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 |
|---|---|---|---|
| Prescribed burning and integrated fire management in the Brazilian Cerrado: demonstrated impacts and scale-up potential for emission abatement | Franke, Jonas, Sena Barradas, Ana Carolina, Borges, Kelly Maria Resende, Hoffmann, Anja A, Filho, Juan Carlos Orozco, Ramos, Rossano Marchetti, Steil, Lara, Roman-Cuesta, Rosa Maria | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Quantifying Prescribed-Fire Smoke Exposure Using Low-Cost Sensors and | Sablan, Olivia, Ford, Bonne, Gargulinski, Emily, Hammer, Melanie S., Henery, Giovanna, Kondragunta, Shobha, Martin, Randall V., Rosen, Zoey, Slater, Kellin, van Donkelaar, Aaron, Zhang, Hai, Soja, Amber J., Magzamen, Sheryl, Pierce, Jeffrey R., Fischer, Emily V. | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Observational Support for Regional Policy Implementation: Land Surface Change Under Anthropogenic and Climate Pressure in SALDi Study Sites | Baade, Jussi, Gessner, Ursula, Hahndiek, Eugene, Harmse, Christiaan, Hill, Steven, Hirner, Andreas, Maruping-Mzileni, Nkabeng, Otte, Insa, Pathe, Carsten, Renner, Paul, Schellenberg, Konstantin, Selvaraj, Shanmugapriya, Smith, Chris, Strydom, Tercia, Swanepol, Annette, Thonfeld, Frank, Urban, Marcel, Zhang, Zhenyu, Schmullius, Christiane | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Radiative forcing geoengineering causes higher risk of wildfires and permafrost thawing over the Arctic regions | Muller, Rhonda C., Kim, Jin-Soo, Lee, Hanna, Muri, Helene, Tjiputra, Jerry, Yoon, Jin-Ho, Schaepman-Strub, Gabriela | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Multi-timescale variation characteristics of PM2. 5 in different regions of China during 20142022 | Liu, Rui, Shao, Min, Wang, Qin'geng | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Monitoring the impact of forest changes on carbon uptake with solar-induced fluorescence measurements from GOME-2A and TROPOMI for an Australian and ... | Anema, Juliette C. S., Boersma, Klaas Folkert, Stammes, Piet, Koren, Gerbrand, Woodgate, William, Kohler, Philipp, Frankenberg, Christian, Stol, Jacqui | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| The key role of extreme weather and climate change in the occurrence of exceptional fire seasons in south-central Chile | Carrasco-Escaff, Tomas, Garreaud, Rene, Bozkurt, Deniz, Jacques-Coper, Martin, Pauchard, Anibal | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| State of Wildfires 2023-2024 | Jones, Matthew W., Kelley, Douglas I., Burton, Chantelle A., Di Giuseppe, Francesca, Barbosa, Maria Lucia F., Brambleby, Esther, Hartley, Andrew J., Lombardi, Anna, Mataveli, Guilherme, McNorton, Joe R., Spuler, Fiona R., Wessel, Jakob B., Abatzoglou, John T., Anderson, Liana O., Andela, Niels, Archibald, Sally, Armenteras, Dolors, Burke, Eleanor, Carmenta, Rachel, Chuvieco, Emilio, Clarke, Hamish, Doerr, Stefan H., Fernandes, Paulo M., Giglio, Louis, Hamilton, Douglas S., Hantson, Stijn, Harris, Sarah, Jain, Piyush, Kolden, Crystal A., Kurvits, Tiina, Lampe, Seppe, Meier, Sarah, New, Stacey, Parrington, Mark, Perron, Morgane M. G., Qu, Yuquan, Ribeiro, Natasha S., Saharjo, Bambang H., San-Miguel-Ayanz, Jesus, Shuman, Jacquelyn K., Tanpipat, Veerachai, van der Werf, Guido R., Veraverbeke, Sander, Xanthopoulos, Gavriil | 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 | |
| The Dead Forest of Chiefs Island: Soil Water Logging from Major Floods and Rainfalls Drive Rapid Vegetation Change in the Okavango Delta (Botswana) | Jolivet, Marc, Murray-Hudson, Mike, Makati, Kaelo, Dauteuil, Olivier, Gaudare, Louis | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Spatial and Temporal Analysis of Wildfires in Ecuador Using Remote Sensing Data | Cisneros Vaca, Cesar, Calahorrano, Julia, Manzano, Mery | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Sentinel-2 Reference Fire Perimeters for the Assessment of Burned Area Products over Latin America and the Caribbean for the Year 2019 | Gonzalez-Ibarzabal, Jon, Franquesa, Magi, Rodriguez-Montellano, Armando, Bastarrika, Aitor | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Small Fires, Big Impact: Evaluating Fire Emission Estimates in Southern | van der Velde, I. R., van der Werf, G. R., van Wees, D., Schutgens, N. A. J., Vernooij, R., Houweling, S., Tonucci, E., Chuvieco, E., Randerson, J. T., Frey, M. M., Borsdorff, T., Aben, I. | Land