Agriculture

Agriculture strategies/approaches.

Taxonomy Machine Name
niacs_strategy_ag
Taxonomy Alias
ag

Temperatures in the Southeast are projected to increase by 4.4 to 7.7 degrees Fahrenheit by late-century (2071-2100).

Submitted by sdhandler on

All climate models agree that temperatures are projected to increase over the 21st century across the Southeast. The spatial variations are projected to be relatively small across the region, with the largest temperature changes occurring in the northwest part of the region (Arkansas, Kentucky, Mississippi, and Tennessee), the smallest variations occurring in southern Florida. Temperature increases will be the greatest in summer. The greatest warming during summer is expected in the northwest portion of the region.

Climate conditions may slightly increase wildfire risks in in the Great Plains by the end of the century.

Submitted by sdhandler on

Different modeling approaches generally conclude that future climate conditions will increase the risk of wildfire across the Great Plains. Annual fire probability, calculated solely with climate data and physical principles, is projected to increase by 20% to 1200% across the region by the end of the century, with the largest increases occuring in Wyoming and western Montana. Fire probability may decrease in Texas, however.

Longer growing seasons, warmer temperatures, and greater water demand for agriculture may reduce available water for natural ecosystems.

Submitted by sdhandler on

Water is central to the productivity of the Great Plains. Projected increases in winter and spring precipitation in the Northern Plains may benefit productivity by increasing water availability through soil moisture reserves during the early growing season. The Northern Plains will remain vulnerable to periodic drought because much of the projected increase in precipitation is expected to occur in the cooler months while increasing temperatures will result in additional evapotranspiration.

By the middle of the century, the Great Plains region is expected to experience between 10 and 30 more days per year with a maximum temperature exceeding the current hottest 2% of days.

Submitted by sdhandler on

For an average of seven days per year, maximum temperatures reach more than 100 degrees F in the Southern Plains and about 95 degrees F in the Northern Plains. By the middle of the century, Central Texas north to the Dakotas may experience an increase of 10-20 more hot days per year. East Texas, Wyoming, and western Montana are projected to have 22-30 more hot days by the middle of the century, according to a range of climate scenarios. Similar increases are expected in the number of nights with minimum temperatures higher than 80 degrees F in the south and 60 degrees F in the north.

The freeze-free season is expected to increase by 15 to 30 days in the Great Plains by the middle of the century.

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. The largest increases are projected for the high country of Wyoming and Montana.

A majority of climate models suggest that precipitation in the Great Plains will increase in the winter, spring, and fall by the end of the century, but most models project that summer precipitation may decrease.

Submitted by sdhandler on

Simulated changes in summer precipitation by the end of the century range from a 37-percent decrease to a 12-percent increase, with a mean around an 10-percent decrease. The strongest agreement for drier summers occurs in Oklahoma and west Texas. The means of several climate models indicate that winter and spring precipitation may increase around 3 percent by the end of the century, with larger increases expected in the Dakotas. Under mild climate scenarios, changes are generally smaller than in more extreme climate scenarios.

The number of days per year with more than 1 inch of precipitation will increase across the Great Plains by the middle of the century.

Submitted by sdhandler on

Most of the region is projected to experience 0 to 30% more days each year with more than an inch of precipitation by the middle of the century. The largest increases (up to 45% increases) in extreme precipitation are expected in North Dakota and Montana. Days with more than 2 inches, 3 inches, and 4 inches of precipitation are also expected to occur more regularly by the middle of the century.

By the end of the century, average annual precipitation is projected to increase slightly in northern Great Plains, but may decrease in the southern Great Plains.

Submitted by sdhandler on

There is uncertainty between different climate scenarios for future precipitiation projections in the Great Plains. Generally, there is a south-to-north gradient in annual precipitation projections, with increases projected north of the Nebraska-North Dakota border and decreases projected from Kansas to Texas.

The Great Plains region is expected to experience between 0 and 25 fewer days per year with a minimum temperature below 10 degrees Fahrenheit by the middle of the century.

Submitted by sdhandler on

The largest decreases are expected in the northern half of the region. The smallest decrease in cold days is expected in Oklahoma and Texas, where these kinds of cold days rarely occur. Similarly, the region is expected to have up to 32 fewer days with a minimum temperature below 32 degrees by the middle of the century, particularly in western Montana, Wyoming, and the western edges of Nebraska, Kansas, Oklahoma, and Texas.