N: 90 S: -90 E: 180 W: -180
Description
The Moderate Resolution Imaging Spectroradiometer (MODIS) MCD43A3 Version 6.1 Albedo Model dataset is produced daily using 16 days of Terra and Aqua MODIS data at 500 meter (m) resolution. Data are temporally weighted to the ninth day of the 16 day which is reflected in the Julian date in the file name.
Users are urged to use the band specific quality flags to isolate the highest quality full inversion results for their own science applications as described in the User Guide.
The MCD43A3 provides black-sky albedo (directional hemispherical reflectance) and white-sky albedo (bihemispherical reflectance) data at local solar noon for MODIS bands 1 through 7 and the visible, near infrared (NIR), and shortwave bands. Along with the albedo layers are the simplified mandatory quality layers for each of the 10 bands. Essential quality information provided in the corresponding MCD43A2 data file should be consulted when using this product.
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.
Copy Citation
File Naming Convention
The file name begins with the Product Short Name (MCD43A3) followed by the Julian Date of Acquisition formatted as AYYYYDDD (A2025212), the Tile Identifier which is horizontal tile and vertical tile provided as hXXvYY (h11v12), the Version of the data collection (061), the Julian Date and Time of Production designated as YYYYDDDHHMMSS (2025221032740), and the Data Format (hdf).
Documents
USER'S GUIDE
ALGORITHM THEORETICAL BASIS DOCUMENT (ATBD)
PRODUCT QUALITY ASSESSMENT
SCIENCE DATA PRODUCT VALIDATION
Publications Citing This Dataset
| Title | Year Sort ascending | Author | Topic |
|---|---|---|---|
| Changes in the surface broadband shortwave radiation budget during the | Wen, Guoyong, Marshak, Alexander, Tsay, Si-Chee, Herman, Jay, Jeong, Ukkyo, Abuhassan, Nader, Swap, Robert, Wu, Dong | Albedo, Anisotropy, Atmospheric Emitted Radiation, Emissivity, Optical Depth/Thickness, Radiative Flux, Reflectance, Transmittance, Clouds, Cloud Condensation Nuclei, Cloud Droplet Concentration/Size, Cloud Liquid Water/Ice, Cloud Optical Depth/Thickness, Cloud Precipitable Water, Cloud Asymmetry, Cloud Ceiling, Cloud Frequency, Cloud Height, Cloud Top Pressure, Cloud Top Temperature, Cloud Vertical Distribution, Cloud Emissivity, Cloud Radiative Forcing, Cloud Reflectance, Cloud Types, Infrared Radiance, REFLECTED INFRARED, Visible Radiance, Cloud Properties, Cloud Fraction, Cloud Top Height | |
| Combining Multi-Source Data and Machine Learning Approaches to Predict | Wang, Yumiao, Zhang, Zhou, Feng, Luwei, Du, Qingyun, Runge, Troy | Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Albedo, Anisotropy | |
| Forest age mapping based on multiple-resource remote sensing data | Yang, Xiguang, Liu, Yuqi, Wu, Zechuan, Yu, Ying, Li, Fengri, Fan, Wenyi | Reflectance, Anisotropy, Albedo | |
| Forecasting time series albedo using NARnet based on EEMD decomposition | Zhang, Guodong, Zhou, Hongmin, Wang, Changjing, Xue, Huazhu, Wang, Jindi, Wan, Huawei | Albedo, Anisotropy | |
| Extraction of sub-pixel C3/C4 emissions of solar-induced chlorophyll fluorescence (SIF) using artificial neural network | Kira, Oz, Sun, Ying | Albedo, Anisotropy | |
| Evaluation of a new snow albedo scheme for the Greenland ice sheet in the Regional Atmospheric Climate Model (RACMO2) | van Dalum, Christiaan T., van de Berg, Willem Jan, Lhermitte, Stef, van den Broeke, Michiel R. | Albedo, Anisotropy | |
| Estimating spatio-temporal air temperature in London (UK) using machine learning and earth observation satellite data | dos Santos, Rochelle Schneider | Land Surface Temperature, Emissivity, Albedo, Anisotropy, Terrain Elevation, Digital Elevation/Terrain Model (DEM), Topographical Relief Maps, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI) | |
| Estimation of land surface albedo from MODIS and VIIRS dataA multi-sensor strategy based on the direct estimation algorithm and statistical-based temporal filter | Wang, Mengsi, Fan, Xianlei, Li, Xijia, Liu, Qiang, Qu, Ying | Albedo, Anisotropy | |
| Land surface temperature response to irrigated paddy field expansionA case study of semi-arid Western Jilin Province, China | Liu, Tingxiang, Yu, Lingxue, Zhang, Shuwen | Land Surface Temperature, Emissivity, Albedo, Anisotropy | |
| Modelling the Arctic taiga-tundra ecotone using ALOS PALSAR and optical earth observation data | Walther, Christian, Huttich, Christian, Urban, Marcel, Schmullius, Christiane | Canopy Characteristics, Evergreen Vegetation, Crown, Deciduous Vegetation, Leaf Characteristics, Vegetation Cover, Land Use/Land Cover Classification, Photosynthetically Active Radiation, Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Land Surface Temperature, Emissivity, Albedo, Anisotropy, Reflectance, Total Surface Water | |
