Characterizing the Error and Bias of Remotely Sensed LAI Products: An Example for Tropical and Subtropical Evergreen Forests in South China

Characterizing the Error and Bias of Remotely Sensed LAI Products: An Example for Tropical and Subtropical Evergreen Forests in South China

Leaf area is a key parameter underpinning ecosystem carbon, water and energy exchanges via photosynthesis, transpiration and absorption of radiation, from local to global scales. Satellite-based Earth Observation (EO) can provide estimates of leaf area index (LAI) with global coverage and high tempo...

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Main Authors: Yuan Zhao, Xiaoqiu Chen, Thomas Luke Smallman, Sophie Flack-Prain, David T. Milodowski, Mathew Williams
Format: Article
Language:English
Published: MDPI AG 2020-09-01
Series:Remote Sensing
Subjects:
remotely sensed LAI
field measured LAI
validation
magnitude
uncertainty
temporal dynamics
Online Access:https://www.mdpi.com/2072-4292/12/19/3122
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spelling doaj-bef1e1532ef7441aa9d6118115ffb6752020-11-25T03:28:33ZengMDPI AGRemote Sensing2072-42922020-09-01123122312210.3390/rs12193122Characterizing the Error and Bias of Remotely Sensed LAI Products: An Example for Tropical and Subtropical Evergreen Forests in South ChinaYuan Zhao0Xiaoqiu Chen1Thomas Luke Smallman2Sophie Flack-Prain3David T. Milodowski4Mathew Williams5Laboratory for Earth Surface Processes of the Ministry of Education, College of Urban and Environmental Sciences, Peking University, Beijing 100871, ChinaLaboratory for Earth Surface Processes of the Ministry of Education, College of Urban and Environmental Sciences, Peking University, Beijing 100871, ChinaSchool of GeoSciences, University of Edinburgh, Edinburgh EH9 3FF, UKSchool of GeoSciences, University of Edinburgh, Edinburgh EH9 3FF, UKSchool of GeoSciences, University of Edinburgh, Edinburgh EH9 3FF, UKSchool of GeoSciences, University of Edinburgh, Edinburgh EH9 3FF, UKLeaf area is a key parameter underpinning ecosystem carbon, water and energy exchanges via photosynthesis, transpiration and absorption of radiation, from local to global scales. Satellite-based Earth Observation (EO) can provide estimates of leaf area index (LAI) with global coverage and high temporal frequency. However, the error and bias contained within these EO products and their variation in time and across spatial resolutions remain poorly understood. Here, we used nearly 8000 in situ measurements of LAI from six forest environments in southern China to evaluate the magnitude, uncertainty, and dynamics of three widely used EO LAI products. The finer spatial resolution GEOV3 PROBA-V 300 m LAI product best estimates the observed LAI from a multi-site dataset (<i>R</i><sup>2</sup> = 0.45, bias = −0.54 m<sup>2</sup> m<sup>−2</sup>, RMSE = 1.21 m<sup>2</sup> m<sup>−2</sup>) and importantly captures canopy dynamics well, including the amplitude and phase. The GEOV2 PROBA-V 1 km LAI product performed the next best (<i>R</i><sup>2</sup> = 0.36, bias = −2.04 m<sup>2</sup> m<sup>−2</sup>, RMSE = 2.32 m<sup>2</sup> m<sup>−2</sup>) followed by MODIS 500 m LAI (<i>R</i><sup>2</sup> = 0.20, bias = −1.47 m<sup>2</sup> m<sup>−2</sup>, RMSE = 2.29 m<sup>2</sup> m<sup>−2</sup>). The MODIS 500 m product did not capture the temporal dynamics observed in situ across southern China. The uncertainties estimated by each of the EO products are substantially smaller (3–5 times) than the observed bias for EO products against in situ measurements. Thus, reported product uncertainties are substantially underestimated and do not fully account for their total uncertainty. Overall, our analysis indicates that both the retrieval algorithm and spatial resolution play an important role in accurately estimating LAI for the dense canopy forests in Southern China. When constraining models of the carbon cycle and other ecosystem processes are run, studies should assume that current EO product LAI uncertainty estimates underestimate their true uncertainty value.https://www.mdpi.com/2072-4292/12/19/3122remotely sensed LAIfield measured LAIvalidationmagnitudeuncertaintytemporal dynamics
