GROUNDED EO: Data-driven Sentinel-2 LAI and FAPAR retrieval using Gaussian processes trained with extensive fiducial reference measurements

Due to their importance in monitoring and modelling Earth's climate, the Global Climate Observing System (GCOS) designates leaf area index (LAI) and the fraction of absorbed photosynthetically active radiation (FAPAR) as essential climate variables (ECVs). The Simplified Level 2 Biophysical Pro...

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Vydáno v:Remote sensing of environment Ročník 326; s. 114797
Hlavní autoři: Brown, Luke A., Fernandes, Richard, Verrelst, Jochem, Morris, Harry, Djamai, Najib, Reyes-Muñoz, Pablo, D.Kovács, Dávid, Meier, Courtney
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Inc 15.08.2025
Témata:
algorithms
automation
biodiversity
Canada
carbon
climate
environment
forest management
Fraction of absorbed photosynthetically active radiation
FRM
GPR
land cover
Leaf area index
Machine learning
photosynthetically active radiation
radiative transfer
terrestrial ecosystems
uncertainty
vegetation
Canada
FRM
GPR
Fraction of absorbed photosynthetically active radiation
Machine learning
Leaf area index
S2
ISSN:0034-4257
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Abstract Due to their importance in monitoring and modelling Earth's climate, the Global Climate Observing System (GCOS) designates leaf area index (LAI) and the fraction of absorbed photosynthetically active radiation (FAPAR) as essential climate variables (ECVs). The Simplified Level 2 Biophysical Processor (SL2P) has proven particularly popular for decametric (i.e. 10 m to 100 m) retrieval of these ECVs. Comprehensive validation has shown that due to simplifying assumptions in the underlying radiative transfer models (RTMs), biases persist in SL2P retrievals. To avoid RTM assumptions altogether, an empirical data-driven approach might be considered. Yet, such a strategy has historically been prevented by the limited quantity and quality of available in situ reference measurements, as well as the large number of training samples traditionally required by machine learning regression algorithms. New opportunities are now offered by recently established continental-scale environmental monitoring networks, advances in automated data processing and uncertainty evaluation, and machine learning regression algorithms that require many fewer training samples. The Ground Reference Observations Underlying Novel Decametric Vegetation Data Products from Earth Observation (GROUNDED EO) project was initiated to take advantage of these opportunities. We describe the empirical data-driven LAI and FAPAR retrieval approach adopted within the project, involving i) generation of a database containing over 16,000 fiducial reference measurements covering 81 National Ecological Observatory Network (NEON), Integrated Carbon Observation System (ICOS), and Terrestrial Ecosystem Research Network (TERN) sites between 2013 and 2022, ii) development of an empirical data-driven algorithm for Sentinel-2 LAI and FAPAR retrieval based on Gaussian processes, and iii) evaluation of GROUNDED EO retrievals through intercomparison with the current state-of-the-art in decametric retrieval (i.e. SL2P, and a modified version of SL2P developed by the Canada Centre for Remote Sensing – SL2P-CCRS), as well as validation against unseen fiducial reference measurements. In the majority of cases (and despite not making use of ancillary data such as land cover), the empirical data-driven GROUNDED EO retrievals were subject to reduced bias than those from SL2P and SL2P-CCRS, as well as increased fulfilment of user requirements (i.e. 74% of LAI and 69% of FAPAR retrievals overall). Consequently, the approach has potential to reduce uncertainty in key inputs for climate monitoring and modelling, agricultural and forest management, and biodiversity assessment. •Extensive decametric vegetation biophysical fiducial reference database generated.•Contains > 16,000 observations over 81 NEON, ICOS & TERN sites between 2013 and 2022.•Used to train Sentinel-2 LAI and FAPAR retrieval algorithms with Gaussian processes.•GROUNDED EO reduces bias compared to current state-of-the-art (SL2P & SL2P-CCRS).•Leads to increased fulfilment of user requirements (74% for LAI & 69% for FAPAR).
