The Advanced Microwave Scanning Radiometer - Earth Observing System (AMSR-E) instrument on the NASA EOS Aqua satellite provides global passive microwave measurements of the Earth. NSIDC produces AMSR-E gridded brightness temperature data by interpolating AMSR-E data (6.9 GHz, 10.7 GHz, 18.7 GHz, 23.8 GHz, 36.5 GHz, and 89.0 GHz) to the output grids from swath space using an inverse-distance squared method. AMSR-E/Aqua L2A Global Swath Spatially-Resampled Brightness Temperatures (AE_L2A) input source data are used to create the gridded brightness temperature data.
AMSR-E/Aqua Daily Global Quarter-Degree Gridded Brightness Temperatures, Version 1
This is the most recent version of these data.
BASIC Level of Service
Data: Data integrity verified
Documentation: Key metadata and links to supporting documentation available
User Support: Assistance with data access and basic data usage
|
Geographic Coverage |
- If you are not currently logged in to Earthdata, you will be prompted to do so.
- You may register for an Earthdata Login if you do not have an account.
Once you have logged in, you will be able to click and download files via a Web browser. There are also options for downloading via a command line or client. For more detailed instructions, please see Options Available for Bulk Downloading Data from HTTPS with Earthdata Login.
As a condition of using these data, you must cite the use of this data set using the following citation. For more information, see our Use and Copyright Web page.
Knowles, K., M. Savoie, R. Armstrong, and M. J. Brodzik. 2006. AMSR-E/Aqua Daily Global Quarter-Degree Gridded Brightness Temperatures, Version 1. [Indicate subset used]. Boulder, Colorado USA. NASA National Snow and Ice Data Center Distributed Active Archive Center. doi: https://doi.org/10.5067/RRR4WWORG070. [Date Accessed].Detailed Data Description
The AMSR-E/Aqua Daily EASE-Grid Brightness Temperatures consist of gridded data in one of three projections (all with 25 km resolution): the Northern Hemisphere EASE-Grid, Southern Hemisphere EASE-Grid, and full global EASE-Grid. The AMSR-E/Aqua Daily Global Quarter-Degree Gridded Brightness Temperatures are gridded to one global cylindrical, equidistant latitude-longitude projection at 0.25° (quarter-degree) resolution.
These data are gridded from swath format using an Inverse Distance Squared (ID2) interpolation. The source data are Level-2A swath brightness temperatures from the AMSR-E/Aqua L2A Global Swath Spatially-Resampled Brightness Temperatures (AE_L2A) data set.
Files contain flat binary (unformatted) grid arrays, one grid per file. Files are compressed for delivery.
There are 24 brightness temperature data files per day for a given projection: separate data files for each of the 12 channels and the two pass directions per channel. Data are 2-byte unsigned integers, little-endian byte-order, representing temperatures in tenths of kelvins. Data values range from 650 to 3200, with the value 0 indicating missing data.
There are two time files per day for a given projection: ascending and descending passes. Data are 2 byte signed integers, little-endian byte-order, indicating time of data acquisition as minutes since midnight (0:00 UTC) of the date of the enclosing file. The values in the time files range from 0 to 1440, with the value -32768 indicating missing data.
Geolocation files containing latitude and longitude coordinates are also available. Please see the Software and Tools section for more information.
Data files are organized on the HTTPS site according to projection type, instrument (AMSR-E), specific grid, and year of data. The directory structure on the HTTPS site is illustrated in Figure 1. In this illustration, the year directories are representative placeholders; on the HTTPS site, there are multiple such directories, each named for a 4-digit year, such as 2002 or 2006.
![]() |
Figure 1. HTTPS Directory Structure |
Files are compressed (zipped) for delivery, with a .gz extension added to the file names described below.
