Dataset
ESA Land Surface Temperature Climate Change Initiative (LST_cci): Monthly Multisensor Infra-Red (IR) Low Earth Orbit (LEO) land surface temperature (LST) time series level 3 supercollated (L3S) global product (1995-2020), version 2.00
Abstract
This dataset contains monthly-averaged land surface temperatures (LSTs) and their uncertainty estimates from multiple Infra-Red (IR) instruments on Low Earth Orbiting (LEO) sun-synchronous (a.k.a. polar orbiting) satellites. Satellite land surface temperatures are skin temperatures, which means, for example, the temperature of the ground surface in bare soil areas, the temperature of the canopy over forests, and a mix of the soil and leaf temperature over sparse vegetation. The skin temperature is an important variable when considering surface fluxes of, for instance, heat and water.
Daytime and night-time temperatures are provided in separate files corresponding to 10:30 and 22:30 local solar time. Per pixel uncertainty estimates are given in two forms, first, an estimate of the total uncertainty for the pixel and second, a breakdown of the uncertainty into components by correlation length. Also provided in the files, on a per pixel basis, are the observation time, the satellite viewing and solar geometry angles, a quality flag, and land cover class.
The dataset is comprised of LSTs from a series of instruments with a common heritage: the Along-Track Scanning Radiometer 2 (ATSR-2), the Advanced Along-Track Scanning Radiometer (AATSR) and the Sea and Land Surface Temperature Radiometer on Sentinel 3A (SLSTRA); and data from the Moderate Imaging Spectroradiometer on Earth Observation System - Terra (MODIS Terra) to fill the gap between AATSR and SLSTR. So, the instruments contributing to the time series are: ATSR-2 from August 1995 to July 2002; AATSR from August 2002 to March 2012; MODIS Terra from April 2012 to July 2016; and SLSTRA from August 2016 to December 2020. Inter-instrument biases are accounted for by cross-calibration with the Infrared Atmospheric Sounding Interferometer (IASI) instruments on Meteorological Operational (METOP) satellites. For consistency, a common algorithm is used for LST retrieval for all instruments. Furthermore, an adjustment is made to the LSTs to account for the half-hour difference between satellite equator crossing times. For consistency through the time series, coverage is restricted to the narrowest instrument swath width.
The dataset coverage is near global over the land surface. During the period covered by ATSR-2, small regions were not covered due to downlinking constraints (most noticeably a track extending southwards across central Asia through India – further details can be found on the ATSR project webpages at http://www.atsr.rl.ac.uk/dataproducts/availability/coverage/atsr-2/index.shtml).
LSTs are provided on a global equal angle grid at a resolution of 0.01° longitude and 0.01° latitude. Full Earth coverage is achieved in 3 days so the daily files have gaps where the surface is not covered by the satellite swath on that day. Furthermore, LSTs are not produced where clouds are present since under these circumstances the IR radiometer observes the cloud top which is usually much colder than the surface.
Dataset coverage starts on 1st August 1995 and ends on 31st December 2020. There are two gaps of several months in the dataset: no data were acquired from ATSR-2 between 23 December 1995 and 30 June 1996 due to a scan mirror anomaly; and the ERS-2 gyro failed in January 2001, data quality was less good between 17th Jan 2001 and 5th July 2001 and are not used in this dataset. Also, there is a twelve day gap in the dataset due to Envisat mission extension orbital manoeuvres from 21st October 2010 to 1st November 2010. There are minor interruptions (1-10 days) during satellite/instrument maintenance periods or instrument anomalies.
The dataset was produced by the University of Leicester (UoL) and LSTs were retrieved using the (UoL) LST retrieval algorithm and data were processed in the UoL processing chain.
The dataset was produced as part of the ESA Land Surface Temperature Climate Change Initiative which strives to improve satellite datasets to Global Climate Observing System (GCOS) standards.
Details
Previous Info: |
No news update for this record
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Previously used record identifiers: |
No related previous identifiers.
