N: 90 S: -90 E: 180 W: -180
Description
The Terra and Aqua combined MCD64A1 Version 6.1 Burned Area data product is a monthly, global gridded 500 meter (m) product containing per-pixel burned-area and quality information. The MCD64A1 burned-area mapping approach employs 500 m Moderate Resolution Imaging Spectroradiometer (MODIS) Surface Reflectance imagery coupled with 1 kilometer (km) MODIS active fire observations. The algorithm uses a burn sensitive Vegetation Index (VI) to create dynamic thresholds that are applied to the composite data. The VI is derived from MODIS shortwave infrared atmospherically corrected surface reflectance bands 5 and 7 with a measure of temporal texture. The algorithm identifies the date of burn for the 500 m grid cells within each individual MODIS tile. The date is encoded in a single data layer as the ordinal day of the calendar year on which the burn occurred with values assigned to unburned land pixels and additional special values reserved for missing data and water grid cells.
The data layers provided in the MCD64A1 product include Burn Date, Burn Data Uncertainty, Quality Assurance, along with First Day and Last Day of reliable change detection of the year.
Known Issues
- For complete information about known issues please refer to the MODIS/VIIRS Land Quality Assessment website.
Version Description
Product Summary
Citation
Citation is critically important for dataset documentation and discovery. This dataset is openly shared, without restriction, in accordance with the EOSDIS Data Use and Citation Guidance.
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File Naming Convention
The file name begins with the Product Short Name (MCD64A1) followed by the Julian Date of Acquisition formatted as AYYYYDDD (A2025152), the Tile Identifier which is horizontal tile and vertical tile provided as hXXvYY (h06v03), the Version of the data collection (061), the Julian Date and Time of Production designated as YYYYDDDHHMMSS (2025220161136), and the Data Format (hdf).
Documents
USER'S GUIDE
ALGORITHM THEORETICAL BASIS DOCUMENT (ATBD)
PRODUCT QUALITY ASSESSMENT
SCIENCE DATA PRODUCT VALIDATION
Dataset Resources
Publications Citing This Dataset
| Title | Year Sort ascending | Author | Topic |
|---|---|---|---|
| Generation and analysis of a new global burned area product based on MODIS 250 m reflectance bands and thermal anomalies | Chuvieco, Emilio, Lizundia-Loiola, Joshua, Pettinari, Maria Lucrecia, Ramo, Ruben, Padilla, Marc, Tansey, Kevin, Mouillot, Florent, Laurent, Pierre, Storm, Thomas, Heil, Angelika, Plummer, Stephen | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Performance of three MODIS fire products (MCD45A1, MCD64A1, MCD14ML), and ESA Fire_CCI in a mountainous area of Northwest Yunnan, China, characterized by frequent small fires | Fornacca, Davide, Ren, Guopeng, Xiao, Wen | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| A burned area mapping algorithm for Chinese FengYun-3 MERSI satellite data | Shan, Tianchan, Wang, Changlin, Chen, Fang, Wu, Qinchun, Li, Bin, Yu, Bo, Shirazi, Zeeshan, Lin, Zhengyang, Wu, Wei | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Continent-level drivers of African pyrodiversity | Hempson, Gareth P., Parr, Catherine L., Archibald, Sally, Anderson, T. Michael, Mustaphi, Colin J. Courtney, Dobson, Andrew P., Donaldson, Jason E., Morrison, Thomas A., Probert, James, Beale, Colin M. | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Developing a random forest algorithm for MODIS global burned area classification | Ramo, Ruben, Chuvieco, Emilio | Reflectance, Anisotropy, Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Albedo changes after fire as an explanation of fire-induced rainfall suppression | Saha, Michael V., D'Odorico, Paolo, Scanlon, Todd M. | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area, Albedo, Anisotropy | |
| Characterisation of spatial and temporal distribution of the fire regime in Niassa National Reserve, northern Mozambique | Ribeiro, N. S., Cangela, A., Chauque, A., Bandeira, R. R., Ribeiro-Barros, A. I. | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Burned area mapping in the Brazilian Savanna using a one-class support vector machine trained by active fires | Pereira, Allan, Pereira, Jose, Libonati, Renata, Oom, Duarte, Setzer, Alberto, Morelli, Fabiano, Machado-Silva, Fausto, De Carvalho, Luis | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Fire regimes and their drivers in the Upper Guinean Region of West Africa | Dwomoh, Francis, Wimberly, Michael | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Fire response to local climate variabilityHuascaran National Park, Peru | All, John, Medler, Michael, Arques, Sylvie, Cole, Rebecca, Woodall, Tommy, King, Justin, Yan, Jun, Schmitt, Carl | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area, Land Surface Temperature, Surface Thermal Properties, THERMAL ANOMALIES | |
