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User Guide to Collection 6 MODIS Land Cover (MCD12Q1 and
MCD12C1) Product
Damien Sulla-Menashe and Mark A Friedl
May 14, 2018
The MODIS Land Cover Type Product (MCD12Q1) provides a suite of science data sets (SDSs) that
map global land cover at 500 meter spatial resolution at annual time step for six different land cover legends.
The maps were created from classifications of spectro-temporal features derived of data from the Moderate
Resolution Imaging Spectroradiometer (MODIS). This user guide provides the following information related
to the C6 product:
1. An overview of the MCD12Q1 algorithm, with references to published literature where more details
can be found.
2. Guidance on data portals, projections, and formats, to help users access and use the data.
3. Contact information for users with questions that cannot be addressed through information or websites
provided in this document.
4. Tables describing the different data sets and legends provided with the product.
1 Product Overview
The MODIS Land Cover Type Product (MCD12Q1) supplies global maps of land cover at annual time
steps and 500-m spatial resolution for 2001-present. The product contains 13 Science Data Sets (SDS;
Table 1), including 5 legacy classification schemes (IGBP, UMD, LAI, BGC, and PFT; Tables 3- 7) and a new
three layer legend based on the Land Cover Classification System (LCCS) from the Food and Agriculture
Organization (Tables 8- 10; Di Gregorio, 2005; Sulla-Menashe et al., 2011). Also included are a Quality
Assurance (QA; Table 11) layer, the posterior probabilities for the three LCCS layers, and the binary land
water mask used by the product. MCD12Q1 has been Stage 2 Validated based on cross-validation of the
training dataset used to create the maps.
The MCD12Q1 product is created using supervised classification of MODIS reflectance data (Friedl
et al., 2002, 2010). In Collection 5 MCD12Q1, the IGBP scheme was classified using the C4.5 decision
tree algorithm that ingested a full year of 8-day MODIS Nadir BRDF-Adjusted Reflectance (NBAR; Schaaf
et al., 2002) data (MCD43A2 and MCD43A4). In Collection 6, we have made substantial changes to the
MCD12Q1 SDSs, to the algorithm that pre-process and classify the data, and to the input features used in
the classifications. Foremost among these changes is the development of a new legend based on a nested set
of classifications (Figure 1). To create this LCCS legend, we added new class information to the site database
1
used to train the classifier. The second major change to the product is that we developed new gap-filled
spectro-temporal features by applying smoothing splines to the NBAR time series, using NBAR QA data
to weigh the observations. The smoothed time series were used to generate snow flags and calculate snow-
free metrics including annual quantiles and variances for the spectral bands and several band combinations.
These annual metrics were used as inputs to the RandomForest classifier for each layer of the hierarchy.
Following supervised classification of smoothed NBAR data, a set of post-processing steps that incorpo-
rate prior probability knowledge and adjust specific classes based on ancillary information are applied to the
classification results (McIver and Friedl, 2002; Friedl et al., 2002). The final class-conditional probabilities
have substantial levels of inter-annual variability caused by residual noise in input time series, missing data,
and changes within the training database (Friedl et al., 2010). To reduce interannual variability caused
by classifier instability, we developed an approach based on Hidden Markov Models that post-process map
results for each year, which dramatically reduces inter-annual variability in the product (Abercrombie and
Friedl, 2016). After stabilization, the classifications are condensed into the final set of six legends and associ-
ated QA information. Despite improving the stability to the product, we urge users not to use the product to
determine post-classification land cover change. The amount of uncertainty in the land cover labels for any
one year remains too high to distinguish real change from changes between classes that are spectrally indis-
tinguishable at the coarse 500-m MODIS resolution. For more detailed information about the development
and accuracy of the C6 MCD12Q1 product see Sulla-Menashe et al. (view).
To maximize utility to the science community, six different classification schemes are provided with the C6
MCD12Q1 product. These include the IGBP land cover classification (Loveland and Belward, 1997; Belward
et al., 1999) (Table 3), the University of Maryland classification scheme (Hansen et al., 2000) (Table 4), the
Biome classification scheme described by Running et al. (2004) (Table 6), the LAI/fPAR Biome scheme
described by Myneni et al. (2002) (Table 5), and the Plant Functional Type scheme described by Bonan
(2002) (Table 7). The LCCS scheme contains three layers, the first for land cover, the second for land use,
and the third for surface hydrology (Tables 8-9).
