Abstract

Finding trees that are resistant to pathogens is key in preparing for current and future disease threats such as the invasive white pine blister rust. In this study, we analyzed the potential of using hyperspectral imaging to find and diagnose the degree of infection of the non-native white pine blister rust in southwestern white pine seedlings from different seed-source families. A support vector machine was able to automatically detect infection with a classification accuracy of 87% (κ = 0.75) over 16 image collection dates. Hyperspectral imaging only missed 4% of infected seedlings that were impacted in terms of vigor according to expert’s assessments. Classification accuracy per family was highly correlated with mortality rate within a family. Moreover, classifying seedlings into a ‘growth vigor’ grouping used to identify the degree of impact of the disease was possible with 79.7% (κ = 0.69) accuracy. We ranked hyperspectral features for their importance in both classification tasks using the following features: 84 vegetation indices, simple ratios, normalized difference indices, and first derivatives. The most informative features were identified using a ‘new search algorithm’ that combines both the p-value of a 2-sample t-test and the Bhattacharyya distance. We ranked the normalized photochemical reflectance index (PRIn) first for infection detection. This index also had the highest classification accuracy (83.6%). Indices such as PRIn use only a small subset of the reflectance bands. This could be used for future developments of less expensive and more data-parsimonious multispectral cameras.

Highlights

  • Forest pests and pathogens have a harmful impact on forest structure, biodiversity, and function [1,2,3,4]

  • Forest managers can focus their resources where the infection is detected. They can anticipate the impacts of climate change by favoring both genetic diversity and more pest-resistant genotypes during restoration and reforestation [9]

  • Hyperspectral imaging (HSI) only missed 4% of infected seedlings that were impacted in terms of vigor according to the expert’s assessments (29% of the 14% error)

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Summary

Introduction

Forest pests and pathogens have a harmful impact on forest structure, biodiversity, and function [1,2,3,4]. High mortality from non-native pathogens and pests has already occurred in several forest species [5]. Future projections identify 41.1% of total live forest biomass at risk in the US [6]. To prepare for these impacts, screening of trees for genetic resistance and susceptibility to pathogens and pests is important [7,8,9,10]. Forest managers can focus their resources where the infection is detected. They can anticipate the impacts of climate change by favoring both genetic diversity and more pest-resistant genotypes during restoration and reforestation [9]

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