Near infrared hyperspectral images and pattern recognition techniques used to identify etiological agents of cotton anthracnose and ramulosis

Near infrared hyperspectral images and pattern recognition techniques used to identify etiological agents of cotton anthracnose and ramulosis

Hyperspectral imaging near infrared (HSI-NIR) has the potential to be used as a non-destructive approach for the analysis of new microbiological matrices of agriculture interest. This article describes a new method for accurately and rapidly classifying the etiological agents Colletotrichum gossypii...

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Main Authors: Priscila S.R. Aires, Francisco F. Gambarra-Neto, Wirton M. Coutinho, Alderi E. Araujo, Gilvan Ferreira da Silva, Josivanda P.G. Gouveia, Everaldo P. Medeiros
Format: Article
Language:English
Published: IM Publications Open 2018-04-01
Series:Journal of Spectral Imaging
Subjects:
fungal identification
fungal taxonomy
non-destructive analysis
cotton crop
hyperspectral image
Online Access:https://www.impopen.com/download.php?code=I07_a8
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spelling doaj-44f4534b352646b498f675249592614c2020-11-24T22:20:32ZengIM Publications OpenJournal of Spectral Imaging2040-45652040-45652018-04-0171a810.1255/jsi.2018.a8Near infrared hyperspectral images and pattern recognition techniques used to identify etiological agents of cotton anthracnose and ramulosisPriscila S.R. Aires0Francisco F. Gambarra-Neto1Wirton M. Coutinho2Alderi E. Araujo3Gilvan Ferreira da Silva4Josivanda P.G. Gouveia5Everaldo P. Medeiros6Federal University of Campina Grande, Post-graduate Program in Agricultural Engineering, CEP 58.429-140, Campina Grande-PB, BrazilFederal University of Paraiba, Graduate Program in Agronomy, CEP 58.397-000, Areia, PB, BrazilEmbrapa Algodão, CEP 58428-095, Campina Grande, PB, BrazilEmbrapa Algodão, CEP 58428-095, Campina Grande, PB, BrazilEmbrapa Amazônia Ocidental, CEP 69010-970, Manaus, AM, BrazilFederal University of Campina Grande, Post-graduate Program in Agricultural Engineering, CEP 58.429-140, Campina Grande-PB, BrazilEmbrapa Algodão, CEP 58428-095, Campina Grande, PB, BrazilHyperspectral imaging near infrared (HSI-NIR) has the potential to be used as a non-destructive approach for the analysis of new microbiological matrices of agriculture interest. This article describes a new method for accurately and rapidly classifying the etiological agents Colletotrichum gossypii (CG) and C. gossypii var. cephalosporioides (CGC) grown in a culture medium, using scattering reflectance HSI-NIR and multivariate pattern recognition analysis. Five strains of CG and 46 strains of CGC were used. CG and CGC strains were grown on Czapek-agar medium at 25 °C under a 12-hour photoperiod for 15 days. Molecular identification was performed as a reference for the CG and CGC classes by polymerase chain reaction of the intergenic spacer region of rDNA. The scattering coefficient µs and the absorption coefficient µa were obtained, which resulted in a µs value for CG of 1.37 × 1019 and for CGC of 5.83 × 10–11. These results showed that the use of the standard normal variate was no longer essential and reduced the spectral range from 1000–2500 nm to 1000–1381 nm. The results evidenced two type II errors for the CG 457-2 and CGC 39 samples in the soft independent modelling model of the analogy model. There were no classification errors using the algorithm of the successive projections for variable selection in linear discriminant analysis (SPA-LDA). A parallel validation of the results obtained with SPA-LDA was performed using a box plot analysis with the 11 variables selected by SPA, in which there were no outliers for the HSI-NIR models. The new HSI-NIR and SPA-LDA procedures for the classification of CG and CGC etiological agents are noted for their greater analytical speed, accuracy, simplicity, lower cost and non-destructive nature.https://www.impopen.com/download.php?code=I07_a8fungal identificationfungal taxonomynon-destructive analysiscotton crophyperspectral image