The MODIS Land Cover Climate Modeling Grid Product (MCD12C1) provides a spatially aggregated
and reprojected version of the tiled MCD12Q1 product. Maps of the IGBP, UMD, and LAI schemes are
provided at a 0.05
◦
spatial resolution in geographic lat/long projection (Table 2). Also provided are the
sub-pixel proportions of each land cover class in each 0.05
◦
pixel and the aggregated quality assessment
information for the IGBP scheme.
Essential information required for accessing and using these data include the following:
• Data set characteristics (temporal coverage, spatial resolution, image size, data types, etc.).
• Science data sets included in the MODIS Land Cover Type Product, and their associated definitions.
• Information and specifications related to the MODIS Land Cover Type QA Science data set.
Up-to-date information related to each of these topics including science data sets, data formats, and quality
information are available from the Land Processes DAAC at https://doi.org/10.5067/MODIS/MCD12Q1.
006 for MCD12Q1 and https://doi.org/10.5067/MODIS/MCD12C1.006 for MCD12C1.
2 Data Formats and Projection
MCD12Q1 data are provided as tiles that are approximately 10
◦
x 10
◦
at the Equator using a Sinusoidal grid
in HDF4 file format. MCD12C1 data are provided as a global mosaic in geographic lat/long projection also
2
in HDF4 file format (3600 rows x 7200 columns). Information related to the MODIS sinusoidal projection
and the HDF4 file format can be found at:
• MODIS tile grid: http://modis-land.gsfc.nasa.gov/MODLAND_grid.html
• MODIS HDF4: http://www.hdfgroup.org/products/hdf4/
Several parameters are needed to reproject the Sinusoidal HDF4 files to other projections using widely
used software such as GDAL. Here we provide the values used for the upper left corner of the grid, the
size of a single pixel, and the Sinusoidal projection string in Cartographic Projections Library (PROJ4) and
Well-Known Text (WKT) formats.
• ULY Grid = 10007554.677, ULX Grid = -20015109.354
• Pixel Size (m) = 463.312716525
• Number of Pixels per Tile = 2400
• Projection Information
PROJ4: ‘+proj=sinu +a=6371007.181 +b=6371007.181 +units=m’
WKT:
PROJCS["Sinusoidal", GEOGCS["GCS_unnamed ellipse",
DATUM["D_unknown", SPHEROID["Unknown",6371007.181,0]],
PRIMEM["Greenwich",0], UNIT["Degree",0.017453292519943295]],
PROJECTION["Sinusoidal"], PARAMETER["central_meridian",0],
PARAMETER["false_easting",0], PARAMETER["false_northing",0],UNIT["Meter",1]
2.1 Accessing MODIS Data Products
Several ways to access the MODIS data products are listed below. More info about the data sets, data
formats, and quality information are available from the Land Processes DAAC. For MCD12Q1 the link is
https://doi.org/10.5067/MODIS/MCD12Q1.006 and for MCD12C1, https://doi.org/10.5067/MODIS/
MCD12C1.006.
• Bulk download: LP DAAC Data Pool and DAAC2Disk.
• Search and browse: USGS EarthExplorer and NASA Earthdata Search.
2.2 Known Issues and Sources of Uncertainty
• Areas of permanent sea ice are mapped as water if they are identifed as water according to the C6
Land/Water mask (Carroll et al., 2009). Some land areas, for example glaciers within permanent
topographic shadows, were mapped as water according to this mask, which introduces isolated errors
in the product.
• Wetlands are under-represented.
• In areas of the tropics where cropland field sizes tend to be much smaller than a MODIS pixel,
agriculture is sometimes underrepresented (i.e., labeled as natural vegetation).
3
• Areas of temperate evergreen needleleaf forests are misclassified as broadleaf evergreen forests in Japan,
the Pacific Northwest of North America, and Chile. Similarly, areas of evergreen broadleaf forests are
misclassified as evergreen needleleaf forests in Australia and parts of South America.
• Some grassland areas are classified as savannas (sparse forest).
• There is a glacier in Chile that is screened as if it were permanently cloud covered and is partially
classified as grassland.
3 Contact Information
User Contact:
• Damien Sulla-Menashe (dsm@bu.edu)
• Mark Friedl (friedl@bu.edu)
4 Science Data Sets
4
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