N: 90 S: -90 E: 180 W: -180
Description
The Terra and Aqua combined Moderate Resolution Imaging Spectroradiometer (MODIS) Land Cover Dynamics (MCD12Q2) Version 6.1 data product provides global land surface phenology metrics at yearly intervals. The MCD12Q2 Version 6.1 data product is derived from time series of the 2-band Enhanced Vegetation Index (EVI2) calculated from MODIS Nadir Bidirectional Reflectance Distribution Function (BRDF)-Adjusted Reflectance (NBAR). Vegetation phenology metrics at 500 meter spatial resolution are identified for up to two detected growing cycles per year. For pixels with more than two valid vegetation cycles, the data represent the two cycles with the largest NBAR-EVI2 amplitudes.
Provided in each MCD12Q2 Version 6.1 Hierarchical Data Format 4 (HDF4) file are layers for the total number of vegetation cycles detected for the product year, the onset of greenness, greenup midpoint, maturity, peak greenness, senescence, greendown midpoint, dormancy, EVI2 minimum, EVI2 amplitude, integrated EVI2 over a vegetation cycle, as well as overall and phenology metric-specific quality information. SDS layers may be multi-dimensional with up to two valid vegetation cycles.
For areas where the NBAR-EVI2 values are missing due to cloud cover or other reasons, the data gaps are filled with good quality NBAR-EVI2 values from the year directly preceding or following the product year.
Known Issues
- Known issues are described in Section 3.2 of 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 (MCD12Q2) followed by the Julian Date of Acquisition formatted as AYYYYDDD (A2023001), the Tile Identifier which is horizontal tile and vertical tile provided as hXXvYY (h07v03), the Version of the data collection (061), the Julian Date and Time of Production designated as YYYYDDDHHMMSS (2024211022728), 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 |
|---|---|---|---|
| A method for quality management of vegetation phenophases derived from satellite remote sensing data | Ruan, Yongjian, Zhang, Xinchang, Xin, Qinchuan, Sun, Ying, Ao, Zurui, Jiang, Xin | Reflectance, Plant Phenology, Enhanced Vegetation Index (EVI), Plant Characteristics, Vegetation Cover, Vegetation Index, Snow Water Equivalent, Soil Heat Budget, Snow Depth, Soil Moisture/Water Content, Heat Flux, Land Surface Temperature, Shortwave Radiation, Albedo, Evapotranspiration, Drainage, Precipitation Amount, Drainage | |
| A deep learning method to predict soil organic carbon content at a regional scale using satellite-based phenology variables | Yang, Lin, Cai, Yanyan, Zhang, Lei, Guo, Mao, Li, Anqi, Zhou, Chenghu | Plant Phenology, Enhanced Vegetation Index (EVI) | |
| Annual dynamic dataset of global cropping intensity from 2001 to 2019 | Liu, Xiaoxuan, Zheng, Juepeng, Yu, Le, Hao, Pengyu, Chen, Bin, Xin, Qinchuan, Fu, Haohuan, Gong, Peng | Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Plant Phenology | |
| Artificial light at night advances spring phenology in the united states | Zheng, Qiming, Teo, Hoong Chen, Koh, Lian Pin | Land Use/Land Cover Classification, Plant Phenology, Enhanced Vegetation Index (EVI), Vegetation Index, Normalized Difference Vegetation Index (NDVI) | |
| An improved IBIS model for simulating NPP dynamics in alpine mountain ecosystems: A case study in the eastern Qilian Mountains, northeastern Tibetan Plateau | Zeng, Biao, Zhang, Fuguang, Wei, Lanlan, Zhang, Xiaomiao, Yang, Taibao | Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Plant Phenology, Enhanced Vegetation Index (EVI) | |
| Challenges in updating habitat suitability models: An example with the lesser prairie-chicken | Jarnevich, Catherine S., Belamaric, Pairsa N., Fricke, Kent, Houts, Mike, Rossi, Liza, Beauprez, Grant, Cooper, Brett, Martin, Russell | Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Plant Phenology | |
| Calibrating vegetation phenology from Sentinel-2 using eddy covariance, PhenoCam, and PEP725 networks across Europe | Tian, Feng, Cai, Zhanzhang, Jin, Hongxiao, Hufkens, Koen, Scheifinger, Helfried, Tagesson, Torbern, Smets, Bruno, Van Hoolst, Roel, Bonte, Kasper, Ivits, Eva, Tong, Xiaoye, Ardo, Jonas, Eklundh, Lars | Plant Phenology, Enhanced Vegetation Index (EVI), Reflectance, Albedo, Anisotropy | |
| Carbon response of tundra ecosystems to advancing greenup and snowmelt in Alaska | Kim, JiHyun, Kim, Yeonjoo, Zona, Donatella, Oechel, Walter, Park, Sang-Jong, Lee, Bang-Yong, Yi, Yonghong, Erb, Angela, Schaaf, Crystal L. | Leaf Characteristics, Photosynthetically Active Radiation, Leaf Area Index (LAI), Fraction Of Absorbed Photosynthetically Active Radiation (fapar), Plant Phenology, Enhanced Vegetation Index (EVI), Methane, Soil Moisture/Water Content, Soil Depth, Incoming Solar Radiation, Soil Temperature, Snow Depth, Wind Speed, Atmospheric Carbon Dioxide, Rain, Humidity | |
