ECOSTRESS ET daily layers from ECO_L3G_JET product, acquired over Utah, United States, on October 20, 2023.
View full-size imageThe ECOsystem Spaceborne Thermal Radiometer Experiment on Space Station (ECOSTRESS) mission measures the temperature of plants to better understand how much water plants need and how they respond to stress. ECOSTRESS is attached to the International Space Station (ISS) and collects data globally between 52° N and 52° S latitudes. A map of the acquisition coverage can be found in Figure 2 on the ECOSTRESS website.
The ECOSTRESS Gridded Evapotranspiration Instantaneous and Daytime L3 Global 70 m (ECO_L3G_JET) Version 2 data product provides instantaneous canopy transpiration, leaf surface evaporation, and soil moisture evaporation using the Priestley-Taylor formula. This data product is mosaicked from the L3 tiled JET (ECO_L3T_JET) product, projected to a globally snapped 0.0006° grid, and has a spatial resolution of 70 meters (m).
The ECO_L3G_JET Version 2 data product contains 12 layers distributed in an HDF5 format file including ETdaily, ETinstUncertainty, PTJPLSMinst, STICinst, MOD16inst, BESSinst, STICcanopy, PTJPLSMcanopy, PTJPLSMinterception, PTJPLSMsoil, cloud mask, and water mask.
This product utilizes a modified version of the Priestley-Taylor Jet Propulsion Laboratory (PT-JPL) model from the ECOSTRESS Evapotranspiration PT-JPL Daily L3 Global 70 m (ECO3ETPTJPL) Version 1 data product which incorporates soil moisture as an added constraint (PT-JPL-SM). In addition to PT-JPL-SM, this data product includes the outputs from other models not included in ECO3ETPTJPL v001, details on what is included can be found in Section 5.4 of the User Guide.
Characteristic | Description |
---|---|
Collection | ECOSTRESS |
DOI | 10.5067/ECOSTRESS/ECO_L3G_JET.002 |
File Size | ~233.2 MB |
Temporal Resolution | Varies |
Temporal Extent | 2018-07-09 to Present |
Spatial Extent | Global (+/- 52 degrees latitude) |
Coordinate System | Geographic Latitude and Longitude |
Datum | World Geodetic System (WGS84) |
File Format | HDF5 |
Geographic Dimensions | 400 km x 400 km |
Characteristic | Description |
---|---|
Number of Science Dataset (SDS) Layers | 12 |
Columns/Rows | 5400 x 5632 |
Pixel Size | 70 m |
SDS Name | Description | Units | Data Type | Fill Value | No Data Value | Valid Range | Scale Factor |
---|---|---|---|---|---|---|---|
ETdaily | Daily Evapotranspiration (ET) estimate | W/m² | 32-bit floating point | NaN | N/A | N/A | N/A |
ETinstUncertainty | ET uncertainty | W/m² | 32-bit floating point | NaN | N/A | N/A | N/A |
PTJPLSMinst | Total instantaneous ET estimate from combined Priestley-Taylor Jet Propulsion Laboratory Soil Moisture (PT-JPL-SM) model partitions | W/m² | 32-bit floating point | NaN | N/A | N/A | N/A |
STICinst | Instantaneous ET estimate from the Surface Temperature Initiated Closure (STIC) model | W/m² | 32-bit floating point | NaN | N/A | N/A | N/A |
MOD16inst | Instantaneous ET estimate from the Penman Monteith MODIS Global Evapotranspiration Model (MOD16) | W/m² | 32-bit floating point | NaN | N/A | N/A | N/A |
BESSinst | Instantaneous ET estimate from the Breathing Earth System Simulator (BESS) model | W/m² | 32-bit floating point | NaN | N/A | N/A | N/A |
STICcanopy | STIC canopy partition | Ratio | 32-bit floating point | NaN | N/A | 0 to 1 | N/A |
PTJPLSMcanopy | PT-JPL-SM instantaneous canopy transpiration | Percent | 8-bit unsigned integer | NaN | N/A | 0 to 1 | N/A |
PTJPLSMinterception | PT-JPL-SM leaf surface evaporation | Percent | 8-bit unsigned integer | NaN | N/A | 0 to 1 | N/A |
PTJPLSMsoil | PT-JPL-SM soil moisture | Percent | 8-bit unsigned integer | N/A | N/A | 0 to 1 | N/A |
cloud | Cloud mask | N/A | 8-bit unsigned integer | N/A | N/A | 0, 1 | N/A |
water | Water mask | N/A | 8-bit unsigned integer | N/A | N/A | 0, 1 | N/A |
Class | Description |
---|---|
0 | Clear |
1 | Cloudy |
Class | Description |
---|---|
0 | Land |
1 | Water |
Quality information for the ECO_L3G_JET data product is described in Section 5 of the Algorithm Theoretical Basis Document (ATBD).
Data acquisition gap: ECOSTRESS was launched on June 29, 2018, and moved to autonomous science operations on August 20, 2018, following a successful in-orbit checkout period. On September 29, 2018, ECOSTRESS experienced an anomaly with its primary mass storage unit (MSU). ECOSTRESS has a primary and secondary MSU (A and B). On December 5, 2018, the instrument was switched to the secondary MSU and science operations resumed. On March 14, 2019, the secondary MSU experienced a similar anomaly, temporarily halting science acquisitions. On May 15, 2019, a new data acquisition approach was implemented, and science acquisitions resumed. To optimize the new acquisition approach TIR bands 2, 4, and 5 are being downloaded. The data products are as previously, except the bands not downloaded contain fill values (L1 radiance and L2 emissivity). This approach was implemented from May 15, 2019, through April 28, 2023.
Data acquisition gap: From February 8 to February 16, 2020, an ECOSTRESS instrument issue resulted in a data anomaly that created striping in band 4 (10.5 micron). These data products have been reprocessed and are available for download. No ECOSTRESS data were acquired on February 17, 2020, due to the instrument being in SAFEHOLD. Data acquired following the anomaly have not been affected.
Data acquisition: ECOSTRESS has now successfully returned to 5-band mode after being in 3-band mode since 2019. This feature was successfully enabled following a Data Processing Unit firmware update (version 4.1) to the payload on April 28, 2023. To better balance contiguous science data scene variables, 3-band collection is currently being interleaved with 5-band acquisitions over the orbital day/night periods.