N: 90 S: -90 E: 180 W: -180
Description
The MOD16A2 Version 6.1 Evapotranspiration/Latent Heat Flux product is an 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 Moderate Resolution Imaging Spectroradiometer (MODIS) remotely sensed data products such as vegetation property dynamics, albedo, and land cover.
Provided in the MOD16A2 product are layers for composited Evapotranspiration (ET), Latent Heat Flux (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 MOD16A2 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. Note that 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 (MOD16A2) followed by the Julian Date of Acquisition formatted as AYYYYDDD (A2025201), the Tile Identifier which is horizontal tile and vertical tile provided as hXXvYY (h07v05), the Version of the data collection (061), the Julian Date and Time of Production designated as YYYYDDDHHMMSS (2025217003056), 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 |
|---|---|---|---|
| Local-scale cereal yield forecasting in Italy: Lessons from different statistical models and spatial aggregations | Garcia-Leon, David, Lopez-Lozano, Raul, Toreti, Andrea, Zampieri, Matteo | Land Surface Temperature, Emissivity, Evapotranspiration, Latent Heat Flux | |
| Machine Learning Regression Model for Predicting Honey Harvests | Campbell, Tristan, Dixon, Kingsley W., Dods, Kenneth, Fearns, Peter, Handcock, Rebecca | Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Photosynthesis, Primary Production, Vegetation Productivity, Evapotranspiration, Latent Heat Flux | |
| Mid-season empirical cotton yield forecasts at fine resolutions using large yield mapping datasets and diverse spatial covariates | Filippi, Patrick, Whelan, Brett M., Vervoort, R. Willem, Bishop, Thomas F.A. | Evapotranspiration, Latent Heat Flux | |
| Likelihood and frequency of recurrent fire ignitions in highly urbanised Mediterranean landscapes | Elia, Mario, Giannico, Vincenzo, Spano, Giuseppina, Lafortezza, Raffaele, Sanesi, Giovanni | Reflectance, Land Surface Temperature, Emissivity, Evapotranspiration, Latent Heat Flux | |
| Limits of predictability of a global self-similar routing model in a local self-similar environment | Velasquez, Nicolas, Mantilla, Ricardo | Evapotranspiration, Latent Heat Flux | |
| Influence of the dry event induced hydraulic redistribution on water and carbon cycles at five AsiaFlux forest sites: A site study combining measurements and modeling | Wu, Haohao, Fu, Congsheng, Wu, Huawu, Zhang, Lingling | Photosynthesis, Primary Production, Vegetation Productivity, Evapotranspiration, Latent Heat Flux | |
| Hydrological Foundation as a Basis for a Holistic Environmental Flow | Abebe, Wubneh B., Tilahun, Seifu A., Moges, Michael M., Wondie, Ayalew, Derseh, Minychl G., Nigatu, Teshager A., Mhiret, Demesew A., Steenhuis, Tammo S., Camp, Marc Van, Walraevens, Kristine, McClain, Michael E. | Evapotranspiration, Latent Heat Flux | |
| Impact of recent vegetation greening on temperature and precipitation | Yu, Lingxue, Liu, Ye, Liu, Tingxiang, Yan, Fengqin | Land Surface Temperature, Emissivity, Evapotranspiration, Latent Heat Flux | |
| Improving SWAT model calibration using soil MERGE (SMERGE) | Tobin, Kenneth J., Bennett, Marvin E. | Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Evapotranspiration, Latent Heat Flux | |
| Runoff sensitivity to snow depletion curve representation within a | Sexstone, Graham A., Driscoll, Jessica M., Hay, Lauren E., Hammond, John C., Barnhart, Theodore B. | Evapotranspiration, Latent Heat Flux | |
| Responses of alpine wetlands to climate changes on the Qinghai-Tibetan Plateau based on remote sensing | Wang, Rui, He, Min, Niu, Zhenguo | Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Photosynthesis, Primary Production, Vegetation Productivity, Evapotranspiration, Latent Heat Flux | |
| Responses of water use efficiency to drought in Southwest China | Zhao, Jingxue, Xu, Tongren, Xiao, Jingfeng, Liu, Shaomin, Mao, Kebiao, Song, Lisheng, Yao, Yunjun, He, Xinlei, Feng, Huaize | Photosynthesis, Primary Production, Vegetation Productivity, Evapotranspiration, Latent Heat Flux | |
