Tracking mangrove light use efficiency using normalized difference red edge index

Tracking mangrove light use efficiency using normalized difference red edge index

[Display omitted] •Mangrove light use efficiency (LUE) is regulated by vapor pressure deficit (VPD)•Mangrove canopy spectral reflectance curve upraises with increasing VPD.•Normalized difference red edge index (NDRE) is a robust proxy for mangrove LUE.•The NDRE-LUE linkage provides a basis for mappi...

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Bibliographic Details
Published in:Ecological indicators Vol. 168; p. 112774
Main Authors: Liu, Yanjie, Zhu, Xudong
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-11-2024
Elsevier
Subjects:
Eddy covariance
Field spectrometer
Sentinel-2
VPD
Zhangjiang estuary
Zhangjiang estuary
Eddy covariance
VPD
Field spectrometer
Sentinel-2
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Summary:[Display omitted] •Mangrove light use efficiency (LUE) is regulated by vapor pressure deficit (VPD)•Mangrove canopy spectral reflectance curve upraises with increasing VPD.•Normalized difference red edge index (NDRE) is a robust proxy for mangrove LUE.•The NDRE-LUE linkage provides a basis for mapping mangrove LUE from satellite data. Strong temporal and spatial heterogeneity of mangrove carbon fluxes makes it difficult to accurately assess mangrove carbon budgets at both site and regional scales. The light use efficiency (LUE) model provides a promising remote sensing approach, however, the lack of robust spectral metrics for tracking mangrove LUE hinders the integration of carbon flux and remote sensing measurements. To close this gap, here we examined the potential of six relevant spectral metrics, including red edge position, red edge reflectance, red valley reflectance, green peak reflectance, normalized difference vegetation index, and normalized difference red edge index (NDRE), for tracking canopy LUE based on two-year (2021–2022) simultaneous measurements of tower-based hyperspectral and eddy covariance (EC) data in a subtropical mangrove of southeastern China. The results indicated that mangrove LUE had strong daily and seasonal variations with the value down-regulated by increasing vapor pressure deficit (VPD) and air temperature. The canopy spectral reflectance curve changed seasonally showing elevated reflectance with increasing VPD over the entire visible/red-edge bands. Among the spectral metrics, NDRE was found to be the only statistically significant correlated to LUE at both daily and monthly scales, showing a positive and linear NDRE-LUE linkage. To the best of our knowledge, this is the first study to explore the links between mangrove LUE and red edge-related spectral metrics across temporal scales using simultaneous hyperspectral and EC measurements. The NDRE-LUE linkage confirmed here provides a basis for establishing robust remote sensing approaches to map mangrove LUE and carbon fluxes with ready-available satellite data.
ISSN:1470-160X
DOI:10.1016/j.ecolind.2024.112774