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.
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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 |
|---|---|---|---|
| Identification of surface urban heat versus cool islands for arid cities depends on the choice of urban and rural definitions | Liu, Zehong, Ye, Richen, Yang, Qiquan, Hu, Ting, Liu, Yue, Chakraborty, TC, Liao, Zhenxuan | Land Use/Land Cover Classification, Albedo, Anisotropy, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI) | |
| Natural forest regeneration is projected to reduce local temperatures | Alibakhshi, Sara, Cook-Patton, Susan C., Davin, Edouard, Maeda, Eduardo Eiji, Araujo, Miguel Bastos, Heinlein, Daniel, Heiskanen, Janne, Pellikka, Petri, Crowther, Thomas W. | Land Surface Temperature, Emissivity, Albedo, Anisotropy, Reflectance, Evapotranspiration, Latent Heat Flux | |
| Retrieval of high-resolution melting-season albedo and its implications for the Karakoram Anomaly | Xie, Fuming, Liu, Shiyin, Zhu, Yu, Qing, Xinyi, Tan, Shucheng, Gao, Yongpeng, Qi, Miaomiao, Yi, Ying, Ye, Hui, Afzal, Muhammad Mannan, Zhang, Xianhe, Zhou, Jun | Albedo, Anisotropy | |
| Response of Land Surface Albedo to Fire Disturbance in the Sierra Nevada Seasonal Snow Zone Over the MODIS Record | Gayler, J. M., Skiles, S. M. | Albedo, Anisotropy | |
| Reducing Resolution Dependency of Dust Emission Modeling Using | Chappell, Adrian, Hennen, Mark, Schepanski, Kerstin, Dhital, Saroj, Tong, Daniel | Land Use/Land Cover Classification, Reflectance, Albedo, Anisotropy | |
| PhySoilNet: A deep learning downscaling model for microwave satellite | Xu, Zhenheng, Sun, Hao, Gao, JinHua, Wang, Yunjia, Wu, Dan, Zhang, Tian, Xu, Huanyu | Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Leaf Characteristics, Photosynthetically Active Radiation, Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux, Albedo, Anisotropy | |
| Non-negligible clear-sky biases of satellite thermal infrared observations for analyzing surface urban heat island intensity: A case study in China | Ma, Jin, Zhou, Ji, Zhang, Tao, Tang, Wenbin, Liao, Yangsiyu, Yang, Miao | Precipitation, Precipitation Amount, Precipitation Rate, Snow, Rain, Albedo, Anisotropy, Land Surface Temperature, Emissivity, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Air Temperature, 24 Hour Maximum Temperature, 24 Hour Minimum Temperature, Land Use/Land Cover Classification | |
| The local cooling potential of land restoration in Africa | Ruijsch, Jessica, Teuling, Adriaan J., Duveiller, Gregory, Hutjes, Ronald W. A. | Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Albedo, Anisotropy | |
| Spatio-temporal heterogeneity and driving mechanism of ecosystem water | Wang, Feiyu, Xia, Jun, Zou, Lei, Zhang, Liping, Li, Xiaoyang, Yu, Jiarui | Albedo, Anisotropy, Reflectance, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Photosynthesis, Primary Production, Vegetation Productivity, 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, Leaf Characteristics, Photosynthetically Active Radiation, Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Land Use/Land Cover Classification | |
| Using hydrological modeling and satellite observations to elucidate subsurface and surface hydrological responses to the extreme drought | Tang, Zixuan, Zhang, Yongqiang, Tian, Jing, Ma, Ning, Li, Xiaojie, Kong, Dongdong, Cao, Yijing, Yang, Xuening, Wang, Longhao, Zhang, Xuanze, Chen, Yuyin | Land Surface Temperature, Emissivity, Leaf Characteristics, Photosynthetically Active Radiation, Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Albedo, Anisotropy | |
| Unequal distributions of crowdsourced weather data in England and Wales | Brousse, Oscar, Simpson, Charles H., Poorthuis, Ate, Heaviside, Clare | Albedo, Anisotropy | |
| Threshold of climate extremes that impact vegetation productivity over the Tibetan Plateau | Piao, Zhenggang, Li, Xiangyi, Xu, Hao, Wang, Kai, Tang, Shuchang, Kan, Fei, Hong, Songbai | Albedo, Anisotropy, Reflectance, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI) | |
| Critical Evaluation of the Spatiotemporal Behavior of UHI, through Correlation Analyses based on Multi-City Heterogeneous Dataset | Singh, Manan, Sharston, Ryan, Murtha, Timothy | Population Density, Albedo, Anisotropy, Population, Urban Areas, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI) | |
| Developing an annual building volume dataset at 1-km resolution from 2001 to 2019 in China | Yan, Wenting, Wu, Jianping, Zhang, Chaoqun, Chen, Xiuzhi, Ren, Jiashun, Xiao, Zhenzhen, Liao, Ziyin, Lafortezza, Raffaele, Li, Xueyan, Su, Yongxian | Land Surface Temperature, Emissivity, Albedo, Anisotropy | |