AbstractList Due to their importance in monitoring and modelling Earth's climate, the Global Climate Observing System (GCOS) designates leaf area index (LAI) and the fraction of absorbed photosynthetically active radiation (FAPAR) as essential climate variables (ECVs). The Simplified Level 2 Biophysical Processor (SL2P) has proven particularly popular for decametric (i.e. 10 m to 100 m) retrieval of these ECVs. Comprehensive validation has shown that due to simplifying assumptions in the underlying radiative transfer models (RTMs), biases persist in SL2P retrievals. To avoid RTM assumptions altogether, an empirical data-driven approach might be considered. Yet, such a strategy has historically been prevented by the limited quantity and quality of available in situ reference measurements, as well as the large number of training samples traditionally required by machine learning regression algorithms. New opportunities are now offered by recently established continental-scale environmental monitoring networks, advances in automated data processing and uncertainty evaluation, and machine learning regression algorithms that require many fewer training samples. The Ground Reference Observations Underlying Novel Decametric Vegetation Data Products from Earth Observation (GROUNDED EO) project was initiated to take advantage of these opportunities. We describe the empirical data-driven LAI and FAPAR retrieval approach adopted within the project, involving i) generation of a database containing over 16,000 fiducial reference measurements covering 81 National Ecological Observatory Network (NEON), Integrated Carbon Observation System (ICOS), and Terrestrial Ecosystem Research Network (TERN) sites between 2013 and 2022, ii) development of an empirical data-driven algorithm for Sentinel-2 LAI and FAPAR retrieval based on Gaussian processes, and iii) evaluation of GROUNDED EO retrievals through intercomparison with the current state-of-the-art in decametric retrieval (i.e. SL2P, and a modified version of SL2P developed by the Canada Centre for Remote Sensing – SL2P-CCRS), as well as validation against unseen fiducial reference measurements. In the majority of cases (and despite not making use of ancillary data such as land cover), the empirical data-driven GROUNDED EO retrievals were subject to reduced bias than those from SL2P and SL2P-CCRS, as well as increased fulfilment of user requirements (i.e. 74% of LAI and 69% of FAPAR retrievals overall). Consequently, the approach has potential to reduce uncertainty in key inputs for climate monitoring and modelling, agricultural and forest management, and biodiversity assessment. •Extensive decametric vegetation biophysical fiducial reference database generated.•Contains > 16,000 observations over 81 NEON, ICOS & TERN sites between 2013 and 2022.•Used to train Sentinel-2 LAI and FAPAR retrieval algorithms with Gaussian processes.•GROUNDED EO reduces bias compared to current state-of-the-art (SL2P & SL2P-CCRS).•Leads to increased fulfilment of user requirements (74% for LAI & 69% for FAPAR).
