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On the consistency and stability of vegetation biophysical variables retrievals from Landsat-8/9 and Sentinel-2

On the consistency and stability of vegetation biophysical variables retrievals from Landsat-8/9 and Sentinel-2
On the consistency and stability of vegetation biophysical variables retrievals from Landsat-8/9 and Sentinel-2

Systematic decametric resolution global mapping of vegetation biophysical variables, including fraction of absorbed photosynthetically active radiation (fAPAR), fraction of vegetation cover (fCOVER), and leaf area index (LAI), is required to support various activities, including climate adaptation, crop management, biodiversity monitoring, and ecosystem assessments. The Canada Centre for Remote Sensing (CCRS) version of the Simplified Level 2 Prototype Processor (SL2P-CCRS) enables global mapping of these variables using freely available medium resolution multispectral satellite data from Sentinel-2 (S2) and Landsat-8/9 (LS) data. In this study, fiducial reference measurements (RMs) from the National Ecological Observatory Network (NEON) supplemented with regional measurements from CCRS were used to evaluate the consistency between SL2P-CCRS estimates of fAPAR, fCOVER and LAI from LS and S2 data and to quantify their temporal stability. SL2P-CCRS estimates of fCOVER (Accuracy (A) ∼ 0.03, Uncertainty (U) ∼ 0.13) and fAPAR (A ∼ −0.03, U ∼ 0.13) from LS and S2 were unbiased, and generally similar between sensors, based on 6569 LS-RMs and 4932 S2-RMs matchups. However, LAI estimates, especially for woody wetlands, deciduous forest, and mixed forest, were underestimated, with better estimates obtained using S2 (A ∼ −0.33, U ∼ 0.98) than LS (A ∼ −0.43, U ∼ 1.13). For all variables, SL2P-CCRS LS estimates were highly correlated to S2 estimates overall (R2 0.80 to 0.82) but up to 35 % lower for LAI over broadleaf and mixed forests and between lower 10 % and 20 % otherwise. The inter-annual stability of SL2P-CCRS estimates from both LS and S2 fell within the Global Climate Observing System (GCOS) requirements with the mean (standard deviation) values of −0.01 yr−1 (0.06 yr−1) for LS LAI, 0.02 yr−1 (0.09 yr−1) for S2 LAI, and 0 yr−1 (0.01 yr−1) for fCOVER and fAPAR from both LS and S2. The stability of both S2 and LS vegetation biophysical products indicate that are well suited for quantify the physical response of vegetation to climate variability, disturbances and regeneration.

Canopy cover, fAPAR, LAI, Landsat, Sentinel-2, Validation
0924-2716
329-347
Djamai, Najib
ee1fce82-773d-485e-ae0e-556ae557fbf0
Fernandes, Richard
4664475b-0fc6-467b-b72f-540885f2b087
Sun, Lixin
f3208a1b-e6c0-4529-9db1-744969fcba56
Hong, Gang
57a3dc8c-f68a-4a4f-a05f-1309d805249c
Brown, Luke A.
6a693f08-df9e-4494-bb89-8d2897470d4a
Morris, Harry
d7b9d1e5-e105-40a3-9f5d-7c3e4531b32c
Dash, Jadu
51468afb-3d56-4d3a-aace-736b63e9fac8
Djamai, Najib
ee1fce82-773d-485e-ae0e-556ae557fbf0
Fernandes, Richard
4664475b-0fc6-467b-b72f-540885f2b087
Sun, Lixin
f3208a1b-e6c0-4529-9db1-744969fcba56
Hong, Gang
57a3dc8c-f68a-4a4f-a05f-1309d805249c
Brown, Luke A.
6a693f08-df9e-4494-bb89-8d2897470d4a
Morris, Harry
d7b9d1e5-e105-40a3-9f5d-7c3e4531b32c
Dash, Jadu
51468afb-3d56-4d3a-aace-736b63e9fac8

Djamai, Najib, Fernandes, Richard, Sun, Lixin, Hong, Gang, Brown, Luke A., Morris, Harry and Dash, Jadu (2025) On the consistency and stability of vegetation biophysical variables retrievals from Landsat-8/9 and Sentinel-2. ISPRS Journal of Photogrammetry and Remote Sensing, 224, 329-347. (doi:10.1016/j.isprsjprs.2025.04.006).

Record type: Article

Abstract

Systematic decametric resolution global mapping of vegetation biophysical variables, including fraction of absorbed photosynthetically active radiation (fAPAR), fraction of vegetation cover (fCOVER), and leaf area index (LAI), is required to support various activities, including climate adaptation, crop management, biodiversity monitoring, and ecosystem assessments. The Canada Centre for Remote Sensing (CCRS) version of the Simplified Level 2 Prototype Processor (SL2P-CCRS) enables global mapping of these variables using freely available medium resolution multispectral satellite data from Sentinel-2 (S2) and Landsat-8/9 (LS) data. In this study, fiducial reference measurements (RMs) from the National Ecological Observatory Network (NEON) supplemented with regional measurements from CCRS were used to evaluate the consistency between SL2P-CCRS estimates of fAPAR, fCOVER and LAI from LS and S2 data and to quantify their temporal stability. SL2P-CCRS estimates of fCOVER (Accuracy (A) ∼ 0.03, Uncertainty (U) ∼ 0.13) and fAPAR (A ∼ −0.03, U ∼ 0.13) from LS and S2 were unbiased, and generally similar between sensors, based on 6569 LS-RMs and 4932 S2-RMs matchups. However, LAI estimates, especially for woody wetlands, deciduous forest, and mixed forest, were underestimated, with better estimates obtained using S2 (A ∼ −0.33, U ∼ 0.98) than LS (A ∼ −0.43, U ∼ 1.13). For all variables, SL2P-CCRS LS estimates were highly correlated to S2 estimates overall (R2 0.80 to 0.82) but up to 35 % lower for LAI over broadleaf and mixed forests and between lower 10 % and 20 % otherwise. The inter-annual stability of SL2P-CCRS estimates from both LS and S2 fell within the Global Climate Observing System (GCOS) requirements with the mean (standard deviation) values of −0.01 yr−1 (0.06 yr−1) for LS LAI, 0.02 yr−1 (0.09 yr−1) for S2 LAI, and 0 yr−1 (0.01 yr−1) for fCOVER and fAPAR from both LS and S2. The stability of both S2 and LS vegetation biophysical products indicate that are well suited for quantify the physical response of vegetation to climate variability, disturbances and regeneration.

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Accepted/In Press date: 2 April 2025
e-pub ahead of print date: 17 April 2025
Published date: 17 April 2025
Keywords: Canopy cover, fAPAR, LAI, Landsat, Sentinel-2, Validation
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Identifiers

Local EPrints ID: 503206
URI: http://eprints.soton.ac.uk/id/eprint/503206
DOI: doi:10.1016/j.isprsjprs.2025.04.006
ISSN: 0924-2716
PURE UUID: e5ed4fa6-1179-40d6-bcb3-51999204c2fc
ORCID for Luke A. Brown: ORCID iD orcid.org/0000-0003-4807-9056
ORCID for Jadu Dash: ORCID iD orcid.org/0000-0002-5444-2109

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Date deposited: 24 Jul 2025 16:34
Last modified: 16 Oct 2025 17:55

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Contributors

Author: Najib Djamai
Author: Richard Fernandes
Author: Lixin Sun
Author: Gang Hong
Author: Luke A. Brown ORCID iD
Author: Harry Morris
Author: Jadu Dash ORCID iD

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