Forest [FAR1]

Legacy FAR1 strategy/approaches.

Taxonomy Machine Name
niacs_strategy
Taxonomy Alias
far1

Barrens may benefit from increased wildfire activity due to climate change.

Submitted by sdhandler on

In northern Michigan, barrens are typically maintained by management activities, prescribed fire, or wildfire. Conditions that promote wildfires are generally projected to become more common in northern Michigan by the end of the century. Fire suppression has contributed to woody encroachment and an increased presence of invasive species in many barrens systems. Therefore, barrens could benefit if climate change increases the frequency or severity of wildfire in xeric areas across the assessment area. Too much fire, however, could result in conversion to open grassland systems.

Climate change-induced moisture stress or extended droughts may favor barrens systems in northern Michigan.

Submitted by sdhandler on

Barrens typically occur on excessively drained, nutrient-poor sands or on thin soils over bedrock. These systems have evolved to tolerate droughts, and they may gain territory lost by other forest types if moisture stress becomes more common under climate change. Conversely, warmer temperatures might allow species like oaks to invade barrens maintained by frost pockets.

Insect pests like forest tent caterpillar and spongy moth (Lymantria dispar) and diseases like oak wilt may become more active and damaging in oak forests under a warmer climate.

Submitted by sdhandler on

Under a high emissions scenario, researchers forecast more insect pest damage in northern forests due to increased metabolic activity in active periods and increased winter survival. Drought-stressed trees are also typically more vulnerable to insect pests and diseases. New pests such as Asian longhorn beetle present unknown risks. Stressed forests may also be more susceptible to oak wilt and oak decline.

Many oak species in are expected to increase or remain steady in northern Michigan by the end of the century, particularly under mild climate scenarios.

Submitted by sdhandler on

Multiple forest impact models tend to agree that white oak is likely to increase in suitable habitat and biomass across a range of climate scenarios by the end of the century. Results are mixed for northern red oak, northern pin oak, and black oak. Oak forests are limited by cold temperatures in northern Michigan, so warming may allow oaks to expand into previously unsuitable areas. Many of these species are near their northern range limits in Michigan, so they may benefit from gene flow from southern populations.

Climate change effects on the wildfire regime or ability to use prescribed fire could benefit or disrupt oak forests.

Submitted by sdhandler on

Past management and wildfire suppression allowed oak associations to expand into barrens and pine forests, but continued fire suppression is allowing mesic species like red maple to invade these stands. Therefore, climate change influences on the wildfire regime and ability to apply prescribed fire will have consequences for oak associations. More surface fires could benefit oaks and allow for more natural oak regneration. A shift to more frequent crown fires could encourage a shift to pine forests and barrens.

Many tree species in lowland and riparian forests could tolerate limited increases in flooding and drought under climate change.

Submitted by sdhandler on

Many species in riparian and lowland forests can tolerate intermittent wet and dry conditions, and they can tolerate periodic floods and moisture stress. Extended droughts would cause significant damage to shallow-rooted species, but increased winter and spring precipitation could buffer summer droughts in low-lying areas on the landscape.

Insect pests and diseases could become more active and virulent in lowland and riparian hardwood forests under a warmer climate.

Submitted by sdhandler on

Under a high emissions scenario, researchers forecast more insect pest damage in northern forests due to increased metabolic activity in active periods and increased winter survival. Drought-stressed trees are also typically more vulnerable to insect pests and diseases. Emerald ash borer and Dutch elm disease are expected to continue to limit ash and elm species.