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Access rules: |
Public data: access to these data is available to both registered and non-registered users.
Use of these data is covered by the following licence(s): https://artefacts.ceda.ac.uk/licences/specific_licences/esacci_lst_terms_and_conditions.pdf When using these data you must cite them correctly using the citation given on the CEDA Data Catalogue record. |
Data lineage: |
The data record has been produced by the University of Leicester working within the ESA Land Surface Temperature Climate Change Initiative (LST_cci), and supplied for archiving at the Centre for Environmental Data Analysis (CEDA). |
Data Quality: |
For information on the data quality see the associated LST_cci documentation
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File Format: |
Data are in NetCDF format
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Process overview
Instrument/Platform pairings
Computation Element: 1
Title | Derivation of ESA Land Surface Temperature Climate Change Initiative (LST_cci): Multisensor Infra-Red (IR) Low Earth Orbit (LEO) Land surface temperature (LST) time series level 3 supercollated (L3S) global product (1995-2020), version 2.00 |
Abstract | For more information on the retrieval algorithm used see the documentation on the LST CCI webpage: https://climate.esa.int/sites/default/files/LST-CCI-D2.2-ATBD%20-%20i1r1%20-%20Algorithm%20Theoretical%20Basis%20Document.pdf |
Input Description | None |
Output Description | None |
Software Reference | None |
Output Description | None |
- var_id: channel
- units: microns
- long_name: channel wavelength in microns
- names: channel wavelength in microns
- units: 1
- var_id: lcc
- long_name: land cover class
- names: land cover class
- units: kelvin
- var_id: lst
- long_name: land surface temperature
- names: land surface temperature
- units: kelvin
- long_name: land surface temperature total uncertainty
- var_id: lst_uncertainty
- names: land surface temperature total uncertainty
- units: kelvin
- long_name: land surface temperature variance
- var_id: variance
- names: land surface temperature variance
- var_id: n
- long_name: number of clear-sky pixels
- names: number of clear-sky pixels
- units: degrees
- long_name: satellite azimuth angle
- var_id: sataz
- names: satellite azimuth angle
- units: degrees
- long_name: satellite zenith angle
- var_id: satze
- names: satellite zenith angle
- units: degrees
- long_name: solar azimuth angle
- var_id: solaz
- names: solar azimuth angle
- units: degrees
- long_name: solar zenith angle
- var_id: solze
- names: solar zenith angle
- units: seconds
- long_name: time difference from reference time
- var_id: dtime
- names: time difference from reference time
- units: kelvin
- long_name: uncertainty from large-scale systematic errors
- var_id: lst_unc_sys
- names: uncertainty from large-scale systematic errors
- units: kelvin
- long_name: uncertainty from locally correlated errors on LST corrections
- var_id: lst_unc_loc_cor
- names: uncertainty from locally correlated errors on LST corrections
- units: kelvin
- long_name: uncertainty from locally correlated errors on atmospheric scales
- var_id: lst_unc_loc_atm
- names: uncertainty from locally correlated errors on atmospheric scales
- units: kelvin
- long_name: uncertainty from locally correlated errors on surface scales
- var_id: lst_unc_loc_sfc
- names: uncertainty from locally correlated errors on surface scales
- units: kelvin
- long_name: uncertainty from uncorrelated errors
- var_id: lst_unc_ran
- names: uncertainty from uncorrelated errors
Co-ordinate Variables
- units: degrees_north
- standard_name: latitude
- var_id: lat
- long_name: latitude_coordinates
- names: latitude, latitude_coordinates
- units: degrees_east
- standard_name: longitude
- var_id: lon
- long_name: longitude_coordinates
- names: longitude, longitude_coordinates
- standard_name: time
- var_id: time
- long_name: reference time of file
- names: time, reference time of file
Temporal Range
1995-08-01T00:00:00
2020-12-31T23:59:59
Geographic Extent
90.0000° |
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-180.0000° |
180.0000° |
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-90.0000° |