Large-scale risk mapping of an eruptive bark beetle – Importance of forest susceptibility and beetle pressure

•We modelled the risk of bark beetle infestations across a managed forest landscape.•Predictors reflecting both beetle pressure and forest characteristics were included.•Volume of the host tree Norway spruce was the most important predictor.•Bark beetle predictors contributed little to model perform...

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Published in:	Forest ecology and management Vol. 318; pp. 158 - 166
Main Authors:	Kärvemo, Simon, Van Boeckel, Thomas P., Gilbert, Marius, Grégoire, Jean-Claude, Schroeder, Martin
Format:	Journal Article
Language:	English
Published:	Kidlington Elsevier B.V 15-04-2014 Elsevier
Subjects:	Animal and plant ecology Animal, plant and microbial ecology Biological and medical sciences Ecology Ekologi Forest Science Forestry Fundamental and applied biological sciences. Psychology Infestation spots Insect outbreak Ips typographus Risk assessment Skogsvetenskap Spruce bark beetle Synecology Terrestrial ecosystems “Push–pull” strategy Spruce bark beetle Infestation spots Risk assessment Ips typographus “Push–pull” strategy Insect outbreak Forests Coleoptera Insecta Risk Pest Outbreak Push―pull strategy Softwood forest tree Gymnospermae Picea Evaluation Forest ecology Risk analysis Pressure Sensitivity Arthropoda Forestry Strategy Coniferales Spermatophyta Curculionidae Large scale Invertebrata Infestation
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Abstract	•We modelled the risk of bark beetle infestations across a managed forest landscape.•Predictors reflecting both beetle pressure and forest characteristics were included.•Volume of the host tree Norway spruce was the most important predictor.•Bark beetle predictors contributed little to model performance. Bark beetle outbreaks have increased in Europe and North America. To mitigate damage efficiently during outbreaks, robust models predicting where the risk for tree mortality is highest across forest landscapes and better understanding of the underlying mechanisms are required. Using Boosted Regression Trees, we modelled relative risks of infestation by the spruce bark beetle Ips typographus (L.) across a 130,000ha managed lowland forest landscape in southern Sweden during three years of an outbreak and at a resolution of 100×100m. A second nearby landscape of similar size was used for validation. Both predictors reflecting forest susceptibility and beetle pressure were used. Forest susceptibility predictors included volume per ha of host and non-host trees, tree height and distance to the nearest clear-cut harvested during the last four years, all based on interpretations of satellite images. Bark beetle predictors were based on locations and sizes of previous year infestation spots recorded by helicopter. Model outcomes were similar across years, and there was no major reduction in performance when extrapolating predictions in space or time, indicating the modelled relationships have high reliability. Area under curve (AUC) values varied from 0.729 to 0.818. Including bark beetle predictors increased the AUC value somewhat in one of two years. The most important predictor was volume per ha of the host tree, Norway spruce Picea abies (L.) Karst., which reflects the probability of bark beetles encountering suitable trees. This variable was strongly positively correlated with risk up to 200m3ha−1. Unexpectedly, the volume of the non-host birch was also positively correlated with infestation risk up to 25m3ha−1. Tree height was associated with increased infestation risk above heights of 10m in 2008 and 15m in 2009. In 2007 and 2008 there was a weak negative relationship between infestation risk and distance to the nearest clear-cut. Additionally, our study shows that in managed forest landscapes the I. typographus-killed trees are distributed in many small infestation spots spread out over the landscape. We demonstrate that high-resolution risk-rating maps can be successfully created for large landscapes using easily accessible satellite data of forest characteristics and aerial surveys of infestation spots. The distribution of killed trees in many small infestation spots, poses a challenge for the forest owners to find and remove colonized trees before the new generation emerge. Our results suggest that mitigation efforts in managed lowland forest should focus on high volume spruce stands.
AbstractList	Bark beetle outbreaks have increased in Europe and North America. To mitigate damage efficiently during outbreaks, robust models predicting where the risk for tree mortality is highest across forest landscapes and better understanding of the underlying mechanisms are required. Using Boosted Regression Trees, we modelled relative risks of infestation by the spruce bark beetle Ips typographus (L.) across a 130,000ha managed lowland forest landscape in southern Sweden during three years of an outbreak and at a resolution of 100×100m. A second nearby landscape of similar size was used for validation. Both predictors reflecting forest susceptibility and beetle pressure were used. Forest susceptibility predictors included volume per ha of host and non-host trees, tree height and distance to the nearest clear-cut harvested during the last four years, all based on interpretations of satellite images. Bark beetle predictors were based on locations and sizes of previous year infestation spots recorded by helicopter. Model outcomes were similar across years, and there was no major reduction in performance when extrapolating predictions in space or time, indicating the modelled relationships have high reliability. Area under curve (AUC) values varied from 0.729 to 0.818. Including bark beetle predictors increased the AUC value somewhat in one of two years. The most important predictor was volume per ha of the host tree, Norway spruce Picea abies (L.) Karst., which reflects the probability of bark beetles encountering suitable trees. This variable was strongly positively correlated with risk up to 200m3ha-1. Unexpectedly, the volume of the non-host birch was also positively correlated with infestation risk up to 25m3ha-1. Tree height was associated with increased infestation risk above heights of 10m in 2008 and 15m in 2009. In 2007 and 2008 there was a weak negative relationship between infestation risk and distance to the nearest clear-cut. Additionally, our study shows that in managed forest landscapes the I. typographus -killed trees are distributed in many small infestation spots spread out over the landscape. We demonstrate that high-resolution risk-rating maps can be successfully created for large landscapes using easily accessible satellite data of forest characteristics and aerial surveys of infestation spots. The distribution of killed trees in many small infestation spots, poses a challenge for the forest owners to find and remove colonized trees before the new generation emerge. Our results suggest that mitigation efforts in managed lowland forest should focus on high volume spruce stands. •We modelled the risk of bark beetle infestations across a managed forest landscape.