Forests are complex ecosystems essential for human well-being and environmental
sustainability, providing timber, fuelwood, fiber, and non-wood products while combating
desertification, safeguarding watersheds, maintaining biodiversity, and sequestering carbon
dioxide. However, these ecosystems face significant threats from insect pests and diseases,
particularly bark beetles (Dendroctonus spp.), which disrupt forest health and functionality.
Bark beetles, part of the Scolytinae subfamily, attack stressed or weakened trees, leading to
economic losses and increased wildfire risks. Climate change exacerbates bark beetle
outbreaks by altering beetle physiology and forest conditions, as evidenced by the 2013
outbreak from Mexico to Alaska. Beetle-infested trees contribute to intense wildfires due to
altered fuel characteristics. Understanding the intricate interactions between bark beetles,
forest health, and wildfire dynamics is crucial for effective forest management. The
complexity of these interactions and the variability in beetle responses to environmental
stressors pose significant challenges. Additionally, gaps remain in comprehending the precise
impact of beetle outbreaks on wildfire behaviors and forest resilience. This review integrates
ecological insights, management practices, and policy frameworks to address these issues,
emphasizing the need for a holistic approach in forest management. Trees deploy physical
and chemical defenses against beetle attacks, including resin production. However,
environmental stressors like drought can weaken these defenses, enabling beetle infestations.
Symbiotic associations with fungi, mites, nematodes, and bacteria enhance beetle survival
and development. This review emphasizes the importance of addressing these interactions
and the challenges posed by climate change to ensure forest resilience and sustainability.