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Bark Beetle Management, Ecology, and Climate Change

  • Book

  • November 2021
  • Elsevier Science and Technology
  • ID: 5342351

Bark Beetle Management, Ecology, and Climate Change provides the most updated and comprehensive knowledge on the complex effects of global warming upon the economically and ecologically important bark beetle species and their host trees. This authoritative reference synthesizes information on how forest disturbances and environmental changes due to current and future climate changes alter the ecology and management of bark beetles in forested landscapes.

Written by international experts on bark beetle ecology, this book covers topics ranging from changes in bark beetle distributions and addition of novel hosts due to climate change, interactions of insects with altered host physiology and disturbance regimes, ecosystem-level impacts of bark beetle outbreaks due to climate change, multi-trophic changes mediated via climate change, and management of bark beetles in altered forests and climate conditions.

Bark Beetle Management, Ecology, and Climate Change is an important resource for entomologists, as well as forest health specialists, policy makers, and conservationists who are interested in multi-faceted impacts of climate change on forest insects at the organismal, population, and community-levels.

Please Note: This is an On Demand product, delivery may take up to 11 working days after payment has been received.

Table of Contents

Part I: Insect distributions and novel hosts 1. Climate change and invasion by non-native bark and ambrosia beetles 2. Complexities in predicting mountain pine beetle and spruce beetle response to climate change 3. Responses and modeling of southern pine beetle and its host pines to climate change

Part II: Interactions of insects with altered host physiology 4. The Eurasian spruce bark beetle in a warming climate: phenology, behaviour and biotic interactions 5. Southwestern examples 6. Relationships between drought, coniferous tree physiology, and Ips bark beetles under climatic changes

Part III: Interactions of insects with altered disturbance regimes 7. Interactions between catastrophic wind disturbances and bark beetles in forested ecosystems

Part IV: Ecosystem-level impacts of bark beetle outbreaks due to climate change 8. Bark beetle outbreaks alter biotic components of forested ecosystems 9. Eastern larch beetle, a changing climate, and impacts to northern tamarack forests

Part V: Multi-trophic changes mediated via climate change 10. Effects of rising temperatures on ectosymbiotic communities associated with bark and ambrosia beetles

Part VI: Management of bark beetles in altered forests and climate conditions 11. Management strategies to reduce bark beetle impacts in North America and Europe under altered forest and climatic conditions 12. Conclusions: interactions among climate, disturbance and bark beetles affect the forest landscapes of the future

Authors

Kamal J.K. Gandhi Professor of Forest Entomology, University of Georgia, Georgia, USA. Kamal J.K. Gandhi is a Professor of Forest Entomology at the University of Georgia in Athens, Georgia. She is also the director of the Southern Pine Health Research Cooperative. She has published extensively on the population, community, and chemical ecology of bark beetles particularly under disturbance regimes in diverse ecosystem-types. Richard W. Hofstetter Professor of Forest Entomology, School of Forestry, Northern Arizona University, Arizona, USA. Richard Hofstetter is a Professor of Forest Entomology in the School of Forestry at Northern Arizona University in Flagstaff, Arizona. He has published extensively on bark beetle biology, symbioses, communication and host tree interactions, and is the coauthor of Bark Beetles: Biology and Ecology of Native and Invasive Species (Academic Press, 2015).