Forest Carbon Management

Forest Carbon Management

Taxonomy Machine Name
sector_forest_carbon_management
Taxonomy Alias
forest_carbon_management
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Total snowfall, snow depth, and snowpack duration are all expected to decline substantially in northern Wisconsin and western Michigan by the end of the century.

Submitted by sdhandler on

A variety of models project that across the Upper Midwest, more winter precipitation will be delivered as rain, more snow will melt between snowfall events, and the snowpack will not be as deep or consistent. Lake-effect snowfall may increase in the short-term, but these events may convert to rain as temperatures increase.

Insect pests and diseases may become more damaging in northern Wisconsin and western Michigan white pine 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.

White pine may maintain a steady amount of suitable habitat and biomass across northern Wisconsin and western Upper Michigan under mild climate scenarios, but may decline under warmer, drier scenarios.

Submitted by sdhandler on

White pine can tolerate a wide range of soil and moisture conditions. This species may do well with a moderate amount of future warming, but models indicate that white pine will fare worse under hotter, drier climate scenarios. Under the most extreme temperature increases, warming in the assessment area may exceed the physiological limits of white pine. Although white pine is not projected to have increased habitat suitability or productivity, its wide ecological amplitude may enhance its ability to persist across a range of sites.

White pine forests may be tolerant of increased wildfire activity due to climate change.

Submitted by sdhandler on

White pine can thrive with periodic surface wildfires. Conditions that promote wildfires are generally projected to become more common in northern Wisconsin and Michigan by the end of the century. Increases in periodic fire may be beneficial by reducing ladder fuels and competition, although substantially more frequent or severe fire may favor red or jack pine forests.

White pine forests may be tolerant of increased moisture stress due to climate change.

Submitted by sdhandler on

White pine forests are relatively drought tolerant and may tolerate some degree of greater precipitation variability under climate change. This forest system is present across a wide range of soils and landforms, and some sites may be more affected by altered soil moisture regimes than others. Moisture stress could favor red pine, jack pine, or northern pin oak on already marginal sites.

Dominant tree species in upland spruce-fir forests are expected to decline across northern Wisconsin and western Upper Michigan by the end of the century (balsam fir, black spruce, paper birch, quaking aspen, and white spruce).

Submitted by sdhandler on

These are boreal species near their southern range limits in Wisconsin and Michigan. Multiple forest impact models tend to agree that these species are more likely to decline in suitable habitat and biomass across a range of climate scenarios by the end of the century. Several species in this system are limited by high growing-season temperatures, so projected warming in the assessment area may exceed the physiological limits of this forest system.

Insect pests and diseases may become more active and damaging in red pine forests in northern Wisconsin and western Upper Michigan 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 or overstocked stands are also typically more vulnerable to insect pests and diseases. The possibility exists for new pests such as western bark beetles to arrive in northern Wisconsin or western Upper Michigan.

Red pine is expected to remain steady or decrease slightly across northern Wisconsin and western Upper Michigan by the end of the century under a range of future scenarios.

Submitted by sdhandler on

This species is already near its southern range limits in Wisconsin. Red pine may be limited by warm temperatures, so projected warming may exceed the physiological limits of this species. Management has maintained red pine across much of the assessment area, and regeneration of this species usually relies on planted seedlings. Seasonal shifts in precipitation patterns, particularly the trend toward wetter springs and drier summers, may impair the survival of planted seedlings. Mature red pine trees are generally drought tolerant.

Red pine forests may be tolerant of increased surface fires.

Submitted by sdhandler on

Red pine can thrive with regular surface wildfires. Conditions that promote wildfires are generally projected to become more common in northern Wisconsin and western Upper Michigan by the end of the century. Greater wildfire activity could be positive for this forest type. In some areas, the on-going shift toward mesic species in these forests is a current threat, and this trend may continue if fire suppression activities remain constant and broadleaf species like red maple and black cherry increase under climate change.