Abstract
Abstract. With the support of new technologies such as of remote sensing, today's societies have been able to map and analyse wildland fires at large observational scales. With regards to burnt area mapping in particular, two of the most widely used operational products are offered today by the United States National Aeronautics and Space Administration (NASA) and the European Forest Fires Information System (EFFIS) of the European Commission. In this study, a rigorous intercomparison of the burnt area estimates derived by these two products is performed in a geographical information system (GIS) environment for the Greek fires that occurred from 2005 to 2007. For the same temporal interval, the relationships of the burnt area estimates by each product are examined with respect to land use/cover and elevation derived from CORINE 2000 and the ASTER global digital elevation model (GDEM), respectively. Generally, noticeable differences were found in the burnt area estimates by the two products both spatially and in absolute numbers. The main findings are described and the differences in the burnt area estimates between the two operational datasets are discussed. The lack of precise agreement between the two products which was found does not necessarily mean that one or the other product is inaccurate. Rather, it underlines the requirement for their calibration and validation using high-resolution remote sensing data in future studies. Our work not only builds upon a series of analogous studies evaluating the accuracy of the same or similar operational products worldwide, but also contributes towards the development of standardised validation methodologies required in objectively evaluating such datasets.
Highlights
Atmosp2hInestirtiucte of Geography & Earth Sciences, UnAivetrmsityoosfpAhbeeryrisctwyth, Old College, King Street, SY23 2DB Aberystwyth, MeasureWmaleesn, Ut K
The European Forest Fire Information System (EFFIS) burnt area vector file from each year of analysis was converted to raster with a cell resolution of 500 m since most of the data was collected in this format and resolution, retaining the original projection
“total common burnt area” between the MCD45A1 and EFFIS was in all years of our analysis lower than the “total not commonly detected burnt area”
Summary
Atmosp2hInestirtiucte of Geography & Earth Sciences, UnAivetrmsityoosfpAhbeeryrisctwyth, Old College, King Street, SY23 2DB Aberystwyth, MeasureWmaleesn, Ut K. Introduction analyse wildland fires at large observational scales. With regards to burnt area mapping in particular, two of the most Wildland fires cause an increasing amount of damage both. The European Forest Fires InformoaftitohneSyPs- astnatural ecosystems (FAO, 2001). In the short term of the European Commission. In this stuDdisyc,uassionsfires occurrence can be regarded as an irregular disturbance, rigorous intercomparison of the burnt area estimates derived at wider temporal observation intervals it may attain a more by these two products is performed in a geographical infor- regular character (Farina, 2000; Di Pasquale et al, 2004). In. EartDhySnyamctahsurmeaerttrerieeioecxdmlnaasfmtsriyooisnnmtesehdm2i0pw(0sGi5otIhfSto)trhee2esn0pvb0eiucr7rot.nnttFmoaorerleantanthdfeeosurstiastmhme/eacetGoetvsereemEbreypkaaoenfirardractDelhhesilypntehSrtvnDeaoartiydastvioucsoamcuclnt-st,esiicomnsstcyfihuereerarsrMeiinnnetdtethihltoeeemsrMreaeanneredte,aiatanessrr(9reRa0gnoi%eosaannoeifnthaaapllsal.,rwbt2ieic0leud0nll8aac)rnl.,odTfisfihreerelyeihssliaitgnahnkkaeeftrduperlqtaaoucleetahnneecdvycerlroeiy-fderived from CORINE 2000 and the ASTER global digi- matic conditions that dominate in these areas, characterised.
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