collection DOAJ
language English
format Article
sources DOAJ
author Yuan Zhao
Xiaoqiu Chen
Thomas Luke Smallman
Sophie Flack-Prain
David T. Milodowski
Mathew Williams
spellingShingle Yuan Zhao
Xiaoqiu Chen
Thomas Luke Smallman
Sophie Flack-Prain
David T. Milodowski
Mathew Williams
Characterizing the Error and Bias of Remotely Sensed LAI Products: An Example for Tropical and Subtropical Evergreen Forests in South China
Remote Sensing
remotely sensed LAI
field measured LAI
validation
magnitude
uncertainty
temporal dynamics
author_facet Yuan Zhao
Xiaoqiu Chen
Thomas Luke Smallman
Sophie Flack-Prain
David T. Milodowski
Mathew Williams
author_sort Yuan Zhao
title Characterizing the Error and Bias of Remotely Sensed LAI Products: An Example for Tropical and Subtropical Evergreen Forests in South China
title_short Characterizing the Error and Bias of Remotely Sensed LAI Products: An Example for Tropical and Subtropical Evergreen Forests in South China
title_full Characterizing the Error and Bias of Remotely Sensed LAI Products: An Example for Tropical and Subtropical Evergreen Forests in South China
title_fullStr Characterizing the Error and Bias of Remotely Sensed LAI Products: An Example for Tropical and Subtropical Evergreen Forests in South China
title_full_unstemmed Characterizing the Error and Bias of Remotely Sensed LAI Products: An Example for Tropical and Subtropical Evergreen Forests in South China
title_sort characterizing the error and bias of remotely sensed lai products: an example for tropical and subtropical evergreen forests in south china
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2020-09-01
description Leaf area is a key parameter underpinning ecosystem carbon, water and energy exchanges via photosynthesis, transpiration and absorption of radiation, from local to global scales. Satellite-based Earth Observation (EO) can provide estimates of leaf area index (LAI) with global coverage and high temporal frequency. However, the error and bias contained within these EO products and their variation in time and across spatial resolutions remain poorly understood. Here, we used nearly 8000 in situ measurements of LAI from six forest environments in southern China to evaluate the magnitude, uncertainty, and dynamics of three widely used EO LAI products. The finer spatial resolution GEOV3 PROBA-V 300 m LAI product best estimates the observed LAI from a multi-site dataset (<i>R</i><sup>2</sup> = 0.45, bias = −0.54 m<sup>2</sup> m<sup>−2</sup>, RMSE = 1.21 m<sup>2</sup> m<sup>−2</sup>) and importantly captures canopy dynamics well, including the amplitude and phase. The GEOV2 PROBA-V 1 km LAI product performed the next best (<i>R</i><sup>2</sup> = 0.36, bias = −2.04 m<sup>2</sup> m<sup>−2</sup>, RMSE = 2.32 m<sup>2</sup> m<sup>−2</sup>) followed by MODIS 500 m LAI (<i>R</i><sup>2</sup> = 0.20, bias = −1.47 m<sup>2</sup> m<sup>−2</sup>, RMSE = 2.29 m<sup>2</sup> m<sup>−2</sup>). The MODIS 500 m product did not capture the temporal dynamics observed in situ across southern China. The uncertainties estimated by each of the EO products are substantially smaller (3–5 times) than the observed bias for EO products against in situ measurements. Thus, reported product uncertainties are substantially underestimated and do not fully account for their total uncertainty. Overall, our analysis indicates that both the retrieval algorithm and spatial resolution play an important role in accurately estimating LAI for the dense canopy forests in Southern China. When constraining models of the carbon cycle and other ecosystem processes are run, studies should assume that current EO product LAI uncertainty estimates underestimate their true uncertainty value.
topic remotely sensed LAI
field measured LAI
validation
magnitude
uncertainty
temporal dynamics
url https://www.mdpi.com/2072-4292/12/19/3122
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