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Estimating photosynthetic traits from reflectance spectra: A synthesis of spectral indices, numerical inversion, and partial least square regression

Peng Fu, Katherine Meacham‐Hensold, Kaiyu Guan, Jin Wu, Carl J. Bernacchi

2020Plant Cell & Environment107 citationsDOIOpen Access PDF

Abstract

Abstract The lack of efficient means to accurately infer photosynthetic traits constrains understanding global land carbon fluxes and improving photosynthetic pathways to increase crop yield. Here, we investigated whether a hyperspectral imaging camera mounted on a mobile platform could provide the capability to help resolve these challenges, focusing on three main approaches, that is, reflectance spectra‐, spectral indices‐, and numerical model inversions‐based partial least square regression (PLSR) to estimate photosynthetic traits from canopy hyperspectral reflectance for 11 tobacco cultivars. Results showed that PLSR with inputs of reflectance spectra or spectral indices yielded an R 2 of ~0.8 for predicting V cmax and J max , higher than an R 2 of ~0.6 provided by PLSR of numerical inversions. Compared with PLSR of reflectance spectra, PLSR with spectral indices exhibited a better performance for predicting V cmax ( R 2 = 0.84 ± 0.02, RMSE = 33.8 ± 2.2 μmol m −2 s −1 ) while a similar performance for J max ( R 2 = 0.80 ± 0.03, RMSE = 22.6 ± 1.6 μmol m −2 s −1 ). Further analysis on spectral resampling revealed that V cmax and J max could be predicted with ~10 spectral bands at a spectral resolution of less than 14.7 nm. These results have important implications for improving photosynthetic pathways and mapping of photosynthesis across scales.

Topics & Concepts

Hyperspectral imagingPartial least squares regressionMean squared errorCanopySpectral lineRemote sensingPhotosynthesisSpectral bandsMathematicsResamplingInversion (geology)ReflectivityEnvironmental scienceBiological systemStatisticsBiologyBotanyGeologyOpticsPhysicsStructural basinAstronomyPaleontologyRemote Sensing in AgricultureSpectroscopy and Chemometric AnalysesLeaf Properties and Growth Measurement
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