Determination of Main Spectral and Luminescent Characteristics of Winter Wheat Seeds Infected with Pathogenic Microflora

In connection with the constant growth of demand for high-quality food products, there is a need to develop effective methods for storing agricultural products, and the registration and predicting infection in the early stages. The studying of the physical properties of infected plants and seeds has...

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Autores principales: Alexey M. Bashilov, Igor Yu. Efremenkov, Mikhail V. Belyakov, Alexander V. Lavrov, Anatoly A. Gulyaev, Stanislav A. Gerasimenko, Sergei I. Borzenko, Andrey A. Boyko
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Publicado: MDPI AG 2021
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Acceso en línea:https://doaj.org/article/a3244545b33f43dcbb24c0520ee04a38
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spelling oai:doaj.org-article:a3244545b33f43dcbb24c0520ee04a382021-11-25T18:43:22ZDetermination of Main Spectral and Luminescent Characteristics of Winter Wheat Seeds Infected with Pathogenic Microflora10.3390/photonics81104942304-6732https://doaj.org/article/a3244545b33f43dcbb24c0520ee04a382021-11-01T00:00:00Zhttps://www.mdpi.com/2304-6732/8/11/494https://doaj.org/toc/2304-6732In connection with the constant growth of demand for high-quality food products, there is a need to develop effective methods for storing agricultural products, and the registration and predicting infection in the early stages. The studying of the physical properties of infected plants and seeds has fundamental importance for determining crop losses, conducting a survey of diseases, and assessing the effectiveness of their control (assessment of the resistance of crops and varieties, the effect of fungicides, etc.). Presently, photoluminescent methods for diagnosing seeds in the ultraviolet and visible ranges have not been studied. For research, seeds of winter wheat were selected, and were infected with one of the most common and dangerous diseases for plants—fusarium. The research of luminescence was carried out based on a hardware–software complex consisting of a multifunctional spectrofluorometer “Fluorat-02-Panorama”, a computer with software “Panorama Pro” installed, and an external camera for the samples under study. Spectra were obtained with a diagnostic range of winter wheat seeds of 220–400 nm. Based on the results obtained for winter wheat seeds, it is possible to further develop a method for determining the degree of fusarium infection.Alexey M. BashilovIgor Yu. EfremenkovMikhail V. BelyakovAlexander V. LavrovAnatoly A. GulyaevStanislav A. GerasimenkoSergei I. BorzenkoAndrey A. BoykoMDPI AGarticlewinter wheat seedsfusariumphotoluminescencespectrumGaussiansApplied optics. PhotonicsTA1501-1820ENPhotonics, Vol 8, Iss 494, p 494 (2021)
institution DOAJ
collection DOAJ
language EN
topic winter wheat seeds
fusarium
photoluminescence
spectrum
Gaussians
Applied optics. Photonics
TA1501-1820
spellingShingle winter wheat seeds
fusarium
photoluminescence
spectrum
Gaussians
Applied optics. Photonics
TA1501-1820
Alexey M. Bashilov
Igor Yu. Efremenkov
Mikhail V. Belyakov
Alexander V. Lavrov
Anatoly A. Gulyaev
Stanislav A. Gerasimenko
Sergei I. Borzenko
Andrey A. Boyko
Determination of Main Spectral and Luminescent Characteristics of Winter Wheat Seeds Infected with Pathogenic Microflora
description In connection with the constant growth of demand for high-quality food products, there is a need to develop effective methods for storing agricultural products, and the registration and predicting infection in the early stages. The studying of the physical properties of infected plants and seeds has fundamental importance for determining crop losses, conducting a survey of diseases, and assessing the effectiveness of their control (assessment of the resistance of crops and varieties, the effect of fungicides, etc.). Presently, photoluminescent methods for diagnosing seeds in the ultraviolet and visible ranges have not been studied. For research, seeds of winter wheat were selected, and were infected with one of the most common and dangerous diseases for plants—fusarium. The research of luminescence was carried out based on a hardware–software complex consisting of a multifunctional spectrofluorometer “Fluorat-02-Panorama”, a computer with software “Panorama Pro” installed, and an external camera for the samples under study. Spectra were obtained with a diagnostic range of winter wheat seeds of 220–400 nm. Based on the results obtained for winter wheat seeds, it is possible to further develop a method for determining the degree of fusarium infection.
format article
author Alexey M. Bashilov
Igor Yu. Efremenkov
Mikhail V. Belyakov
Alexander V. Lavrov
Anatoly A. Gulyaev
Stanislav A. Gerasimenko
Sergei I. Borzenko
Andrey A. Boyko
author_facet Alexey M. Bashilov
Igor Yu. Efremenkov
Mikhail V. Belyakov
Alexander V. Lavrov
Anatoly A. Gulyaev
Stanislav A. Gerasimenko
Sergei I. Borzenko
Andrey A. Boyko
author_sort Alexey M. Bashilov
title Determination of Main Spectral and Luminescent Characteristics of Winter Wheat Seeds Infected with Pathogenic Microflora
title_short Determination of Main Spectral and Luminescent Characteristics of Winter Wheat Seeds Infected with Pathogenic Microflora
title_full Determination of Main Spectral and Luminescent Characteristics of Winter Wheat Seeds Infected with Pathogenic Microflora
title_fullStr Determination of Main Spectral and Luminescent Characteristics of Winter Wheat Seeds Infected with Pathogenic Microflora
title_full_unstemmed Determination of Main Spectral and Luminescent Characteristics of Winter Wheat Seeds Infected with Pathogenic Microflora
title_sort determination of main spectral and luminescent characteristics of winter wheat seeds infected with pathogenic microflora
publisher MDPI AG
publishDate 2021
url https://doaj.org/article/a3244545b33f43dcbb24c0520ee04a38
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