Remote Sensing Based Yield Estimation in a Stochastic Framework — Case Study of Durum Wheat in Tunisia

Remote Sensing Based Yield Estimation in a Stochastic Framework — Case Study of Durum Wheat in Tunisia

Multitemporal optical remote sensing constitutes a useful, cost efficient method for crop status monitoring over large areas. Modelers interested in yield monitoring can rely on past and recent observations of crop reflectance to estimate aboveground biomass and infer the likely yield. Therefore, in...

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Main Authors: Michele Meroni, Eduardo Marinho, Nabil Sghaier, Michel M. Verstrate, Olivier Leo
Format: Article
Language:English
Published: MDPI AG 2013-01-01
Series:Remote Sensing
Subjects:
optical remote sensing
multitemporal observations
yield
statistical models
SPOT-VGT
Online Access:http://www.mdpi.com/2072-4292/5/2/539
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spelling doaj-124e3cfa175f49a6a8798dbf53ba06ce2020-11-24T20:53:42ZengMDPI AGRemote Sensing2072-42922013-01-015253955710.3390/rs5020539Remote Sensing Based Yield Estimation in a Stochastic Framework — Case Study of Durum Wheat in TunisiaMichele MeroniEduardo MarinhoNabil SghaierMichel M. VerstrateOlivier LeoMultitemporal optical remote sensing constitutes a useful, cost efficient method for crop status monitoring over large areas. Modelers interested in yield monitoring can rely on past and recent observations of crop reflectance to estimate aboveground biomass and infer the likely yield. Therefore, in a framework constrained by information availability, remote sensing data to yield conversion parameters are to be estimated. Statistical models are suitable for this purpose, given their ability to deal with statistical errors. This paper explores the performance in yield estimation of various remote sensing indicators based on varying degrees of bio-physical insight, in interaction with statistical methods (linear regressions) that rely on different hypotheses. Performances in estimating the temporal and spatial variability of yield, and implications of data scarcity in both dimensions are investigated. Jackknifed results (leave one year out) are presented for the case of wheat yield regional estimation in Tunisia using the SPOT-VEGETATION instrument. Best performances, up to 0.8 of R2, are achieved using the most physiologically sound remote sensing indicator, in conjunction with statistical specifications allowing for parsimonious spatial adjustment of the parameters.http://www.mdpi.com/2072-4292/5/2/539optical remote sensingmultitemporal observationsyieldstatistical modelsSPOT-VGT
collection DOAJ
language English
format Article
sources DOAJ
author Michele Meroni
Eduardo Marinho
Nabil Sghaier
Michel M. Verstrate
Olivier Leo
spellingShingle Michele Meroni
Eduardo Marinho
Nabil Sghaier
Michel M. Verstrate
Olivier Leo
Remote Sensing Based Yield Estimation in a Stochastic Framework — Case Study of Durum Wheat in Tunisia
Remote Sensing
optical remote sensing
multitemporal observations
yield
statistical models
SPOT-VGT
author_facet Michele Meroni
Eduardo Marinho
Nabil Sghaier
Michel M. Verstrate
Olivier Leo
author_sort Michele Meroni
title Remote Sensing Based Yield Estimation in a Stochastic Framework — Case Study of Durum Wheat in Tunisia
title_short Remote Sensing Based Yield Estimation in a Stochastic Framework — Case Study of Durum Wheat in Tunisia
title_full Remote Sensing Based Yield Estimation in a Stochastic Framework — Case Study of Durum Wheat in Tunisia
title_fullStr Remote Sensing Based Yield Estimation in a Stochastic Framework — Case Study of Durum Wheat in Tunisia
title_full_unstemmed Remote Sensing Based Yield Estimation in a Stochastic Framework — Case Study of Durum Wheat in Tunisia
title_sort remote sensing based yield estimation in a stochastic framework — case study of durum wheat in tunisia
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2013-01-01
description Multitemporal optical remote sensing constitutes a useful, cost efficient method for crop status monitoring over large areas. Modelers interested in yield monitoring can rely on past and recent observations of crop reflectance to estimate aboveground biomass and infer the likely yield. Therefore, in a framework constrained by information availability, remote sensing data to yield conversion parameters are to be estimated. Statistical models are suitable for this purpose, given their ability to deal with statistical errors. This paper explores the performance in yield estimation of various remote sensing indicators based on varying degrees of bio-physical insight, in interaction with statistical methods (linear regressions) that rely on different hypotheses. Performances in estimating the temporal and spatial variability of yield, and implications of data scarcity in both dimensions are investigated. Jackknifed results (leave one year out) are presented for the case of wheat yield regional estimation in Tunisia using the SPOT-VEGETATION instrument. Best performances, up to 0.8 of R2, are achieved using the most physiologically sound remote sensing indicator, in conjunction with statistical specifications allowing for parsimonious spatial adjustment of the parameters.
topic optical remote sensing
multitemporal observations
yield
statistical models
SPOT-VGT
url http://www.mdpi.com/2072-4292/5/2/539
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AT nabilsghaier remotesensingbasedyieldestimationinastochasticframeworkcasestudyofdurumwheatintunisia
AT michelmverstrate remotesensingbasedyieldestimationinastochasticframeworkcasestudyofdurumwheatintunisia
AT olivierleo remotesensingbasedyieldestimationinastochasticframeworkcasestudyofdurumwheatintunisia
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