Exploring the physiological information of Sun-induced chlorophyll fluorescence through radiative transfer model inversion

高光谱成像 遥感 叶绿素荧光 光谱分辨率 辐射传输 光化学反射率指数 天蓬 大气辐射传输码 环境科学 光谱带 荧光 光合作用 生物系统 谱线 植物 物理 光学 地质学 生物 天文
作者
Marco Celesti,Christiaan van der Tol,Sergio Cogliati,Cinzia Panigada,Peiqi Yang,Francisco Pinto,Uwe Rascher,F. Miglietta,Roberto Colombo,Micol Rossini
出处
期刊:Remote Sensing of Environment [Elsevier BV]
卷期号:215: 97-108 被引量:46
标识
DOI:10.1016/j.rse.2018.05.013
摘要

A novel approach to characterize the physiological conditions of plants from hyperspectral remote sensing data through the numerical inversion of a light version of the SCOPE model is proposed. The combined retrieval of vegetation biochemical and biophysical parameters and Sun-induced chlorophyll fluorescence (F) was investigated exploiting high resolution spectral measurements in the visible and near-infrared spectral regions. First, the retrieval scheme was evaluated against a synthetic dataset. Then, it was applied to very high resolution (sub-nanometer) canopy level spectral measurements collected over a lawn treated with different doses of a herbicide (Chlorotoluron) known to instantaneously inhibit both Photochemical and Non-Photochemical Quenching (PQ and NPQ, respectively). For the first time the full spectrum of canopy F, the fluorescence quantum yield (ΦF), as well as the main vegetation parameters that control light absorption and reabsorption, were retrieved concurrently using canopy-level high resolution apparent reflectance (ρ*) spectra. The effects of pigment content, leaf/canopy structural properties and physiology were effectively discriminated. Their combined observation over time led to the recognition of dynamic patterns of stress adaptation and stress recovery. As a reference, F values obtained with the model inversion were compared to those retrieved with state of the art Spectral Fitting Methods (SFM) and SpecFit retrieval algorithms applied on field data. ΦF retrieved from ρ* was eventually compared with an independent biophysical model of photosynthesis and fluorescence. These results foster the use of repeated hyperspectral remote sensing observations together with radiative transfer and biochemical models for plant status monitoring.

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