•Predictors reflecting both beetle pressure and forest characteristics were included.•Volume of the host tree Norway spruce was the most important predictor.•Bark beetle predictors contributed little to model performance. Bark beetle outbreaks have increased in Europe and North America. To mitigate damage efficiently during outbreaks, robust models predicting where the risk for tree mortality is highest across forest landscapes and better understanding of the underlying mechanisms are required. Using Boosted Regression Trees, we modelled relative risks of infestation by the spruce bark beetle Ips typographus (L.) across a 130,000ha managed lowland forest landscape in southern Sweden during three years of an outbreak and at a resolution of 100×100m. A second nearby landscape of similar size was used for validation. Both predictors reflecting forest susceptibility and beetle pressure were used. Forest susceptibility predictors included volume per ha of host and non-host trees, tree height and distance to the nearest clear-cut harvested during the last four years, all based on interpretations of satellite images. Bark beetle predictors were based on locations and sizes of previous year infestation spots recorded by helicopter. Model outcomes were similar across years, and there was no major reduction in performance when extrapolating predictions in space or time, indicating the modelled relationships have high reliability. Area under curve (AUC) values varied from 0.729 to 0.818. Including bark beetle predictors increased the AUC value somewhat in one of two years. The most important predictor was volume per ha of the host tree, Norway spruce Picea abies (L.) Karst., which reflects the probability of bark beetles encountering suitable trees. This variable was strongly positively correlated with risk up to 200m3ha−1. Unexpectedly, the volume of the non-host birch was also positively correlated with infestation risk up to 25m3ha−1. Tree height was associated with increased infestation risk above heights of 10m in 2008 and 15m in 2009. In 2007 and 2008 there was a weak negative relationship between infestation risk and distance to the nearest clear-cut. Additionally, our study shows that in managed forest landscapes the I. typographus-killed trees are distributed in many small infestation spots spread out over the landscape. We demonstrate that high-resolution risk-rating maps can be successfully created for large landscapes using easily accessible satellite data of forest characteristics and aerial surveys of infestation spots. The distribution of killed trees in many small infestation spots, poses a challenge for the forest owners to find and remove colonized trees before the new generation emerge. Our results suggest that mitigation efforts in managed lowland forest should focus on high volume spruce stands.
Author	Kärvemo, Simon Gilbert, Marius Schroeder, Martin Grégoire, Jean-Claude Van Boeckel, Thomas P.
Author_xml	– sequence: 1 givenname: Simon orcidid: 0000-0003-0954-7312 surname: Kärvemo fullname: Kärvemo, Simon email: simon.karvemo@slu.se organization: Department of Ecology, Swedish University of Agricultural Sciences, Box 7044, 750 07 Uppsala, Sweden – sequence: 2 givenname: Thomas P. surname: Van Boeckel fullname: Van Boeckel, Thomas P. email: thomas.van.boeckel@gmail.com organization: Biological Control and Spatial Ecology, Université Libre de Bruxelles, CP 160/12 50, Av F.D. Roosevelt, 1050 Bruxelles, Belgium – sequence: 3 givenname: Marius surname: Gilbert fullname: Gilbert, Marius email: mgilbert@ulb.ac.be organization: Biological Control and Spatial Ecology, Université Libre de Bruxelles, CP 160/12 50, Av F.D. Roosevelt, 1050 Bruxelles, Belgium – sequence: 4 givenname: Jean-Claude surname: Grégoire fullname: Grégoire, Jean-Claude email: jcgregoi@ulb.ac.be organization: Biological Control and Spatial Ecology, Université Libre de Bruxelles, CP 160/12 50, Av F.D. Roosevelt, 1050 Bruxelles, Belgium – sequence: 5 givenname: Martin surname: Schroeder fullname: Schroeder, Martin email: martin.schroeder@slu.se organization: Department of Ecology, Swedish University of Agricultural Sciences, Box 7044, 750 07 Uppsala, Sweden
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Keywords	Spruce bark beetle Infestation spots Risk assessment Ips typographus “Push–pull” strategy Insect outbreak Forests Coleoptera Insecta Risk Pest Outbreak Push―pull strategy Softwood forest tree Gymnospermae Picea Evaluation Forest ecology Risk analysis Pressure Sensitivity Arthropoda Forestry Strategy Coniferales Spermatophyta Curculionidae Large scale Invertebrata Infestation
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Snippet	•We modelled the risk of bark beetle infestations across a managed forest landscape.•Predictors reflecting both beetle pressure and forest characteristics were... Bark beetle outbreaks have increased in Europe and North America. To mitigate damage efficiently during outbreaks, robust models predicting where the risk for...
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SubjectTerms	Animal and plant ecology Animal, plant and microbial ecology Biological and medical sciences Ecology Ekologi Forest Science Forestry Fundamental and applied biological sciences. Psychology Infestation spots Insect outbreak Ips typographus Risk assessment Skogsvetenskap Spruce bark beetle Synecology Terrestrial ecosystems “Push–pull” strategy
Title	Large-scale risk mapping of an eruptive bark beetle – Importance of forest susceptibility and beetle pressure
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