EASE-Grid Files
The EASE-Grid brightness temperature data files are named according to the following convention and as described in Table 1:
ID2r3-AMSRE-SL2005135D.v01.89V
ID2rx-AMSRE-aayyyydddp.vnn.ccc
Where:
Variable | Description |
---|---|
ID2 |
Inverse Distance Squared |
rx |
Resolution number of swath input data (r1, r3) |
AMSRE |
Identifies this a file containing AMSR-E data |
aa |
Area of coverage (NL = north, SL = south, ML = global) |
yyyy |
Four-digit year |
ddd |
Three-digit day of year |
p |
Pass direction (A = ascending, D = descending) |
vnn |
Data version number (for example, v01, v02) |
ccc |
AMSR-E channel indicator: numeric frequency (06, 10, 18, 23, 36, or 89) followed by polarization (H or V) |
The EASE-Grid time files follow the same naming convention, except they end in the extension .TIM
.ID2r3-AMSRE-SL2005135D.v01.TIM
.
Quarter Degree Files
The quarter degree brightness temperature data files are named according to the following convention and as described in Table 2.
ID2r1-AMSRE-D.252005135D.v01.89V
ID2r1-AMSRE-D.25yyyydddp.vnn.ccc
Where:
Variable | Description |
---|---|
ID2 |
Inverse Distance Squared |
r1 |
Resolution 1 swath input data |
AMSRE |
Identifies this an AMSR-E file |
D.25 |
Identifies this as a quarter degree file |
yyyy |
Four-digit year |
ddd |
Three-digit day of year |
p |
Pass direction (A = ascending, D = descending) |
vnn |
Gridded data version number (for example, v01, v02, v03) |
ccc |
AMSR-E channel indicator: numeric frequency (06, 10, 18, 23, 36, or 89) followed by polarization (H or V) |
Time files follow the same naming convention, except they end with the extension .TIM
.ID2r1-AMSRE-D.252005135D.v01.TIM
.
Version Numbers
The version number in the file names (vnn
) indicates the version of the gridded brightness temperature data set, as described in Table 3. This version number also reflects the level of AMSR-E/Aqua L2A Global Swath Spatially-Resampled Brightness Temperatures (AE_L2A) source data used.
Version | Description |
---|---|
v01 |
All version v01 gridded brightness temperature data were produced from beta-level AMSR-E source data (AE_L2A version Bxx). Users of v01 gridded data should replace them with v03 gridded data as they become available, because the source data were upgraded from beta-level to validated for v03. |
v02 |
Version v02 gridded brightness temperature data were produced from validation-level AMSR-E source data (AE_L2A version Vxx). Users of v02 gridded data should replace them with v03 gridded data as they become available, because v03 data address the known edge-contamination problem in the source data. |
v03 |
Version v03 gridded brightness temperature data are produced from validation-level AMSR-E source data (AE_L2A version Vxx). In addition, v03 data exclude the first 14 samples of each scan from the AE_L2A source data due to an issue with possible contamination at that edge of the scan. |
Users should always work with the latest (highest version number) gridded brightness temperature data available for a given date.
When a new version becomes available, any previously-released data (lower version numbers) will be reprocessed to the latest version (highest version number). The new data are staged to the HTTPS site as they become available, replacing the earlier version data for the same date. For example, as v03 north and south azimuthal EASE-Grid data become available on the HTTPS site, they replace the previously available v01 or v02 data for the same date. (Note: The global cylindrical EASE-Grid and global quarter-degree gridded brightness temperature data were initially released as version v03.)
Please see AMSR-E Data Versions for more information about the AE_L2A source data versions.
Resolution Number
The rx resolution number in the file name indicates the resolution number (resolution 1 or resolution 3) of the brightness temperatures extracted from the AE_L2A source data. See the Processing Steps section for more information about this resolution number.
File size varies by projection, as shown in Table 4. The sizes shown are approximations for uncompressed files; files are distributed with approximately 60% compression.