| MOD-LSP, MODIS-based parameters for hydrologic modeling of North American land cover change | Bohn, Theodore J., Vivoni, Enrique R. | Land Use/Land Cover Classification, Photosynthetically Active Radiation, Leaf Area Index (LAI), Leaf Characteristics, Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Albedo, Anisotropy, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI) | |
| High-Resolution Global Contiguous SIF of OCO-2 | Yu, L., Wen, J., Chang, C. Y., Frankenberg, C., Sun, Y. | Albedo, Anisotropy | |
| Satellite data-driven modeling of field scale evapotranspiration in croplands using the MOD16 algorithm framework | He, Mingzhu, Kimball, John S., Yi, Yonghong, Running, Steven W., Guan, Kaiyu, Moreno, Alvaro, Wu, Xiaocui, Maneta, Marco | Land Use/Land Cover Classification, Reflectance, Albedo, Anisotropy | |
| Revisiting Pseudo Invariant Calibration Sites (PICS) over sand deserts for vicarious calibration of optical imagers at 20 km and 100 km scales | Bacour, Cedric, Briottet, Xavier, Breon, Francois-Marie, Viallefont-Robinet, Francoise, Bouvet, Marc | Albedo, Anisotropy | |
| Retrieval of the fraction of radiation absorbed by photosynthetic components (FAPARgreen) for forest using a triple-source leaf-wood-soil layer approach | Chen, Siyuan, Liu, Liangyun, Zhang, Xiao, Liu, Xinjie, Chen, Xidong, Qian, Xiaojin, Xu, Yue, Xie, Donghui | Land Use/Land Cover Classification, Leaf Characteristics, Photosynthetically Active Radiation, Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Albedo, Anisotropy | |
| Recovering evapotranspiration trends from biased CMIP5 simulations and sensitivity to changing climate over North America | Sullivan, Ryan C., Kotamarthi, V. Rao, Feng, Yan | Land Use/Land Cover Classification, Leaf Characteristics, Photosynthetically Active Radiation, Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Evapotranspiration, Latent Heat Flux, Albedo, Anisotropy | |
| Persistent albedo reduction on southern Icelandic glaciers due to ashfall from the 2010 Eyjafjallajokull eruption | Moller, Rebecca, Dagsson-Waldhauserova, Pavla, Moller, Marco, Kukla, Peter A., Schneider, Christoph, Gudmundsson, Magnus T. | Albedo, Anisotropy | |
| Persistent Hydrological Consequences of Hurricane Maria in Puerto Rico | Miller, P. W., Kumar, A., Mote, T. L., Moraes, F. D. S., Mishra, D. R. | Surface Pressure, Heat Flux, Longwave Radiation, Shortwave Radiation, Surface Temperature, Humidity, Evapotranspiration, Surface Winds, Rain, Precipitation Rate, Snow, Soil Moisture/Water Content, Soil Temperature, Land Surface Temperature, Snow Water Equivalent, Runoff, Reflectance, Leaf Characteristics, Photosynthetically Active Radiation, Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Albedo, Anisotropy | |
| Rapid ablation zone expansion amplifies north Greenland mass loss | Noel, Brice, van de Berg, Willem Jan, Lhermitte, Stef, van den Broeke, Michiel R. | Albedo, Anisotropy | |
| The impact of artificial wetland expansion on local temperature in the growing seasonThe case study of the Sanjiang Plain, China | Yu, Lingxue, Liu, Tingxiang | Land Surface Temperature, Emissivity, Evapotranspiration, Latent Heat Flux, Albedo, Anisotropy | |
| Temporal dynamics of albedo and climate in the sparse forests of Zagros | Alibakhshi, Sara, Hovi, Aarne, Rautiainen, Miina | Reflectance, Albedo, Anisotropy | |
| Spatial evaluation of soil moisture (SM), land surface temperature (LST), and LST-derived SM indexes dynamics during SMAPVEX12 | Sun, Hao, Zhou, Baichi, Liu, Hongxing | Photosynthetically Active Radiation, Leaf Area Index (LAI), Leaf Characteristics, Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Land Surface Temperature, Emissivity, Brightness Temperature, Land Use/Land Cover Classification, Soil Classification, Soil Moisture/Water Content, Soil Temperature, Vegetation Water Content, Albedo, Anisotropy | |
| Seasonal dynamics of albedo across European boreal forestsAnalysis of MODIS albedo and structural metrics from airborne LiDAR | Hovi, Aarne, Lindberg, Eva, Lang, Mait, Arumae, Tauri, Peuhkurinen, Jussi, Sirparanta, Sanna, Pyankov, Sergey, Rautiainen, Miina | Reflectance, Albedo, Anisotropy | |
| Sensitivity of coarse-scale snow-free land surface shortwave albedo to topography | Hao, Dalei, Wen, Jianguang, Xiao, Qing, Lin, Xingwen, You, Dongqin, Tang, Yong, Liu, Qiang, Zhang, Sisi | Albedo, Anisotropy, Reflectance, Land Use/Land Cover Classification, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Terrain Elevation, Digital Elevation/Terrain Model (DEM), Topographical Relief Maps | |
| Time series high-resolution land surface albedo estimation based on the ensemble Kalman filter algorithm | Zhang, Guodong, Zhou, Hongmin, Wang, Changjing, Xue, Huazhu, Wang, Jindi, Wan, Huawei | Albedo, Anisotropy |