Abstract
AbstractBark beetle outbreaks and forest fires have imposed severe ecological damage and caused billions of dollars in lost resources in recent decades. The impact of such combined disturbances is projected to become more severe, especially as climate change takes its toll on forest ecosystems in the coming years. Here, we investigate the impact of multiple disturbances in a demographically heterogeneous tree population, using an age-structured difference equation model of bark beetle outbreaks and forest fires. We identify two dynamical regimes for beetle and fire dynamics. The model predicts that fire helps dampen beetle outbreaks not only by removing host trees but also by altering the demographic structure of forest stands. We show that a stand thinning protocol, which reduces the population size of the largest few juvenile classes by a small percentage, is able to significantly reduce beetle-induced tree mortality. Our research demonstrates one approach to capturing compound disturbances in a mathematical model.
Funder
Canadian Network for Research and Innovation in Machining Technology, Natural Sciences and Engineering Research Council of Canada
Ministry of Natural Resources
Publisher
Springer Science and Business Media LLC
Subject
Ecological Modeling,Ecology
Reference44 articles.
1. Agne MC, Woolley T, Fitzgerald S (2016) Fire severity and cumulative disturbance effects in the post-mountain pine beetle lodgepole pine forests of the pole creek fire. For Ecol Manage 366:73–86
2. Alfaro RI, Campbell R, Vera P, Hawkes B, Shore TL et al (2003) Dendroecological reconstruction of mountain pine beetle outbreaks in the chilcotin plateau of british columbia. In: Mountain Pine Beetle Symposium: Challenges and solutions. TL Shore, JE Brooks, and JE Stone (editors). Kelowna, BC, pp. 245–256
3. Ali Q, Bauch CT, Anand M (2015) Coupled human-environment dynamics of forest pest spread and control in a multi-patch, stochastic setting. PLoS ONE 10(10):e0139-353
4. Amman G, Logan J (1998) Silvicultural control of mountain pine beetle: prescriptions and the influence of microclimate. Am Entomol 44(3):166–178
5. Axelson JN, Alfaro RI, Hawkes BC (2009) Influence of fire and mountain pine beetle on the dynamics of lodgepole pine stands in british columbia, canada. For Ecol Manage 257(9):1874–1882
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