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Tytuł pozycji:

Optimizing the procedure of grain nutrient predictions in barley via hyperspectral imaging.

Tytuł :
Optimizing the procedure of grain nutrient predictions in barley via hyperspectral imaging.
Autorzy :
Mathias Wiegmann
Andreas Backhaus
Udo Seiffert
William T B Thomas
Andrew J Flavell
Klaus Pillen
Andreas Maurer
Pokaż więcej
Temat :
Medicine
Science
Źródło :
PLoS ONE, Vol 14, Iss 11, p e0224491 (2019)
Wydawca :
Public Library of Science (PLoS), 2019.
Rok publikacji :
2019
Kolekcja :
LCC:Medicine
LCC:Science
Typ dokumentu :
article
Opis pliku :
electronic resource
Język :
English
ISSN :
1932-6203
Relacje :
https://doaj.org/toc/1932-6203
DOI :
10.1371/journal.pone.0224491
Dostęp URL :
https://doaj.org/article/d64725e8cb5e4ea594285bd39f493094
Numer akcesji :
edsdoj.64725e8cb5e4ea594285bd39f493094
Czasopismo naukowe
Hyperspectral imaging enables researchers and plant breeders to analyze various traits of interest like nutritional value in high throughput. In order to achieve this, the optimal design of a reliable calibration model, linking the measured spectra with the investigated traits, is necessary. In the present study we investigated the impact of different regression models, calibration set sizes and calibration set compositions on prediction performance. For this purpose, we analyzed concentrations of six globally relevant grain nutrients of the wild barley population HEB-YIELD as case study. The data comprised 1,593 plots, grown in 2015 and 2016 at the locations Dundee and Halle, which have been entirely analyzed through traditional laboratory methods and hyperspectral imaging. The results indicated that a linear regression model based on partial least squares outperformed neural networks in this particular data modelling task. There existed a positive relationship between the number of samples in a calibration model and prediction performance, with a local optimum at a calibration set size of ~40% of the total data. The inclusion of samples from several years and locations could clearly improve the predictions of the investigated nutrient traits at small calibration set sizes. It should be stated that the expansion of calibration models with additional samples is only useful as long as they are able to increase trait variability. Models obtained in a certain environment were only to a limited extent transferable to other environments. They should therefore be successively upgraded with new calibration data to enable a reliable prediction of the desired traits. The presented results will assist the design and conceptualization of future hyperspectral imaging projects in order to achieve reliable predictions. It will in general help to establish practical applications of hyperspectral imaging systems, for instance in plant breeding concepts.
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