Due to their importance in monitoring and modelling Earth's climate, the Global Climate Observing System (GCOS) designates leaf area index (LAI) and the fraction of absorbed photosynthetically active radiation (FAPAR) as essential climate variables (ECVs). The Simplified Level 2 Biophysical Processor (SL2P) has proven particularly popular for decametric (i.e. 10 m to 100 m) retrieval of these ECVs. Comprehensive validation has shown that due to simplifying assumptions in the underlying radiative transfer models (RTMs), biases persist in SL2P retrievals. To avoid RTM assumptions altogether, an empirical data-driven approach might be considered. Yet, such a strategy has historically been prevented by the limited quantity and quality of available in situ reference measurements, as well as the large number of training samples traditionally required by machine learning regression algorithms. New opportunities are now offered by recently established continental-scale environmental monitoring networks, advances in automated data processing and uncertainty evaluation, and machine learning regression algorithms that require many fewer training samples. The Ground Reference Observations Underlying Novel Decametric Vegetation Data Products from Earth Observation (GROUNDED EO) project was initiated to take advantage of these opportunities. We describe the empirical data-driven LAI and FAPAR retrieval approach adopted within the project, involving i) generation of a database containing over 16,000 fiducial reference measurements covering 81 National Ecological Observatory Network (NEON), Integrated Carbon Observation System (ICOS), and Terrestrial Ecosystem Research Network (TERN) sites between 2013 and 2022, ii) development of an empirical data-driven algorithm for Sentinel-2 LAI and FAPAR retrieval based on Gaussian processes, and iii) evaluation of GROUNDED EO retrievals through intercomparison with the current state-of-the-art in decametric retrieval (i.e. SL2P, and a modified version of SL2P developed by the Canada Centre for Remote Sensing – SL2P-CCRS), as well as validation against unseen fiducial reference measurements. In the majority of cases (and despite not making use of ancillary data such as land cover), the empirical data-driven GROUNDED EO retrievals were subject to reduced bias than those from SL2P and SL2P-CCRS, as well as increased fulfilment of user requirements (i.e. 74% of LAI and 69% of FAPAR retrievals overall). Consequently, the approach has potential to reduce uncertainty in key inputs for climate monitoring and modelling, agricultural and forest management, and biodiversity assessment.
ArticleNumber 114797
Author Verrelst, Jochem
D.Kovács, Dávid
Reyes-Muñoz, Pablo
Brown, Luke A.
Morris, Harry
Meier, Courtney
Fernandes, Richard
Djamai, Najib
Author_xml – sequence: 1
  givenname: Luke A.
  surname: Brown
  fullname: Brown, Luke A.
  email: l.a.brown4@salford.ac.uk
  organization: School of Science, Engineering & Environment, University of Salford, Manchester M5 4WT, United Kingdom
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  givenname: Richard
  surname: Fernandes
  fullname: Fernandes, Richard
  organization: Canada Centre for Remote Sensing, Natural Resources Canada, Ottawa K1A 0E4, Canada
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  givenname: Jochem
  surname: Verrelst
  fullname: Verrelst, Jochem
  organization: Image Processing Laboratory, University of Valencia, Paterna 46980, Spain
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  givenname: Harry
  surname: Morris
  fullname: Morris, Harry
  organization: Climate and Earth Observation Group, National Physical Laboratory, Teddington TW11 0LW, United Kingdom
– sequence: 5
  givenname: Najib
  surname: Djamai
  fullname: Djamai, Najib
  organization: Canada Centre for Remote Sensing, Natural Resources Canada, Ottawa K1A 0E4, Canada
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  surname: Reyes-Muñoz
  fullname: Reyes-Muñoz, Pablo
  organization: Image Processing Laboratory, University of Valencia, Paterna 46980, Spain
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  givenname: Dávid
  surname: D.Kovács
  fullname: D.Kovács, Dávid
  organization: Image Processing Laboratory, University of Valencia, Paterna 46980, Spain
– sequence: 8
  givenname: Courtney
  surname: Meier
  fullname: Meier, Courtney
  organization: National Ecological Observatory Network, Battelle, Boulder, CO 80301, United States
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Keywords FRM
GPR
Fraction of absorbed photosynthetically active radiation
Machine learning
Leaf area index
S2
Language English
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Snippet Due to their importance in monitoring and modelling Earth's climate, the Global Climate Observing System (GCOS) designates leaf area index (LAI) and the...
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SubjectTerms algorithms
automation
biodiversity
Canada
carbon
climate
environment
forest management
Fraction of absorbed photosynthetically active radiation
FRM
GPR
land cover
Leaf area index
Machine learning
photosynthetically active radiation
radiative transfer
terrestrial ecosystems
uncertainty
vegetation
Title GROUNDED EO: Data-driven Sentinel-2 LAI and FAPAR retrieval using Gaussian processes trained with extensive fiducial reference measurements
URI https://dx.doi.org/10.1016/j.rse.2025.114797
https://www.proquest.com/docview/3271869850
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