Non-Forested Wetlands

Non-Forested Wetlands

Taxonomy Machine Name
sector_nonforested_ecosystems
Taxonomy Alias
nonforested_ecosystems
Disabled

Northern hardwoods

Submitted by sdhandler on

Northern hardwoods occur on mesic soils that provide consistent moisture and nutrients. Gap-sized disturbances are common, but stand-replacing events are very infrequent. Common species include sugar maple, red maple, American beech, American basswood, and eastern hemlock.

Aspen-birch

Submitted by sdhandler on

Aspen-birch forests occur on a wide range of soil types and landforms, and are favored by frequent disturbance or management. Common species include quaking aspen, bigtooth aspen, paper birch, and balsam poplar.

Lowland conifers

Submitted by sdhandler on

This forest system occurs on peat or mineral soils that are saturated throughout growing season. Common tree species include northern white-cedar, black spruce, tamarack, and other boreal species.

Red and white pine

Submitted by sdhandler on

Red and white pine forests occur on sandy to dry-mesic soils, with fire return intervals between 50 and 250 years. Common tree species include red and white pine, red maple, black cherry, and bigtooth aspen.

Jack pine

Submitted by sdhandler on

Jack pine forests occur on coarse-textured, droughty soils with fire return intervals between 50 and 250 years. Common tree species include jack, red, and white pine, and northern red, northern pin, and black oak.

Upland spruce-fir

Submitted by sdhandler on

This forest system occurs on nutrient-poor soils or glacial lake plains, and is often restricted to high snowfall areas with short growing seasons. Common tree species include balsam fir, white spruce, white pine, and other boreal species.

Managed Red Pine forests typically have low diversity and few options for responding to changing conditions.

Submitted by sdhandler on

Managed Red Pine forests typically have low diversity of species, age classes, and structures, which may make them less resilient to changing conditions. Higher diversity and complexity in all of these features can give a forest more possible pathways to respond to changing or unexpected conditions. Additionally, red pine has low genetic diversity as a species, so there may be limited possibility to favor more suited genotypes or for the species to evolve greater tolerance for future climate conditions.