Forest Carbon Management

Forest Carbon Management

Taxonomy Machine Name
sector_forest_carbon_management
Taxonomy Alias
forest_carbon_management
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Atlantic white-cedar is projected to decline under a range of future climates, and the loss of this keystone species may result in the total loss of cedar swamps in the coastal plain.

Submitted by sdhandler on

Atlantic white-cedar is a keystone species restricted to the coast and rapid changes in salinity and water depth may result in the total loss of cedar swamps. Deer use cedar swamps to avoid severe winter weather, so even low deer populations can be damaging.

Many species in coastal plain swamps are projected to persist under climate change, including baldcypress, green ash, pin oak, pitch pine, sweetgum, loblolly pine, red maple, and willow oak. Ash species will likely be limited by emerald ash borer.

Submitted by sdhandler on

Multiple forest impact models tend to agree that many swamp species are likely to maintain or increase in suitable habitat and biomass during the 21st century. Some species, such bald cypress and pin oak may increase under a range of potential change. Others such as green ash and sweetgum may persist under slightly warmed conditions, but are projected to increase under scenarios projecting hotter and drier conditions. All ash species are threatened by emerald ash borer.

Continuing sea-level rise is projected to permanently flood areas where elevation is close to the sea level, compounding the effects of storm surge, flooding, and salt spray.

Submitted by sdhandler on

Rising sea levels, combined with storm surge and erosion may drive the coastal zone inland, resulting in rapid changes in tree species’ habitat. Saltwater intrusion can kill Atlantic white-cedar forests and may damage other species depending on the intensity and duration. Increased flooding can increase runoff and discharge from farm land and concentrated animal feed lots, thus increasing nutrient loads.

Changing precipitation patterns may alter the water table in these groundwater-fed systems, driving changes in species composition in coastal plain swamps.

Submitted by sdhandler on

Impacts to this forest community are expected to vary with proximity to salt water, and reliance on groundwater. In areas disconnected from saltwater intrusion, hardwood species are likely to persist and red maple may be more competitive on sites with reduced soil moisture. The hydrology of these areas may allow some changes in the position or size of swamps without losing the system completely, though existing infrastructure and development may restrict movement.

As temperatures continue to rise, some coastal plain swamps may experience moisture deficits, reducing tree growth and increasing the risk of tree mortality.

Submitted by sdhandler on

Warmer temperatures may result in greater evapotranspiration and increased risk of moisture deficits between precipitation events.Hot droughts, even of short duration, can result in mortality of swamp trees.

Future fire frequency and intensity will strongly influence species composition and dominance in pine-oak barrens. Short fire return intervals may favor pitch pine, while longer fire return intervals may favor oak species.

Submitted by sdhandler on

Fire suppression has contributed to the decline of pitch pine and the increase of oak in some areas. In fire prone areas, trees have characteristics adapted to frequent fire, including thick bark and serotinous cones that require fire to release the seeds. Pitch pine and scrub oak can resprout, which increases their ability to survive when fires are too frequent to permit seed regeneration. Deep roots are considered to contribute to drought and fire tolerance, although very hot droughts or very hot fires can damage roots and prevent resprouting.

Pine-oak barrens have low species diversity, which contributes to a reduced adaptive capacity.

Submitted by sdhandler on

Although pitch pine is expected to overcome the direct effects of climate change, it is a keystone species and the loss of pitch pine to any stressor or combination of stressors would jeopardize the identity of this low-diversity forest community.