc728-44bf-4dc2-8a66-166034093ef2
Malamud, Bruce D.
acb2c0a8-5063-47d2-a7fc-daaa04f9d68b
Xu, Weidong
76c3dcac-a4b6-43c7-81bf-d8bbeca8bb6b
August 2009
Freeborn, Patrick H.
0b629922-ad4e-4669-8317-f94c570d2df9
Wooster, Martin J.
b5333d24-509d-463b-8767-e2ca1f367805
Roberts, Gareth
fa1fc728-44bf-4dc2-8a66-166034093ef2
Malamud, Bruce D.
acb2c0a8-5063-47d2-a7fc-daaa04f9d68b
Xu, Weidong
76c3dcac-a4b6-43c7-81bf-d8bbeca8bb6b
Freeborn, Patrick H., Wooster, Martin J., Roberts, Gareth, Malamud, Bruce D. and Xu, Weidong
(2009)
Development of a virtual active fire product for Africa through a synthesis of geostationary and polar orbiting satellite data.
Remote Sensing of Environment, 113 (8), .
(doi:10.1016/j.rse.2009.03.013).
Abstract
We explore the ability to enhance landscape fire detection and characterization by constructing a ‘virtual’ fire product from a synthesis of geostationary and polar orbiting satellite data. Active fire pixels detected by the Spinning Enhanced Visible and Infrared Imager (SEVIRI) and the Moderate Resolution Imaging Spectroradiometer (MODIS) were spatially and temporally collated across Africa between February 2004 and January 2005. Coincident fire pixels detected by SEVIRI and MODIS were used to populate an empirical database of frequency density (f-D) distributions of fire radiative power (FRP). Frequency density distributions of FRP measured by SEVIRI at 5.0° grid cell resolution and 15-minute temporal resolution were then cross referenced in the database to a set of counterpart f-D distributions of FRP measured by MODIS. This procedure resulted in the first generation of a ‘virtual’ fire product that exhibits the full continental coverage and high temporal resolution of SEVIRI whilst quantifying fire pixel counts and FRP with accuracies approaching those of MODIS. Diurnal cycles extracted from the virtual fire product indicate that SEVIRI measures a greater proportion of the active fire pixels and FRP potentially detectable by MODIS during the day due to the increased prevalence and stronger radiant contribution of highly energetic fire pixels. On a daily basis (sample size n = 365) the peak magnitude in the diurnal cycle of the virtual FRP occurred within the same 15-minute timeslot as in the native SEVIRI fire product. Continental-scale ignition and extinction events, however, were detected on average 44 min earlier (standard deviation s.d. = 40 min) and 137 min later (s.d. = 92 min), respectively. It is anticipated that the methodology developed here can be used to cross-calibrate active fire products between a variety of different satellite platforms.
This record has no associated files available for download.
More information
Published date: August 2009
Organisations:
Geography
Identifiers
Local EPrints ID: 178477
URI: http://eprints.soton.ac.uk/id/eprint/178477
ISSN: 0034-4257
PURE UUID: 887d3b1d-59c9-4d6c-960d-c446230eef7e
Catalogue record
Date deposited: 24 Mar 2011 15:50
Last modified: 14 Mar 2024 02:57
Export record
Altmetrics
Contributors
Author:
Patrick H. Freeborn
Author:
Martin J. Wooster
Author:
Bruce D. Malamud
Author:
Weidong Xu
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