| Refugees, water balance, and water stressLessons learned from Lebanon | Jaafar, Hadi, Ahmad, Farah, Holtmeier, Lauren, King-Okumu, Caroline | Evapotranspiration, Latent Heat Flux | |
| Recent ENSO influence on East African drought during rainy seasons through the synergistic use of satellite and reanalysis data | Park, Seonyoung, Kang, Daehyun, Yoo, Cheolhee, Im, Jungho, Lee, Myong-In | Land Surface Temperature, Emissivity, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Evapotranspiration, Latent Heat Flux | |
| Multivariate assimilation of remotely sensed soil moisture and evapotranspiration for drought monitoring | Gavahi, Keyhan, Abbaszadeh, Peyman, Moradkhani, Hamid, Zhan, Xiwu, Hain, Christopher | Land Surface Temperature, Emissivity, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Evapotranspiration, Latent Heat Flux | |
| Multi-Source Remote Sensing Data Product Analysis: Investigating | Sakti, Anjar Dimara, Fauzi, Adam Irwansyah, Wilwatikta, Felia Niwan, Rajagukguk, Yoki Sepwanto, Sudhana, Sonny Adhitya, Yayusman, Lissa Fajri, Syahid, Luri Nurlaila, Sritarapipat, Tanakorn, Principe, Jeark A., Trang, Nguyen Thi Quynh, Sulistyawati, Endah, Utami, Inggita, Arief, Candra Wirawan, Wikantika, Ketut | Canopy Characteristics, Evergreen Vegetation, Crown, Deciduous Vegetation, Leaf Characteristics, Vegetation Cover, Land Use/Land Cover Classification, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Reflectance, Total Surface Water, Evapotranspiration, Latent Heat Flux | |
| Multi-Temporal Analysis and Trends of the Drought Based on MODIS Data in | Angearu, Claudiu-Valeriu, Ontel, Irina, Boldeanu, George, Mihailescu, Denis, Nertan, Argentina, Craciunescu, Vasile, Catana, Simona, Irimescu, Anisoara | Reflectance, Land Surface Temperature, Emissivity, Evapotranspiration, Latent Heat Flux | |
| The nutritional geography of ants: Gradients of sodium and sugar | Kaspari, Michael, Welti, Ellen A. R., de Beurs, Kirsten M. | Evapotranspiration, Latent Heat Flux | |
| The productivity of agrocoenosis in the steppe zone of Khakasia according to Terra Modis | Zhukova, Elena, Kutkina, Natalya, Zhukov, Alexander | Photosynthesis, Primary Production, Vegetation Productivity, Evapotranspiration, Latent Heat Flux | |
| The green and blue crop water requirement WATNEEDS model and its global gridded outputs | Chiarelli, Davide Danilo, Passera, Corrado, Rosa, Lorenzo, Davis, Kyle Frankel, DOdorico, Paolo, Rulli, Maria Cristina | Evapotranspiration, Latent Heat Flux | |
| Spatial and temporal variations of terrestrial evapotranspiration in the upper Taohe river basin from 2001 to 2018 based on MOD16 et data | Cheng, Lizhen, Yang, Meixue, Wang, Xuejia, Wan, Guoning | Evapotranspiration, Latent Heat Flux | |
| Spatiotemporal patterns of evapotranspiration, gross primary productivity, and water use efficiency of cropland in agroecosystems and their relation to the water-saving project in the Shiyang River Basin of Northwestern China | Tian, Fei, Zhang, Yu | Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Land Use/Land Cover Classification, Photosynthesis, Primary Production, Vegetation Productivity, Evapotranspiration, Latent Heat Flux | |
| Spatio-temporal patterns of evapotranspiration based on upscaling eddy covariance measurements in the dryland of the North China Plain | Fang, Beijing, Lei, Huimin, Zhang, Yucui, Quan, Quan, Yang, Dawen | Land Surface Temperature, Emissivity, Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Evapotranspiration, Latent Heat Flux | |
| Time series trends of Landsat-based ET using automated calibration in METRIC and SEBALThe Bekaa Valley, Lebanon | Jaafar, Hadi H., Ahmad, Farah A. | Evapotranspiration, Latent Heat Flux | |
| Urban hydrodynamics in the planned township of New Town, West Bengal, India | Mitra, Deblina, Banerji, Suranjana | Total Surface Precipitation Rate, Evapotranspiration, Latent Heat Flux, Land Surface Temperature, Emissivity |