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A spectral fitting algorithm to retrieve the fluorescence spectrum from canopy radiance

Authors :
Cogliati, S
Celesti, M
Cesana, I
Miglietta, F
Genesio, L
Julitta, T
Schuettemeyer, D
Drusch, M
Rascher, U
Jurado, P
Colombo, R
Cogliati, Sergio
Celesti, Marco
CESANA, ILARIA
Miglietta, Franco
Genesio, Lorenzo
Julitta, Tommaso
Schuettemeyer, Dirk
Drusch, Matthias
Rascher, Uwe
Jurado, Pedro
Colombo, Roberto
Cogliati, S
Celesti, M
Cesana, I
Miglietta, F
Genesio, L
Julitta, T
Schuettemeyer, D
Drusch, M
Rascher, U
Jurado, P
Colombo, R
Cogliati, Sergio
Celesti, Marco
CESANA, ILARIA
Miglietta, Franco
Genesio, Lorenzo
Julitta, Tommaso
Schuettemeyer, Dirk
Drusch, Matthias
Rascher, Uwe
Jurado, Pedro
Colombo, Roberto
Publication Year :
2019

Abstract

Retrieval of Sun-Induced Chlorophyll Fluorescence (F) spectrum is one of the challenging perspectives for further advancing F studies towards a better characterization of vegetation structure and functioning. In this study, a simplified Spectral Fitting retrieval algorithm suitable for retrieving the F spectrum with a limited number of parameters is proposed (two parameters for F). The novel algorithm is developed and tested on a set of radiative transfer simulations obtained by coupling SCOPE and MODTRAN5 codes, considering different chlorophyll content, leaf area index and noise levels to produce a large variability in fluorescence and reflectance spectra. The retrieval accuracy is quantified based on several metrics derived from the F spectrum (i.e., red and far-red peaks, O2 bands and spectrally-integrated values). Further, the algorithm is employed to process experimental field spectroscopy measurements collected over different crops during a long-lasting field campaign. The reliability of the retrieval algorithm on experimental measurements is evaluated by cross-comparison with F values computed by an independent retrieval method (i.e., SFM at O2 bands). For the first time, the evolution of the F spectrum along the entire growing season for a forage crop is analyzed and three diverse F spectra are identified at different growing stages. The results show that red F is larger for young canopy; while red and far-red F have similar intensity in an intermediate stage; finally, far-red F is significantly larger for the rest of the season.

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1308929615
Document Type :
Electronic Resource