Wildlife Management

Wildlife Management

Taxonomy Machine Name
sector_wildlife_management
Taxonomy Alias
wildlife_management
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Damage from hurricanes and sea-level rise is expected to increase in the Southeast by the end of the century.

Submitted by sdhandler on

Global sea level rise is projected to rise between 1 and 4 feet by the end of the century. Sea level rise and related increases in storm surges pulsing farther inland will continue to exacerbate ongoing land loss in low-lying coastal areas and may result in excessive saltwater inundation of coastal forests. The number of Category 4 and 5 hurricanes has increased since the 1980s, and this trend can be attributed both to natural variability and climate change.

Widlfire risk is projected to increase across the Southeast by the end of the century.

Submitted by sdhandler on

Rising temperatures and increases in the duration and intensity of drought are expected to increase wildfire occurrence and also reduce the effectiveness of prescribed fire in the Southeast. While this region experiences the highest number of wildfires in the country, prescribed fire is currently more common than wildfire in Southeastern forests. However, as fire seasons lengthen in the future, the window for prescribed burning may decrease because of increased fuel flammability.

Climate change will amplify many existing stressors to forest ecosystems in the Southeast, such as invasive species and insect pests.

Submitted by sdhandler on

Forest ecosystems throughout the Southeast Region are exposed to a range of natural, introduced, and anthropogenic stressors. Stressors such as invasive plants, forest pests, and diseases are expected to become more damaging under climate change, and these factors may interact in unpredictable ways. The southern pine beetle is already the most destructive pest in the region's forests, and longer growing seasons could allow populations of the pest to expand more rapidly.

Red spruce, balsam fir, and and eastern hemlock are projected to decline substantially across the Southeast by the end of the century, and conditions for pines may also deteriorate.

Submitted by sdhandler on

Red spruce and eastern hemlock are already declining in some areas, and these species are projected to be extirpated from the southeast by 2100 as a result of the combined stresses of warming, air pollution, and insects. If temperature continues to increase and precipitation becomes more variable, conditions for pine growth may begin to deteriorate. Even if regional forest productivity remains high for pine species, the center of forest productivity could shift northward into North Carolina and Virginia, causing significant economic and social impacts.

The annual freeze-free season is expected to increase by 20 to 30 days in the Southeast by 2055. The freeze-free season lengthens by more than a month by the late 21st century in climate simulations based on a high emissions scenario.

Submitted by sdhandler on

The freeze-free season is defined as the period of time between the last spring frost (daily minimum temperature below 32 degrees F) and the first fall frost. The length of the annual freeze-free season has been increasing since the 1980s, and all climate models agree that it will continue to increase in the future across the Southeast. The largest increases of 25-30 days are mainly expected in Louisiana, Tennessee, Kentucky, Virginia, and North Carolina.

A majority of climate models suggest that precipitation in the Southeast will increase in the winter, spring, and fall by the end of the century, but summer is generally expected to become drier.

Submitted by sdhandler on

Simulated changes in summer precipitation by the end of the century range from a 0-10% decrease, with the largest decreases occurring in southern Florida and Arkansas and Tennessee. The means of several climate models indicate that winter and spring precipitation may increase around 15% by the end of the century, particularly in the northern part of the region. Daily precipitation totals in the Southeast have increased substantially in the fall season; this trend is expected to continue, with the greatest expected increases along the Gulf Coast.

The number of days per year with more than 1 inch of precipitation will increase across the Southeast by the middle of the century, and double the number of heavy rainfall events are projected by late century.

Submitted by sdhandler on

Extreme rainfall events have increased in frequency and intensity in the Southeast, and will continue to increase in the future. Most of the region is projected to experience 6% to 25% more days each year with more than an inch of precipitation by the middle of the century. The largest increases (up to 25% increases) in extreme precipitation are expected across the Appalachian Mountains. The smallest increases (less than 10%) are expected across Arkansas, Louisiana and Mississippi.

Average annual precipitation is projected to increase slightly in the northeast portion of the Southeast, but may decrease in the southwest half of the region.

Submitted by sdhandler on

There is uncertainty between different climate scenarios for future precipitation projections in the Southeast. Generally, there is a southwest-to-northeast gradient in annual precipitation projections. The greatest increases are projected in North Carolina and Virginia (3-9% increase by the end of the century), and the greatest decreases are projected in Louisiana and Arkansas (3-12% decrease by the end of the century). Overall changes in precipitation for the Southeast are projected to be slight and comparable to current year-to-year variations.