| A global assessment of the effects of solar farms on albedo, vegetation, and land surface temperature using remote sensing | Xu, Zhengjie, Li, Yan, Qin, Yingzuo, Bach, Eviatar | Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Land Surface Temperature, Emissivity, Land Use/Land Cover Classification, Albedo, Anisotropy | |
| Analysis of environmental variables and deforestation in the amazon using logistical regression models | da Silva, Helder J. F., Goncalves, Weber A., Bezerra, Bergson G., Santos e Silva, Claudio M., de Oliveira, Cristiano P., Junior, Jorio B. Cabral, Rodrigues, Daniele T., Silva, Fabricio D. S. | Land Surface Temperature, Emissivity, Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux, Vegetation Productivity, Albedo, Anisotropy, Reflectance, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI) | |
| Asymmetry in the Diurnal Variation of Land Surface Albedo and Its | Han, Yuan, Wen, Jianguang, Xiao, Qing, You, Dongqin, Meng, Lei, Wu, Shengbiao, Hao, Dalei, Tang, Yong, Chen, Xi, Liu, Qinhuo, Zhao, Congcong | Albedo, Anisotropy | |
| Atmospheric-river-induced foehn events drain glaciers on Novaya Zemlya | Haacker, J., Wouters, B., Fettweis, X., Glissenaar, I. A., Box, J. E. | Albedo, Anisotropy | |
| Characterizing the effects of atmospheric and land surface factors on | Han, Yuan, Wen, Jianguang, Xiao, Qing, Wu, Xiaodan, You, Dongqin, Tang, Yong, Gong, Baochang, Zhang, Hailong, Liu, Qinhuo, Zhu, Wenzhe, Chen, Zeqiu | Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Albedo, Anisotropy | |
| Climate regulation processes are linked to the functional composition of | Kambach, Stephan, Attorre, Fabio, Axmanova, Irena, Bergamini, Ariel, Biurrun, Idoia, Bonari, Gianmaria, Carranza, Maria Laura, Chiarucci, Alessandro, Chytry, Milan, Dengler, Jurgen, Garbolino, Emmanuel, Golub, Valentin, Hickler, Thomas, Jandt, Ute, Jansen, Jan, JimenezAlfaro, Borja, Karger, Dirk Nikolaus, Lososova, Zdenka, Rasomavicius, Valerijus, Rusina, Solvita, Sieber, Petra, Stanisci, Angela, Thuiller, Wilfried, Welk, Erik, Zimmermann, Niklaus E., Bruelheide, Helge | Photosynthesis, Primary Production, Vegetation Productivity, Albedo, Anisotropy | |
| Can Topographic Effects on Solar Radiation Be Ignored: Evidence From the Tibetan Plateau | Xian, Yuyang, Wang, Tianxing, Leng, Wanchun, Letu, Husi, Shi, Jiancheng, Wang, Gaofeng, Yan, Xuewei, Yuan, Hongyin | Albedo, Anisotropy | |
| Compositional and structural stratification does not improve direct | Bright, Ryan M., Ramtvedt, Eirik Nsset | Albedo, Anisotropy | |
| Exploring Topography Downscaling Methods for Hyper-Resolution Land | Chen, Sisi, Li, Lu, Wei, Zhongwang, Wei, Nan, Zhang, Yonggen, Zhang, Shupeng, Yuan, Hua, Shangguan, Wei, Zhang, Shulei, Li, Qingliang, Dai, Yongjiu | Albedo, Anisotropy, Land Surface Temperature, Emissivity | |
| Estimation of Vegetation Parameters of the VIC Model Using Remotely Sensed Data | Gomez, Edna Lucia Espinosa, Rodriguez, Leticia, Zimmermann, Erik | Albedo, Anisotropy, Reflectance, Aerosol Backscatter, Aerosol Extinction, Aerosol Optical Depth/Thickness, Angstrom Exponent, Aerosol Particle Properties, Aerosol Radiance, Carbonaceous Aerosols, Cloud Condensation Nuclei, Dust/Ash/Smoke, Nitrate Particles, Organic Particles, Particulate Matter, Sulfate Particles, Trace Gases/Trace Species, Atmospheric Emitted Radiation, Emissivity, Optical Depth/Thickness, Radiative Flux, Reflectance, Transmittance, Atmospheric Stability, Humidity, Total Precipitable Water, Water Vapor Profiles, Cloud Condensation Nuclei, Cloud Droplet Concentration/Size, Cloud Liquid Water/Ice, Cloud Optical Depth/Thickness, Cloud Asymmetry, Cloud Ceiling, Cloud Frequency, Cloud Height, Cloud Top Pressure, Cloud Top Temperature, Cloud Vertical Distribution, Cloud Emissivity, Cloud Radiative Forcing, Cloud Reflectance, Rain Storms, Atmospheric Ozone, Surface Pressure, Heat Flux, Longwave Radiation, Shortwave Radiation, Surface Temperature, Evapotranspiration, Surface Winds, Rain, Precipitation Rate, Snow, Soil Moisture/Water Content, Soil Temperature, Land Surface Temperature, Snow Water Equivalent, Runoff, Leaf Characteristics, Photosynthetically Active Radiation, Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar) | |
| Evapotranspiration determination with satellite and reanalysis data | Degano, Maria Florencia, Rivas, Raul Eduardo, Bayala, Martin Ignacio | Reflectance, Evapotranspiration, Latent Heat Flux, Albedo, Anisotropy, Brightness Temperature, Soil Moisture/Water Content |