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Hyperspectral and Thermal Imaging of Oilseed Rape (Brassica napus) Response to Fungal Species of the Genus Alternaria
Hyperspectral and Thermal Imaging of Oilseed Rape (Brassica napus) Response to Fungal Species of the Genus Alternaria
by Siedliska, Anna , Jedryczka, Malgorzata , Mazurek, Wojciech , Babula-Skowronska, Danuta , Baranowski, Piotr , Kaczmarek, Joanna
in Algorithms / Alternaria / Alternaria - pathogenicity / Alternaria alternata / Alternaria brassicae / Alternaria brassicicola / Alternaria dauci / Artificial intelligence / Back propagation networks / Brassica / Brassica napus / Brassica napus - microbiology / Brassica napus - physiology / Classification / Developmental stages / Environmental conditions / Flowers & plants / Fungi / Gene expression / Heat detection / Hyperspectral imaging / Infections / Inoculation / Leaves / Metabolism / Metabolites / Neural networks / Physiology / Plant diseases / Propagation / Rapeseed / Reflectance / Species classification / Statistical analysis / Temperature / Temperature distribution / Temperature effects / Thermal imaging / Thermography / Transformation / Wheat
2015
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Hyperspectral and Thermal Imaging of Oilseed Rape (Brassica napus) Response to Fungal Species of the Genus Alternaria
by Siedliska, Anna , Jedryczka, Malgorzata , Mazurek, Wojciech , Babula-Skowronska, Danuta , Baranowski, Piotr , Kaczmarek, Joanna
in Algorithms / Alternaria / Alternaria - pathogenicity / Alternaria alternata / Alternaria brassicae / Alternaria brassicicola / Alternaria dauci / Artificial intelligence / Back propagation networks / Brassica / Brassica napus / Brassica napus - microbiology / Brassica napus - physiology / Classification / Developmental stages / Environmental conditions / Flowers & plants / Fungi / Gene expression / Heat detection / Hyperspectral imaging / Infections / Inoculation / Leaves / Metabolism / Metabolites / Neural networks / Physiology / Plant diseases / Propagation / Rapeseed / Reflectance / Species classification / Statistical analysis / Temperature / Temperature distribution / Temperature effects / Thermal imaging / Thermography / Transformation / Wheat
2015
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Hyperspectral and Thermal Imaging of Oilseed Rape (Brassica napus) Response to Fungal Species of the Genus Alternaria
Hyperspectral and Thermal Imaging of Oilseed Rape (Brassica napus) Response to Fungal Species of the Genus Alternaria
by Siedliska, Anna , Jedryczka, Malgorzata , Mazurek, Wojciech , Babula-Skowronska, Danuta , Baranowski, Piotr , Kaczmarek, Joanna
in Algorithms / Alternaria / Alternaria - pathogenicity / Alternaria alternata / Alternaria brassicae / Alternaria brassicicola / Alternaria dauci / Artificial intelligence / Back propagation networks / Brassica / Brassica napus / Brassica napus - microbiology / Brassica napus - physiology / Classification / Developmental stages / Environmental conditions / Flowers & plants / Fungi / Gene expression / Heat detection / Hyperspectral imaging / Infections / Inoculation / Leaves / Metabolism / Metabolites / Neural networks / Physiology / Plant diseases / Propagation / Rapeseed / Reflectance / Species classification / Statistical analysis / Temperature / Temperature distribution / Temperature effects / Thermal imaging / Thermography / Transformation / Wheat
2015

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Hyperspectral and Thermal Imaging of Oilseed Rape (Brassica napus) Response to Fungal Species of the Genus Alternaria
Hyperspectral and Thermal Imaging of Oilseed Rape (Brassica napus) Response to Fungal Species of the Genus Alternaria
Journal Article

Hyperspectral and Thermal Imaging of Oilseed Rape (Brassica napus) Response to Fungal Species of the Genus Alternaria

Siedliska, Anna,
Jedryczka, Malgorzata,
Mazurek, Wojciech,
Babula-Skowronska, Danuta,
Baranowski, Piotr,
Kaczmarek, Joanna
2015
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Overview
In this paper, thermal (8-13 µm) and hyperspectral imaging in visible and near infrared (VNIR) and short wavelength infrared (SWIR) ranges were used to elaborate a method of early detection of biotic stresses caused by fungal species belonging to the genus Alternaria that were host (Alternaria alternata, Alternaria brassicae, and Alternaria brassicicola) and non-host (Alternaria dauci) pathogens to oilseed rape (Brassica napus L.). The measurements of disease severity for chosen dates after inoculation were compared to temperature distributions on infected leaves and to averaged reflectance characteristics. Statistical analysis revealed that leaf temperature distributions on particular days after inoculation and respective spectral characteristics, especially in the SWIR range (1000-2500 nm), significantly differed for the leaves inoculated with A. dauci from the other species of Alternaria as well as from leaves of non-treated plants. The significant differences in leaf temperature of the studied Alternaria species were observed in various stages of infection development. The classification experiments were performed on the hyperspectral data of the leaf surfaces to distinguish days after inoculation and Alternaria species. The second-derivative transformation of the spectral data together with back-propagation neural networks (BNNs) appeared to be the best combination for classification of days after inoculation (prediction accuracy 90.5%) and Alternaria species (prediction accuracy 80.5%).
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Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject

Algorithms

/ Alternaria

/ Alternaria - pathogenicity

/ Alternaria alternata

/ Alternaria brassicae

/ Alternaria brassicicola

/ Alternaria dauci

/ Artificial intelligence

/ Back propagation networks

/ Brassica

/ Brassica napus

/ Brassica napus - microbiology

/ Brassica napus - physiology

/ Classification

/ Developmental stages

/ Environmental conditions

/ Flowers & plants

/ Fungi

/ Gene expression

/ Heat detection

/ Hyperspectral imaging

/ Infections

/ Inoculation

/ Leaves

/ Metabolism

/ Metabolites

/ Neural networks

/ Physiology

/ Plant diseases

/ Propagation

/ Rapeseed

/ Reflectance

/ Species classification

/ Statistical analysis

/ Temperature

/ Temperature distribution

/ Temperature effects

/ Thermal imaging

/ Thermography

/ Transformation

/ Wheat

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