Bark beetles reshape forest microclimate – but deciduous trees can help

Outbreaks of spruce bark beetle have had major consequences for forests and forestry as large areas of dead spruce forests have spread. Photo: Kennerth Kullman/Mostphotos

The research, conducted in Södermanland, Sweden, measured how bark beetle damage affects the microclimate both below the canopy and at canopy level. The findings suggest that forest disturbances not only respond to climate change, but also feed back into it by creating novel temperature regimes.

Caroline Greiser, Department of Physical Geography and the Bolin Centre for Climate Research. Photo: Frank Pätz

“We’ve known for a long time that hot, dry summers increase bark beetle outbreaks,” says Caroline Greiser, lead author of the study and researcher at the Department of Physical Geography and the Bolin Centre for Climate Research. “But here we show the reverse: bark beetles themselves create new thermal environments in forests.”

Forest microclimates are often a bit cooler during the day and warmer during the night compared to open surroundings, leading to a buffering of warm and cold temperature extremes. The team set up a network of temperature sensors at 31 forest sites in five nature reserves in Södermanland, south of Stockholm, to study the microclimate in attacked and healthy forest stands. In one of the areas, Ekeby nature reserve, they also created temperature maps of the canopy surface with the help of a drone.

Microclimate sensor at one of the 31 forest sites. The researchers used data from one of the two sensors, which was attached to the north side of a tree under a white radiation and rain shield, measuring air temperature at 2.0 m height. Photo: Caroline Greiser

They found that dead trees were on average over 2°C warmer than living trees on sunny days, and that these “skeleton forests” with attacked and killed trees allowed more warming solar radiation to reach the understory. This could have knock-on effects on forest biodiversity, tree seedling survival, and even human comfort during heat waves.

However, there was one silver lining.

“Where there were more deciduous trees like birch or aspen, the warming effect during the day was much smaller,” says Greiser. “And, opposed to our expectations, we didn’t see colder nights in beetle-attacked forests. The canopy cover was still high enough to slow down heat radiation during the night – so these stands may still protect young trees and other species from frost.”

The results have clear implications for forest management in a warming climate.

“Our study adds a new reason to diversify forests,” Greiser says. “Mixed stands with more deciduous trees are not only less vulnerable to beetle outbreaks, but they also help to keep the forest cooler afterwards.”

Caroline Greiser installing a microclimate sensor in a bark beetle attacked forest stand. Photo: Mark Ghaly

But what to do with the already damaged forests? From a microclimate perspective, the dead trees seem to provide a similar protection against night frost as shelterwood and therefore could be left standing instead of being salvage logged.

The researchers hope that their findings can guide decisions about post-disturbance regeneration, conservation area management, and salvage logging – all of which are critical in an era of more frequent extreme weather and pest outbreaks. 

The spruce bark beetle benefits from dry and warm weather and often attacks storm-fallen spruce trees, but also living but drought-stressed spruce stands. The picture shows bark with "tunnels" from spruce bark beetle. Photo: Caroline Greiser

More information

The article “Bark beetles as microclimate engineers – thermal characteristics of infested spruce trees at the canopy surface and below the canopy” is published in Agricultural and Forest Meteorology. Authors: Greiser, C., Huo, L., Ghaly, M., Brown, I., Metsu, C., Van Meerbeek, K., & Lehmann, P. (2025).