Multivariate Discriminant Analysis of Single Seed Near Infrared Spectra for Sorting Dead-Filled and Viable Seeds of Three Pine Species: Does One Model Fit All Species?

Multivariate Discriminant Analysis of Single Seed Near Infrared Spectra for Sorting Dead-Filled and Viable Seeds of Three Pine Species: Does One Model Fit All Species?

Seed lots of pine species are composed of viable, dead-filled and empty seeds, and the success of complete sorting of dead-filled seeds using the conventional method (Incubation, Drying and Separation in water) is difficult to achieve; leaving a considerable scope for upgrading the sorting efficienc...

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Main Authors: Mulualem Tigabu, Abolfazl Daneshvar, Ren Jingjing, Pengfei Wu, Xiangqing Ma, Per Christer Odén
Format: Article
Language:English
Published: MDPI AG 2019-05-01
Series:Forests
Subjects:
NIR
OPLS-DA
Pinus massoniana
Pinus elliottii
Pinus tabuliformis
seed sorting
Online Access:https://www.mdpi.com/1999-4907/10/6/469
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spelling doaj-62970dc5972c4258b822b6e73189ccc62020-11-25T01:55:15ZengMDPI AGForests1999-49072019-05-0110646910.3390/f10060469f10060469Multivariate Discriminant Analysis of Single Seed Near Infrared Spectra for Sorting Dead-Filled and Viable Seeds of Three Pine Species: Does One Model Fit All Species?Mulualem Tigabu0Abolfazl Daneshvar1Ren Jingjing2Pengfei Wu3Xiangqing Ma4Per Christer Odén5Forestry College, Fujian Agriculture and Forestry University, Fuzhou 350002, ChinaDepartment of Biology, Faculty of Basic Sciences and Engineering, Gonbad Kavous University, Shahid Fallahi Street, Basirat Blvd, P.O. Box 163 Golestan, IranForestry College, Fujian Agriculture and Forestry University, Fuzhou 350002, ChinaForestry College, Fujian Agriculture and Forestry University, Fuzhou 350002, ChinaForestry College, Fujian Agriculture and Forestry University, Fuzhou 350002, ChinaSouthern Swedish Forest Research Center, Faculty of Forest Science, Swedish University of Agricultural Sciences, PO Box 49, SE-230 53 Alnarp, SwedenSeed lots of pine species are composed of viable, dead-filled and empty seeds, and the success of complete sorting of dead-filled seeds using the conventional method (Incubation, Drying and Separation in water) is difficult to achieve; leaving a considerable scope for upgrading the sorting efficiency. The objective of this study was to evaluate the prospect of sorting viable and dead-filled seeds of pine species using Near Infrared (NIR) spectroscopy. To demonstrate this, dead-filled and viable seeds of Mason’s pine, slash pine and loblolly pine were incubated in moist medium for three days, dried for six hours and scanned by XDS Rapid Content Analyzer from 780−2500 nm. Orthogonal Projection to Latent Structure-Discriminant Analysis was used to develop discriminant models for each species separately and for all species combined. The results showed that the sensitivity (the model’s ability to correctly classify members of a given class) and the specificity (the model’s ability to reject non-members of a given class) were 100% for each species model and 98%−99% for combined species model. The overall classification accuracy was 100% and 99% for individual species and combined species models, respectively. The absorption band in the 1870−1950 nm with a major peak at 1930 nm, which is related to water, was responsible for discrimination as dead-filled seeds dried quicker than viable seeds during the drying process. Our study is the first attempt to simultaneously discriminate dead-filled and viable seeds of pines by NIR spectroscopy. The results demonstrates that a global calibration model of seed lots of several pine species can be equally effective as the individual species model to discriminate viable and dead-filled seeds by NIR spectroscopy, thereby ensuring precision sowing (also known as single seed sowing) in nurseries.https://www.mdpi.com/1999-4907/10/6/469NIROPLS-DAPinus massonianaPinus elliottiiPinus tabuliformisseed sorting
