Relationships between fluorescence spectroscopy, photosynthesis and severity of citrus canker (Xanthomonas axonopodis pv. citri)

Citrus canker (Xanthomonas axonopodis pv. citri) is one of the most important diseases of citrus. Regulatory control is applied by means of exclusion and eradication of the pathogen. Possibilities of detection of infected trees decrease in orchards with low disease incidence. Considering the difficulties in visual diagnosis of citrus canker and the advantages of a technology that can improve the process of its detection in the field, single spectroscopic characteristics of a plant with this disease was searched. The objectives of the present work were to verify the spectroscopic characteristics of leaves with citrus canker and to correlate them to photosynthetic efficiency of these diseased leaves, and to relate disease severity to photosynthetic efficiency. Spectroscopic profiles and photosynthetic efficiency of Citrus sinensis (?Hamlin?), Citrus reticulata (?Ponkan?) and Citrus limonia (?Cravo?) were assessed before and after the inoculation with Xanthomonas axonopodis pv. citri. The model y = (1 - x) ?, in which y represents relative net assimilation of CO2 and x, disease severity, was fitted to the data by nonlinear regression. The monomolecular model was fitted to the relationships between relative net assimilation of CO2 and spectroscopic reasons of the red region, also by nonlinear regression. It was concluded that the disease affects the photosynthetic efficiency of ?Ponkan? and ?Hamlin?. In ?Hamlin?, the disease not only reduces the amount of leaf area, but also reduces the photosynthesis of the remaining green leaf tissue. There is a positive relationship between spectroscopic reasons of the red region and photosynthesis in ?Hamlin?, ?Ponkan?, and ?Cravo?. (AU)