Projection | File Size |
---|---|
EASE-Grid, north and south | 1 MB |
EASE-Grid, global | 1.5 MB |
Quarter-degree | 2 MB |
The total data set volume per day includes 24 brightness temperature data files (12 channels, two pass directions per channel) and two time files (two pass directions), for each projection.
The volumes shown in Table 5 are approximations for uncompressed files; files are distributed with approximately 60% compression.
Projection | Volume Per Day |
---|---|
EASE-Grid, north | 27 MB |
EASE-Grid, south | 27 MB |
EASE-Grid, global | 42 MB |
Quarter-degree | 54 MB |
Southernmost Latitude: 90.0° S
Northernmost Latitude: 90.0° N
Westernmost Longitude: 180.0° W
Easternmost Longitude: 180.0° E
EASE-Grid
These data are provided in three projections with different areas of coverage: Northern Hemisphere, Southern Hemisphere, and global. The north and south grids are 721 by 721 and the global grid is 1383 by 586. The global grid does not cover the extreme polar regions. The EASE-Grid resolution is 25 km.
Please see EASE-Grid: A Versatile Set of Equal-Area Projections and Grids for the EASE-Grid description, including the exact grid extent (in section EASE-Grid Family of Grid Definitions) for each projection. The descriptions for NL (north), SL (south) and ML (global) grids apply to this data set.
Quarter-Degree Grid
Quarter-degree data provide full global coverage, with a 0.25° latitude and longitude resolution. These data are in one global cylindrical, equidistant latitude-longitude projection. The quarter-degree data are gridded with 1440 rows and 720 columns.
Data are available from 19 June 2002 to 27 September 2011. See the Version Numbers section for information about versions and reprocessed data.
NSIDC provides daily data files for days that are incomplete; but in some cases, there is no data at all for a particular day. Table 6 lists missing data files for data that have been processed.
Note: NSIDC has recently noticed corrupt files in the AE_L2A input source data which has increased the number of missing files in this data set. We want to make sure we provide the most accurate products possible. When data are missing due to this file corruption problem, we will backfill missing dates when the corruption issue has been resolved. Please refer to Table 6 for a list of known missing dates for processed data.
Year | Missing Dates (mm/dd) |
---|---|
2011 | 01/261 |
2010 | 02/03 - 02/04 |
2009 | None |
2008 | None |
2007 | 11/28 |
2006 | 11/18 |
2005 | 11/17 |
2004 | 11/19 |
2003 | 10/30 - 11/05 |
2002 | 07/30 - 08/07, 09/13 - 09/19 |
1 Missing dates are current through the end of the most recent quarterly processing. |
These interpolated brightness temperature data have a scale factor of 0.1. Multiply data values by 0.1 to obtain brightness temperatures in kelvins (K). The valid range of brightness temperature is approximately 65 to 320 K. The value 0 indicates missing data.
Sample Images
The following sample images show AMSR-E 36 GHz, horizontally-polarized brightness temperatures from descending passes for December 31, 2005, gridded to the three different EASE-Grids.
![]() |
![]() |
![]() |
North
|
South
|
Global
|
Software and Tools
Geolocation files are available at the top level of the data directory in the gzipped TAR file "0.25degree_geolocation.tar.gz". The TAR file includes a map projection parameters file (.mpp), a grid parameter definitions file (.gpd), and binary latitude and longitude files. Latitudes and longitudes are reported in decimal degrees, scaled by 100,000, with a precision of one one-hundred-thousandth of a degree (one meter). The TAR file also contains a README.txt file that describes the geolocation file naming convention and provides additional details about the 0.25° global grid.
See the EASE-Grid Data Geolocation Tools Web page for EASE-Grid data.
Researchers whose needs are not met by these data sets can create customized brightness temperature grids with the NSIDC AMSR-E Swath-to-Grid Toolkit (part of the Passive Microwave Swath Data Tools).
If you use the IDL tools distributed with either DMSP SSM/I Pathfinder Daily EASE-Grid Brightness Temperatures or Nimbus-7 SMMR Pathfinder Daily EASE-Grid Brightness Temperatures, you may use those same tools with these data sets.