Use/Land Cover Classification, Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Validation and Error Minimization of Global Ecosystem Dynamics | East, Alyson, Hansen, Andrew, Jantz, Patrick, Currey, Bryce, Roberts, David W., Armenteras, Dolors | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Untangling the environmental drivers of gross primary productivity in African rangelands | Lomax, Guy A., Powell, Thomas W. R., Lenton, Timothy M., Economou, Theo, Cunliffe, Andrew M. | Land Use/Land Cover Classification, Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Critical slowing down of the Amazon forest after increased drought occurrence | Van Passel, Johanna, Bernardino, Paulo N., Lhermitte, Stef, Rius, Bianca F., Hirota, Marina, Conradi, Timo, de Keersmaecker, Wanda, Van Meerbeek, Koenraad, Somers, Ben | RADAR IMAGERY, Terrain Elevation, Digital Elevation/Terrain Model (DEM), Canopy Characteristics, Evergreen Vegetation, Crown, Deciduous Vegetation, Leaf Characteristics, Vegetation Cover, Land Use/Land Cover Classification, Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Reflectance, Anisotropy, Albedo, Burned Area | |
| Drought and Wildfire Trends in Native Forests of South-Central Chile in | Duarte, Efrain, Rubilar, Rafael, Matus, Francisco, Garrido-Ruiz, Claudia, Merino, Carolina, Smith-Ramirez, Cecilia, Aburto, Felipe, Rojas, Claudia, Stehr, Alejandra, Dorner, Jose, Najera, Francisco, Barrientos, Guillermo, Jofre, Ignacio | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Active fire-based dating accuracy for Landsat burned area maps is high in boreal and Mediterranean biomes and low in grasslands and savannas | Neves, Alana K., Pereira, Jose M.C., Silva, Joao M.N., Catarino, Silvia, Oliva, Patricia, Chuvieco, Emilio, Campagnolo, Manuel L. | Fire Occurrence, Surface Thermal Properties, Land Surface Temperature, THERMAL ANOMALIES, Fire Ecology, Biomass Burning, Wildfires, Burned Area | |
| A Multisource Data Approach for Change and Disturbance Mapping of Ontario's Clay Belt Towards More Accurate Carbon and Emissions Estimation | Ituen, Ima, Hu, Baoxin | Land Use/Land Cover Classification, Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| A global dataset of carbon pumping by the world's largest tropical rivers | Salerno, Luca, Giulio Tonolo, Fabio, Camporeale, Carlo | Land Use/Land Cover Classification, Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Annual and Seasonal Patterns of Burned Area Products in Arctic-Boreal North America and Russia for 20012020 | Clelland, Andrew A., Marshall, Gareth J., Baxter, Robert, Potter, Stefano, Talucci, Anna C., Rady, Joshua M., Genet, Helene, Rogers, Brendan M., Natali, Susan M. | Reflectance, Fire Occurrence, Surface Thermal Properties, Land Surface Temperature, THERMAL ANOMALIES, Fire Ecology, Biomass Burning, Wildfires, Burned Area, Emissions, Forests, Carbon, Land Use/Land Cover Classification, Canopy Characteristics, Evergreen Vegetation, Crown, Deciduous Vegetation, Leaf Characteristics, Vegetation Cover, Reforestation, Carbonaceous Aerosols, Nitrogen Oxides, Particulates, Hydrogen Cyanide, Non-methane Hydrocarbons/Volatile Organic Compounds, Particulate Matter, Nitrogen Oxides, Sulfur Dioxide, Carbon And Hydrocarbon Compounds, Fire Dynamics, Normalized Difference Vegetation Index (NDVI), Albedo | |
| Assessment of Post-Fire Forest Loss in Siberia Using Satellite Data and Its Relationship with Characteristics of Fires | Shvetsov, E. G. | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Application of remote sensing data in large-scale monitoring of wetlands | Shinkarenko, S. S., Bartalev, S. A. | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Attribution of summer 2022 extreme wildfire season in Southwest France to anthropogenic climate change | Lanet, Marine, Li, Laurent, Ehret, Antoine, Turquety, Solene, Le Treut, Herve | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Chemical composition and origins of PM <sub>2.5</sub> in Chiang Mai | Chansuebsri, Sarana, Kolar, Petr, Kraisitnitikul, Pavidarin, Kantarawilawan, Natthanit, Yabueng, Nuttipon, Wiriya, Wan, Thepnuan, Duangduean, Chantara, Somporn | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | |
| Changes in Water and Carbon Fluxes in the USA Southern Great Plains Grassland Due to Evergreen Forest Encroachment | Yang, Xuebin, Xiao, Xiangming, Zhang, Chenchen, Celis, Jorge | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area |