collection DOAJ
language English
format Article
sources DOAJ
author Priscila S.R. Aires
Francisco F. Gambarra-Neto
Wirton M. Coutinho
Alderi E. Araujo
Gilvan Ferreira da Silva
Josivanda P.G. Gouveia
Everaldo P. Medeiros
spellingShingle Priscila S.R. Aires
Francisco F. Gambarra-Neto
Wirton M. Coutinho
Alderi E. Araujo
Gilvan Ferreira da Silva
Josivanda P.G. Gouveia
Everaldo P. Medeiros
Near infrared hyperspectral images and pattern recognition techniques used to identify etiological agents of cotton anthracnose and ramulosis
Journal of Spectral Imaging
fungal identification
fungal taxonomy
non-destructive analysis
cotton crop
hyperspectral image
author_facet Priscila S.R. Aires
Francisco F. Gambarra-Neto
Wirton M. Coutinho
Alderi E. Araujo
Gilvan Ferreira da Silva
Josivanda P.G. Gouveia
Everaldo P. Medeiros
author_sort Priscila S.R. Aires
title Near infrared hyperspectral images and pattern recognition techniques used to identify etiological agents of cotton anthracnose and ramulosis
title_short Near infrared hyperspectral images and pattern recognition techniques used to identify etiological agents of cotton anthracnose and ramulosis
title_full Near infrared hyperspectral images and pattern recognition techniques used to identify etiological agents of cotton anthracnose and ramulosis
title_fullStr Near infrared hyperspectral images and pattern recognition techniques used to identify etiological agents of cotton anthracnose and ramulosis
title_full_unstemmed Near infrared hyperspectral images and pattern recognition techniques used to identify etiological agents of cotton anthracnose and ramulosis
title_sort near infrared hyperspectral images and pattern recognition techniques used to identify etiological agents of cotton anthracnose and ramulosis
publisher IM Publications Open
series Journal of Spectral Imaging
issn 2040-4565
2040-4565
publishDate 2018-04-01
description Hyperspectral imaging near infrared (HSI-NIR) has the potential to be used as a non-destructive approach for the analysis of new microbiological matrices of agriculture interest. This article describes a new method for accurately and rapidly classifying the etiological agents Colletotrichum gossypii (CG) and C. gossypii var. cephalosporioides (CGC) grown in a culture medium, using scattering reflectance HSI-NIR and multivariate pattern recognition analysis. Five strains of CG and 46 strains of CGC were used. CG and CGC strains were grown on Czapek-agar medium at 25 °C under a 12-hour photoperiod for 15 days. Molecular identification was performed as a reference for the CG and CGC classes by polymerase chain reaction of the intergenic spacer region of rDNA. The scattering coefficient µs and the absorption coefficient µa were obtained, which resulted in a µs value for CG of 1.37 × 1019 and for CGC of 5.83 × 10–11. These results showed that the use of the standard normal variate was no longer essential and reduced the spectral range from 1000–2500 nm to 1000–1381 nm. The results evidenced two type II errors for the CG 457-2 and CGC 39 samples in the soft independent modelling model of the analogy model. There were no classification errors using the algorithm of the successive projections for variable selection in linear discriminant analysis (SPA-LDA). A parallel validation of the results obtained with SPA-LDA was performed using a box plot analysis with the 11 variables selected by SPA, in which there were no outliers for the HSI-NIR models. The new HSI-NIR and SPA-LDA procedures for the classification of CG and CGC etiological agents are noted for their greater analytical speed, accuracy, simplicity, lower cost and non-destructive nature.
topic fungal identification
fungal taxonomy
non-destructive analysis
cotton crop
hyperspectral image
url https://www.impopen.com/download.php?code=I07_a8
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