N: 90 S: -90 E: 180 W: -180
Description
The Terra Moderate Resolution Imaging Spectroradiometer (MODIS) MOD16A2GF Version 6.1 Evapotranspiration/Latent Heat Flux (ET/LE) product is a year-end gap-filled 8-day composite dataset produced at 500 meter (m) pixel resolution. The algorithm used for the MOD16 data product collection is based on the logic of the Penman-Monteith equation, which includes inputs of daily meteorological reanalysis data along with MODIS remotely sensed data products such as vegetation property dynamics, albedo, and land cover.
The MOD16A2GF will be generated at the end of each year when the entire yearly 8-day MOD15A2H is available. Hence, the gap-filled MOD16A2GF is the improved MOD16, which has cleaned the poor-quality inputs from 8-day Leaf Area Index and Fraction of Photosynthetically Active Radiation (LAI/FPAR) based on the Quality Control (QC) label for every pixel. If any LAI/FPAR pixel did not meet the quality screening criteria, its value is determined through linear interpolation. However, users cannot get MOD16A2GF in near-real time because it will be generated only at the end of a given year.
Provided in the MOD16A2GF product are layers for composited ET, LE, Potential ET (PET), and Potential LE (PLE) along with a quality control layer. Two low resolution browse images, ET and LE, are also available for each MOD16A2GF granule.
The pixel values for the two Evapotranspiration layers (ET and PET) are the sum of all eight days within the composite period, and the pixel values for the two Latent Heat layers (LE and PLE) are the average of all eight days within the composite period. The last acquisition period of each year is a 5 or 6-day composite period, depending on the year.
Known Issues
- Operational and uncertainty issues are provided under Section 3 in the User Guide.
- 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 (MOD16A2GF) followed by the Julian Date of Acquisition formatted as AYYYYDDD (A2024361), the Tile Identifier which is horizontal tile and vertical tile provided as hXXvYY (h01v10), the Version of the data collection (061), the Julian Date and Time of Production designated as YYYYDDDHHMMSS (2025019222926), 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 |
|---|---|---|---|
| An Optimal Transport Framework for WaterEnergy Coupling in SoilVegetationAtmosphere Continuum | Mishra, Debasish, Sehgal, Vinit, Mohanty, Binayak P. | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux | |
| Assessing drought trends and vegetation health in arid regions using advanced remote sensing techniques: a case study in Saudi Arabia | Alqadhi, Saeed, Mallick, Javed, Hang, Hoang Thi | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux, Reflectance | |
| Climate change impacts on groundwater: a growing challenge for water resources sustainability in Brazil | Hirata, Ricardo, Goodarzi, Leila, Rorig, Fernando Schuh, Alves, Lincoln Muniz, Bertolo, Reginaldo | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux, Terrain Elevation, RADAR IMAGERY, Topographical Relief Maps | |
| Climate Change Is Altering Ecosystem Water Use Efficiency in | Green, Tristan, Salvucci, Guido, Friedl, Mark A. | Land Use/Land Cover Classification, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Precipitation, Precipitation Amount, Precipitation Rate, Snow, Rain, Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux, Plant Phenology | |
| Extra constraint on actual evaporation in a semi-distributed conceptual model to improve model physical realism | Hsu, Shu-Chen, de Lavenne, Alban, Perrin, Charles, Andreassian, Vazken | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux | |
| ESTIMET: Enhanced and Spatial-Temporal Improvement of MODIS | Claudino, Cinthia M.A., Bertrand, Guillaume F., Nobrega, Rodolfo L.B., Almeida, Cristiano das N., Gusmao, Ana Claudia V., Montenegro, Suzana M.G.L., Silva, Bernardo B., Patriota, Eduardo G., Lemos, Filipe C., Coutinho, Jaqueline V., de Sousa, Jose Welton Goncalo, Andrade, Joao M., Melo, Davi C.D., Rodrigues, Diogo Francisco B., Oliveira, Leidjane M., Xuan, Yunqing, Moura, Magna S.B., Montenegro, Abelardo A.A., Brocca, Luca, Corbari, Chiara, Jin, Yufang, Suvocarev, Kosana, Bezerra, Bergson, de Lima, Jose Romualdo S., Souza, Eduardo, Anache, Jamil A.A., Coelho, Victor Hugo R. | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux | |
| Evaluating the performance of five global gridded potential | Li, Minxin, Zou, Lei, Xia, Jun, Cao, Hui, Zhang, Hairong, Jia, Benjun, Yu, Jiarui | 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, Photosynthesis, Primary Production, Latent Heat Flux | |
| Evaluation of the Soil Moisture Characteristics in the Barak and Brahmaputra River Basins of North-East India | Chakraborty, Aniket, Pathak, Binita, Bhuyan, Pradip Kumar | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux | |
