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Arboriculture & Urban Forestry Online
Volume 46, Issue 4 — July 2020
https://www.isa-arbor.com/Publications/Arboriculture-Urban-Forestry

Phenotyping Austrian Pine for Resistance Using Fourier-Transform Infrared Spectroscopy

Anna O. Conrad, Caterina Villari, Patrick Sherwood, and Pierluigi (Enrico) Bonello

Abstract: Austrian pine (Pinus nigra) is a valuable component of the urban landscape in the Midwestern USA. In this area, it is impacted by the fungal pathogen Diplodia sapinea, which causes a tip blight and canker on infected trees. While the disease can be managed through the application of fungicides and/or by preventing environmental conditions that are favorable for the pathogen, these practices only temporarily alleviate the problem. A more sustainable solution is to use resistant trees. The objective of this study was to evaluate whether Fourier-transform infrared (FT-IR) spectroscopy combined with chemometric analysis can distinguish between trees that vary in susceptibility to D. sapinea. Trees were phenotyped for resistance to D. sapinea by artificially inoculating shoots and measuring ensuing lesions seven days following inoculation. Then, three different chemometric approaches, including a type of machine learning called support vector machine (SVM), were used to evaluate whether or not trees that varied in susceptibility could be distinguished. Trees that varied in susceptibility could be discriminated based on FT-IR spectra collected prior to pathogen infection using the three chemometric approaches: soft independent modeling of class analogy, partial least squares regression, and SVM. While further validation of the predictive models is needed, the results suggest that the approach may be useful as a tool for screening and breeding Austrian pine for resistance to D. sapinea. Furthermore, this approach may have wide applicability in other tree/plant pathosystems of concern and economic value to the nursery and ornamental industries.

Keywords: Phenotyping Austrian Pine for Resistance Using Fourier-Transform Infrared Spectroscopy

https://doi.org/10.48044/jauf.2020.020


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