Extensive quality control procedures are followed in the production of the AE_L2A source data. See the Quality Assessment section of the AE_L2A documentation for more information. The gridding procedure assumes that source data brightness temperatures are legitimate, and performs no filtering of input data based on quality flags.
Data Acquisition and Processing
Since its launch in 2002, the AE_L2A
AMSR-E Level-2A source data has been made available as a beta-level data set (in seven successive versions). Beginning in 2006, some AE_L2A
source data were made available as validation-level data, with the entire data set expected to be reprocessed as "validated" on a rolling basis in the future.
In order to simplify the many versions used as input to the gridded data, and to provide gridded data to users as quickly as possible, NSIDC is issuing these AMSR-E gridded data sets using simplified data set version numbers. Any gridded v01 data will have been produced from beta-level AE_L2A
data, while gridded v02 data will have been produced from validation-level AE_L2A
data. Gridded v01 data will be replaced by gridded v02 data when AE_L2A
data that are designated "validated" become available in the future. We encourage users to register in order to receive e-mail notification about future product changes, including updated versions.
Processing Steps
The AMSR-E Level-2A swath brightness temperature source data (AE_L2A
) are converted to gridded brightness temperature data as described in the steps below.
- For the global EASE-Grid and quarter-degree latitude-longitude grid, extract resolution 1 brightness temperatures from the
AE_L2A
file. Resolution 1 data include Level-2A 6.9, 10.7, 18.7, 23.8, 36.5, and 89.0 GHz brightness temperatures, all resampled to the 75x43 km (6.9 GHz) antenna pattern.
- For the north and south EASE-Grids, extract resolution 3 brightness temperatures from the
AE_L2A
file. Resolution 3 data include the following.- Level-2A 23.8, 36.5 and 89.0 GHz brightness temperatures, resampled to the 27x16 km (18.7 and 23.8 GHz) antenna pattern
- Level-2A 10.7 GHz brightness temperatures, resampled to the 51x29 km (10.7 GHz) antenna pattern
- Level-2A 6.9 GHz brightness temperatures, resampled to the 75x43 km (6.9 GHz) antenna pattern
- Level-1B 18.7 GHz brightness temperatures, not resampled
- Extract the times and locations of the extracted brightness temperatures.
- Segregate the data into 24-hour periods, midnight to midnight UTC.
- For each grid, separate the data into ascending and descending pass directions (this is done relative to the sensor footprint, not the satellite).
- Eliminate samples with temperatures less than 65 K and greater than 320 K.
- Eliminate the first 14 samples of each scan.
- For a given grid cell, select the orbit with local time nearest to the local equator crossing time for the satellite. Record this time in the time file.
- For each channel, calculate the brightness temperature value for the grid cell as a weighted average of a 2x2 kernel of nearest-neighbor input samples from the selected orbit within 17.5 km of the cell center. Weights are equal to the inverse of the distance (cell center to sample center) squared. Cells with total weights less than the threshold value (1.0) are set to the missing data value (0).
- Save and compress the gridded brightness temperatures and time data.
Error Sources
See the Error Sources section of the AMSR-E/Aqua L2A Global Swath Spatially-Resampled Brightness Temperatures documentation for more information about known problems with the data.
References and Related Publications
Contacts and Acknowledgments
Ken Knowles, Matthew Savoie, Richard Armstrong, and Mary Jo Brodzik
National Snow and Ice Data Center (NSIDC)
Cooperative Institute for Research in Environmental Sciences (CIRES)
University of Colorado
Boulder, Colorado USA
We thank the members of the product team at the NSIDC DAAC and Steven Chan of the Jet Propulsion Laboratory for his comments and review.
Document Information
DOCUMENT CREATION DATE
December 2006
DOCUMENT REVISION DATE
March 2008
June 2007