| Comparisons of numerical phenology models and machine learning methods on predicting the spring onset of natural vegetation across the Northern Hemisphere | Li, Wanjing, Xin, Qinchuan, Zhou, Xuewen, Zhang, Zhicheng, Ruan, Yongjian | Land Use/Land Cover Classification, Plant Phenology, Enhanced Vegetation Index (EVI) | |
| Exploring Short-Term Climate Change Effects on Rangelands and Broad-Leaved Forests by Free Satellite Data in Aosta Valley (Northwest Italy) | Orusa, Tommaso, Borgogno Mondino, Enrico | Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), RADAR IMAGERY, Terrain Elevation, Topographical Relief Maps, Digital Elevation/Terrain Model (DEM), Plant Phenology, Evapotranspiration, Latent Heat Flux | |
| Geospatial Modeling of Biometric and Structural Forest Attributes in the Bryansk Oblast Based on Satellite Imagery and Selective Inventory Data | Plant Phenology, Enhanced Vegetation Index (EVI) | ||
| Geospatial Modeling of Nitrogen and Carbon Content and Stock in the Forest Litter Horizons Based on Sentinel-2 Multi-Seasonal Satellite Imagery | Gavrilyuk, E. A., Kuznetsova, A. I., Gornov, A. V. | Plant Phenology, Enhanced Vegetation Index (EVI) | |
| GCI30: a global dataset of 30 m cropping intensity using multisource remote sensing imagery | Zhang, Miao, Wu, Bingfang, Zeng, Hongwei, He, Guojin, Liu, Chong, Tao, Shiqi, Zhang, Qi, Nabil, Mohsen, Tian, Fuyou, Bofana, Jose, Beyene, Awetahegn Niguse, Elnashar, Abdelrazek, Yan, Nana, Wang, Zhengdong, Liu, Yiliang | Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Reflectance, Plant Phenology, Plant Phenological Changes | |
| Global Vegetation Photosynthetic Phenology Products Based on MODIS | Xu, Xiaojun, Tang, Yan, Qu, Yiling, Zhou, Zhongsheng, Hu, Junguo | Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Land Surface Temperature, Emissivity, Plant Phenology | |
| Impact assessment of ozone absorbed through stomata on photosynthetic carbon dioxide uptake by Japanese deciduous forest trees: Implications for ozone mitigation ... | Kinose, Yoshiyuki, Yamaguchi, Masahiro, Matsumura, Hideyuki, Izuta, Takeshi | Plant Phenology, Enhanced Vegetation Index (EVI) | |
| Human Activities Enhance Radiation Forcing through Surface Albedo | Tang, Xiying, Cui, Yaoping, Li, Nan, Fu, Yiming, Liu, Xiaoyan, Run, Yadi, Li, Mengdi, Zhao, Guosong, Dong, Jinwei | Plant Phenology, Enhanced Vegetation Index (EVI), Vegetation Index, Normalized Difference Vegetation Index (NDVI), Reflectance, Albedo, Anisotropy | |
| Improved estimates of arctic land surface phenology using Sentinel-2 time series | Descals, Adria, Verger, Aleixandre, Yin, Gaofei, Penuelas, Josep | Reflectance, Plant Phenology, Enhanced Vegetation Index (EVI) | |
| Satellite-based decadal change assessments of pan-Arctic environments | Jenkins, Liza K., Barry, Tom, Bosse, Karl R., Currie, William S., Christensen, Tom, Longan, Sara, Shuchman, Robert A., Tanzer, Danielle, Taylor, Jason J. | Plant Phenology, Enhanced Vegetation Index (EVI) | |
| Snowmelt velocity predicts vegetation green-wave velocity in mountainous ecological systems of North America | OLeary, Donal, Inouye, David, Dubayah, Ralph, Huang, Chengquan, Hurtt, George | Plant Phenology, Enhanced Vegetation Index (EVI) | |
| Soil thawing regulates the spring growth onset in tundra and alpine biomes | Descals, Adria, Verger, Aleixandre, Filella, Iolanda, Baldocchi, Dennis, Janssens, Ivan A., Fu, Yongshuo H., Piao, Shilong, Peaucelle, Marc, Ciais, Philippe, Penuelas, Josep | Land Use/Land Cover Classification, Plant Phenology, Enhanced Vegetation Index (EVI) | |
| Spatiotemporal patterns of vegetation phenology along the urban-rural gradient in Coastal Dalian, China | Yang, Jun, Luo, Xue, Jin, Cui, Xiao, Xiangming, Xia, Jianhong (Cecilia) | Vegetation Index, Normalized Difference Vegetation Index (NDVI), Enhanced Vegetation Index (EVI), Land Surface Temperature, Emissivity, Plant Phenology | |
| Toward operational mapping of woody canopy cover in tropical savannas using Google Earth Engine | Anchang, Julius Y., Prihodko, Lara, Ji, Wenjie, Kumar, Sanath S., Ross, C. Wade, Yu, Qiuyan, Lind, Brianna, Sarr, Mamadou A., Diouf, Abdoul A., Hanan, Niall P. | Plant Phenology, Enhanced Vegetation Index (EVI) | |
| Urban warming advances spring phenology but reduces the response of phenology to temperature in the conterminous United States | Meng, Lin, Mao, Jiafu, Zhou, Yuyu, Richardson, Andrew D., Lee, Xuhui, Thornton, Peter E., Ricciuto, Daniel M., Li, Xuecao, Dai, Yongjiu, Shi, Xiaoying, Jia, Gensuo | Plant Phenology, Enhanced Vegetation Index (EVI) | |
| Divergent responses of spring phenology to daytime and nighttime warming | Meng, Lin, Zhou, Yuyu, Li, Xuecao, Asrar, Ghasserm R., Mao, Jiafu, Wanamaker, Alan D., Wang, Yeqiao | Plant Phenology, Enhanced Vegetation Index (EVI) | |
| Development and evaluation of a new algorithm for detecting 30 m land surface phenology from VIIRS and HLS time series | Zhang, Xiaoyang, Wang, Jianmin, Henebry, Geoffrey M., Gao, Feng | Plant Phenology, Enhanced Vegetation Index (EVI), Reflectance |