| Evapotranspiration stress intensifies with enhanced sensitivity to soil moisture deficits in a rapidly greening China | Liu, Yuan, Wang, Yong, Zhao, Yong, Chen, Shouzhi, Wang, Longhao, Yang, Wenjing, Li, Xing, Li, Xinxi, Lei, Huimin, Chang, Huanyu, Zhai, Jiaqi, Zhu, Yongnan, Wang, Qingming, Ye, Ting | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI) | |
| Evapotranspiration, land cover, and climatic factors in southeastern | Mendoza-Aguilar, Brenda Yutziny, Carbajal, Noel, Pineda-Martinez, Luis Felipe, Leon-Cruz, Jose Francisco | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI) | |
| Vegetation greening decrease water yield during the growing season over the Qinling-Daba Mountains in Central China | Li, Zhixing, Xing, Li, Wang, Bin, Li, Shuangshuang, Duan, Keqin | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux | |
| Linking woody plants, climate, and evapotranspiration in a temperate savanna | Olariu, Horia G., Wilcox, Bradford P., Popescu, Sorin C. | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux | |
| Mapping desertification susceptibility in the Hodna watershed Algeria, using a remote sensing-based logistic regression approach | Kharchi, Takki Eddine, Chadi, Mohammed, Benabbas, Chaouki, Grecu, Florina, Yekhlefoune, Manel | Infrastructure, Food Security, Conservation, Environmental Health Factors, Urbanization/Urban Sprawl, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux | |
| Modeling drivers of satellite-derived net primary productivity: inclusion of non-vegetated areas can be potential source of error | Buba, Toma | Land Use/Land Cover Classification, Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux | |
| Investigation of terrestrial water saving from photovoltaic panels using | Chen, Yulin, Zhang, Jun, Dai, Qiang, Zeng, Tongxiao, Zhu, Shaonan | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux | |
| Remote sensing evapotranspiration in ensemble-based framework to enhance | Daoud, Mostafa Gomaa, White, Jeremy T., Morway, Eric D., van der Tol, Christiaan, Lubczynski, Maciek W. | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux | |
| 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 | |
| Predicting Forest Evapotranspiration Shifts Under Diverse Climate Change | Ji, Penghao, Su, Rong, Gao, Runhong | Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux | |
| Multi-Index Approach to Assess and Monitor Meteorological and Agricultural Drought in the Mediterranean Region: Case of the Upper Oum Er Rabia Watershed, Morocco | Mliyeh, Mohammed Mouad, Ait Brahim, Yassine, Koutsovili, Eleni-Ioanna, Tzoraki, Ourania, Zian, Ahmed, Aqnouy, Mourad, Benaabidate, Lahcen | Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux | |
| Simulating the effects of retreating Urmia Lake and increased evapotranspiration rates on the nearby unconfined aquifer | Abdollahi, Zahra, Feizizadeh, Bakhtiar, Shokati, Behzad, Gaiolini, Mattia, Busico, Gianluigi, Mastrocicco, Micol, Colombani, Nicolo | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux | |
| Surface urban heat island in Budapest during heat waves and droughts - comparing the summers of 2003, 2007 and 2022 | Dezso, Zsuzsanna, Pongracz, Rita, Bartholy, Judit | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux, Land Surface Temperature, Emissivity | |
| Thermodynamic Satellite Monitoring of the Health of Forest Ecosystems in the Gulf of Finland Catchment Area (Using the Example of the Karelian Isthmus) | Gornyy, V. I., Kiselev, A. V., Bezruchenko, P. A., Manvelova, A. B., Tronin, A. A., Bril, A. A., Mazurov, A. A. | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux | |
| Thermodynamic satellite monitoring of forest ecosystems health in the of Gulf of Finland catchment area (using the example of the Karelian Isthmus) | Gornyy, V.I., Saint Petersburg Federal Research Center RAS, Kiselev, A.V., Bezruchenko, P.A., Manvelova, A.B., Tronin, A.A., Bril, A.A., Mazurov, A.A. | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux | |
| Divergent Responses of Summer Terrestrial Evapotranspiration to Cloud | Wang, Yipu, Li, Rui, Song, Binbin, Hu, Jiheng | 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, Photosynthesis, Primary Production, Latent Heat Flux, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI) | |
| Diverse responses of surface biogeophysical parameters to accelerated development and senescence of vegetation on the Mongolian Plateau | Bai, Yu, Liu, Menghang, Zhou, Junxiong, Guo, Qun, Wu, Genan, Li, Shenggong | Evapotranspiration, Photosynthesis, Primary Production, Latent Heat Flux, Albedo, Anisotropy, Emissivity, Land Surface Temperature |