| Linking land surface phenology and vegetation-plot databases to model terrestrial plant alpha-diversity of the Okavango Basin | Revermann, Rasmus, Finckh, Manfred, Stellmes, Marion, Strohbach, Ben, Frantz, David, Oldeland, Jens | Fire Occurrence, Surface Thermal Properties, Land Surface Temperature, THERMAL ANOMALIES, RADAR IMAGERY, Terrain Elevation, Digital Elevation/Terrain Model (DEM), Fire Ecology, Biomass Burning, Wildfires, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Burned Area | |
| Remote sensing derived fire frequency, soil moisture and ecosystem productivity explain regional movements in emu over Australia | Madani, Nima, Kimball, John S., Nazeri, Mona, Kumar, Lalit, Affleck, David L. R. | Land Use/Land Cover Classification, Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI) | |
| Ecological legacies of civil war35-year increase in savanna tree cover following wholesale large-mammal declines | Daskin, Joshua H., Stalmans, Marc, Pringle, Robert M. | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| A MODIS-based burned area assessment for Russian croplandsmapping requirements and challenges | Hall, Joanne V., Loboda, Tatiana V., Giglio, Louis, McCarty, Gregory W. | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Satellite-based automated burned area detection: a performance assessment of the MODIS MCD45A1 in the Brazilian savanna | Araujo, Fernando Moreira De, Ferreira, Laerte G. | Fire Occurrence, Surface Thermal Properties, Land Surface Temperature, THERMAL ANOMALIES, Fire Ecology, Biomass Burning, Wildfires, Burned Area | |
| Relationships between burned area, forest cover loss, and land cover change in the Brazilian Amazon based on satellite data | Fanin, T., van der Werf, G. R. | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| The implications of fire management in the andean paramoa preliminary assessment using satellite remote sensing | Borrelli, Pasquale, Armenteras, Dolors, Panagos, Panos, Modugno, Sirio, Schutt, Brigitta | Land Use/Land Cover Classification, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Semi-automated mapping of burned areas in semi-arid ecosystems using MODIS time-series imagery | Hardtke, Leonardo A., Blanco, Paula D., Valle, Hector F.del, Metternicht, Graciela I., Sione, Walter F. | Fire Occurrence, Surface Thermal Properties, Land Surface Temperature, THERMAL ANOMALIES, Fire Ecology, Biomass Burning, Wildfires, Burned Area | |
| Comparison of forest burned areas in mainland China derived from MCD45A1 and data recorded in yearbooks from 2001 to 2011 | Li, Jianfeng, Song, Yu, Huang, Xin, Li, Mengmeng | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Global analysis of radiative forcing from fire-induced shortwave albedo change | Lopez-Saldana, G., Bistinas, I., Pereira, J. M. C. | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area, Reflectance, Albedo, Anisotropy | |
| Estimating burned area in Mato Grosso, Brazil, using an object-based classification method on a systematic sample of medium resolution satellite images | Shimabukuro, Yosio Edemir, Miettinen, Jukka, Beuchle, Rene, Grecchi, Rosana Cristina, Simonetti, Dario, Achard, Frederic | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Estimating emissions from agricultural fires in the North China Plain based on MODIS fire radiative power | Liu, Mingxu, Song, Yu, Yao, Huan, Kang, Yaning, Li, Mengmeng, Huang, Xin, Hu, Min | Land Use/Land Cover Classification, Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Global fire size distribution is driven by human impact and climate | Hantson, Stijn, Pueyo, Salvador, Chuvieco, Emilio | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area, Canopy Characteristics, Evergreen Vegetation, Crown, Deciduous Vegetation, Leaf Characteristics, Vegetation Cover, Land Use/Land Cover Classification | |
| Modeling regional-scale wildland fire emissions with the Wildland Fire Emissions Information System | French, Nancy H. F., McKenzie, Donald, Erickson, Tyler, Koziol, Benjamin, Billmire, Michael, Endsley, K. Arthur, Yager Scheinerman, Naomi K., Jenkins, Liza, Miller, Mary Ellen, Ottmar, Roger, Prichard, Susan | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Mapping the daily progression of large wildland fires using MODIS active fire data | Veraverbeke, Sander, Sedano, Fernando, Hook, Simon J., Randerson, James T., Jin, Yufang, Rogers, Brendan M. | Fire Occurrence, Surface Thermal Properties, Land Surface Temperature, THERMAL ANOMALIES, Fire Ecology, Biomass Burning, Wildfires, Burned Area |