中国生态农业学报2017,Vol.25Issue(6):805-811,7.DOI:10.13930/j.cnki.cjea.161107
基于去包络线法的番茄叶霉病发病程度估测方法
Continuum removal method for monitoringFulvia fulvamorbidity using hyperspectral data
摘要
Abstract
Fulvia fulva is a major disease in tomato cultivation. Compared with traditional laboratory analysis method, hyper-spectral remote-sensing technology can provide simple, cost effective and non-destructive information that can offer process-ing methods for diagnosing and quantifying plant health. However, there are many limitations (e.g., large volume of data, re-dundant information and complex spectral) in dealing with hyperspectral data. This paper aimed to clarify the spectrum char-acteristics of tomato leaf infected byF. fulvaand estimate its morbidity degree to provide theoretic basis for large-scale moni-toring of F. fulva using hyperspectral remote sensing. To this end, experiments were carried out in 2016 in with disease nursery of tomato F. fulva in Shangqiu. In the research, leaf spectral reflectance of tomato was acquired via ASD FieldSpec 3 spec-trometer (350-2500 nm). The continuum removal method was adopted to process the original spectrum reflectance of tomato leaf with different morbidity degrees ofF. fulva. The bands sensitive to F. fulva morbidity degree were selected and an inversion model of morbidity degree established based on absorption parameters of the spectrum features. The results showed that spectral reflectance of healthy tomato plants was higher than that of disease plants in the wavelength range of 350-2500 nm. Besides, the reflectance, spectral sensitivity and relative reflectance decreased with increasingF. fulva morbidity degree. The most sensitive wave bands for distinguishingF. fulva severity were located in the visible region (550-730 nm) and shortwave infrared region (1860-2260 nm). With increasingF. fulva morbidity degree, the absorption position (λ) of both visible spectrum and shortwave infrared spectrum moved to the short wavelength band, while the maximum absorption depth (Dc) and area (A) increased. Par-ticularly, the morbidity degree had a very significant correlation with maximum absorption depth in visible band (Dc1), maximum absorption area in shortwave infrared band (A2), maximum absorption depth in shortwave infrared band (Dc2), position of maxi-mum absorption depth in visible band (λ1) and position of maximum absorption depth in shortwave infrared band (λ2). Conse-quently, a stepwise regression model forF. fulva morbidity degree was built based on the spectral absorption parameters. The model had good validation results, with determination coefficient (R2) of 0.81. The results of the study not only contributed to the estimation ofF. fulva morbidity degree using hyperspectral remote-sensing data, but also had promising values of practical appli-cation in monitoring and preventing crop diseases.关键词
番茄/叶霉病/高光谱/去包络线/发病程度Key words
Tomato/Fulvia fulva/High spectrum/Continuum removal/Morbidity degree分类
农业科技引用本文复制引用
贾方方,洪权春,宋唯一..基于去包络线法的番茄叶霉病发病程度估测方法[J].中国生态农业学报,2017,25(6):805-811,7.基金项目
国家自然科学基金面上项目(21575087)和河南省高等学校重点科研项目(16B210006,16A210037)资助 This study was funded by the National Natural Science Foundation of China (21575087), the Key Scientific Research Program of Universities in Henan Province (16B210006, 16A210037). (21575087)