collection DOAJ
language English
format Article
sources DOAJ
author Mulualem Tigabu
Abolfazl Daneshvar
Ren Jingjing
Pengfei Wu
Xiangqing Ma
Per Christer Odén
spellingShingle Mulualem Tigabu
Abolfazl Daneshvar
Ren Jingjing
Pengfei Wu
Xiangqing Ma
Per Christer Odén
Multivariate Discriminant Analysis of Single Seed Near Infrared Spectra for Sorting Dead-Filled and Viable Seeds of Three Pine Species: Does One Model Fit All Species?
Forests
NIR
OPLS-DA
Pinus massoniana
Pinus elliottii
Pinus tabuliformis
seed sorting
author_facet Mulualem Tigabu
Abolfazl Daneshvar
Ren Jingjing
Pengfei Wu
Xiangqing Ma
Per Christer Odén
author_sort Mulualem Tigabu
title Multivariate Discriminant Analysis of Single Seed Near Infrared Spectra for Sorting Dead-Filled and Viable Seeds of Three Pine Species: Does One Model Fit All Species?
title_short Multivariate Discriminant Analysis of Single Seed Near Infrared Spectra for Sorting Dead-Filled and Viable Seeds of Three Pine Species: Does One Model Fit All Species?
title_full Multivariate Discriminant Analysis of Single Seed Near Infrared Spectra for Sorting Dead-Filled and Viable Seeds of Three Pine Species: Does One Model Fit All Species?
title_fullStr Multivariate Discriminant Analysis of Single Seed Near Infrared Spectra for Sorting Dead-Filled and Viable Seeds of Three Pine Species: Does One Model Fit All Species?
title_full_unstemmed Multivariate Discriminant Analysis of Single Seed Near Infrared Spectra for Sorting Dead-Filled and Viable Seeds of Three Pine Species: Does One Model Fit All Species?
title_sort multivariate discriminant analysis of single seed near infrared spectra for sorting dead-filled and viable seeds of three pine species: does one model fit all species?
publisher MDPI AG
series Forests
issn 1999-4907
publishDate 2019-05-01
description Seed lots of pine species are composed of viable, dead-filled and empty seeds, and the success of complete sorting of dead-filled seeds using the conventional method (Incubation, Drying and Separation in water) is difficult to achieve; leaving a considerable scope for upgrading the sorting efficiency. The objective of this study was to evaluate the prospect of sorting viable and dead-filled seeds of pine species using Near Infrared (NIR) spectroscopy. To demonstrate this, dead-filled and viable seeds of Mason’s pine, slash pine and loblolly pine were incubated in moist medium for three days, dried for six hours and scanned by XDS Rapid Content Analyzer from 780−2500 nm. Orthogonal Projection to Latent Structure-Discriminant Analysis was used to develop discriminant models for each species separately and for all species combined. The results showed that the sensitivity (the model’s ability to correctly classify members of a given class) and the specificity (the model’s ability to reject non-members of a given class) were 100% for each species model and 98%−99% for combined species model. The overall classification accuracy was 100% and 99% for individual species and combined species models, respectively. The absorption band in the 1870−1950 nm with a major peak at 1930 nm, which is related to water, was responsible for discrimination as dead-filled seeds dried quicker than viable seeds during the drying process. Our study is the first attempt to simultaneously discriminate dead-filled and viable seeds of pines by NIR spectroscopy. The results demonstrates that a global calibration model of seed lots of several pine species can be equally effective as the individual species model to discriminate viable and dead-filled seeds by NIR spectroscopy, thereby ensuring precision sowing (also known as single seed sowing) in nurseries.
topic NIR
OPLS-DA
Pinus massoniana
Pinus elliottii
Pinus tabuliformis
seed sorting
url https://www.mdpi.com/1999-4907/10/6/469
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