Climate change in Utah

Climate change in Utah encompasses the effects of climate change, attributed to man-made increases in atmospheric carbon dioxide, in the U.S. state of Utah.

Köppen climate types in Utah, showing that the state is primarily cold semi-arid, with large patches of cold desert and a substantial corridor of warm-summer Mediterranean continental.

The United States Environmental Protection Agency reports that "Utah's climate is changing. The state has warmed about two degrees (F) in the last century. Throughout the western United States, heat waves are becoming more common, and snow is melting earlier in spring. In the coming decades, the changing climate is likely to decrease the flow of water in Utah's rivers, increase the frequency and intensity of wildfires, and decrease the productivity of ranches and farms".[1] Another analysis found that Utah's temperature increase from 1970 to 2019 was the fifth highest in the nation, leading to an increasing intensity of wildfires.[2] A changing climate was also reported as leading to increased flooding in Utah during winter months, followed by hot and dry summers, a cycle potentially harmful for agriculture.[3]

Snowpack

edit

"As the climate warms, less precipitation falls as snow, and more snow melts during the winter. That decreases snowpack—the amount of snow that accumulates over the winter. Since the 1950s, the snowpack has been decreasing in Utah, as well as Wyoming and Colorado, which contribute snowmelt to the Green and Colorado rivers".[1]

"Diminishing snowpack can shorten the season for skiing and other forms of winter tourism and recreation. The tree line may shift, as subalpine fir and other high-altitude trees become able to grow at higher elevations. A higher tree line would decrease the extent of alpine tundra ecosystems, which could threaten some species".[1]

Water availability

edit
 
Low water, Great Salt Lake

"The changing climate is likely to increase the need for water but reduce the supply. Rising temperatures increase the rate at which water evaporates (or transpires) into the air from soils, plants, and surface waters. Soils are likely to be drier in most of the state, so irrigated farmland would need more water. But less water is likely to be available, because precipitation is unlikely to increase as much as evaporation".[1]

 
Solar installation, Natural Bridges

"The decline in snowpack could further limit the supply of water for some purposes. Mountain snowpacks are natural reservoirs. They collect the snow that falls during winter and release water when the snow melts during spring and summer. Over the past 50 years, snowpack has been melting earlier in the year. Dams capture most meltwater and retain it for use later in the year. But upstream of these reservoirs, less water is available during droughts for ecosystems, fish, water-based recreation, and landowners who draw water directly from a flowing river".[1]

Agriculture

edit

"Increasing droughts and higher temperatures are likely to interfere with Utah's farms and cattle ranches. Hot temperatures threaten cows' health and cause them to eat less, grow more slowly, and produce less milk. Fire may also impair livestock operations. Reduced water availability would create challenges for ranches and irrigated farms, which account for 80 percent of the water used in the state".[1]

Wildfires and changing landscapes

edit
 
Wildfire, 2017

"Higher temperatures and drought are likely to increase the severity, frequency, and extent of wildfires, which could harm property, livelihoods, and human health. The Milford Flat Fire in 2007 was the largest wildfire ever recorded in Utah. Wildfire smoke can reduce air quality and increase medical visits for chest pains, respiratory problems, and heart problems".[1]

 
Electric vehicle charging station, Lehi
 
Air pollution, 2020 wildfire

"The combination of more fires and drier conditions may expand deserts and otherwise change parts of Utah’s landscape. Many plants and animals living in arid lands are already near the limits of what they can tolerate. Higher temperatures and a drier climate would generally extend the Great Basin desert to higher elevations and expand its geographic range. In some cases, native vegetation may persist and delay or prevent expansion of the desert. In other cases, fires or livestock grazing may accelerate the conversion of grassland to desert in response to the changing climate. For similar reasons, some forests may change to desert or grassland".[1]

Pests

edit

"Warmer and drier conditions make forests more susceptible to pests. Drought reduces the ability of trees to mount a defense against attacks from pests such as bark beetles, which infested 50,000 acres of Utah's forests in 2012. Temperature controls the life cycle and winter mortality rates of many pests. With higher winter temperatures, some pests can persist year-round, and new pests and diseases may become established".[1]

See also

edit

References

edit
  1. ^ a b c d e f g h i "What Climate Change Means for Utah" (PDF). United States Environmental Protection Agency. August 2016.
  2. ^ Neumann, Erik (April 17, 2019). "Climate Analysis Finds Utah Temperatures Rose Fifth Fastest In The Country Since 1970". KUER-FM.
  3. ^ St. Clair, Cindy; Poulson, Sterling; Knowles, Hannah (January 12, 2018). "Utah's climate is changing, how will it affect the state?". KUTV.

Further reading

edit
  • Gonzalez, P.; G.M. Garfin; D.D. Breshears; K.M. Brooks; H.E. Brown; E.H. Elias; A. Gunasekara; N. Huntly; J.K. Maldonado; N.J. Mantua; H.G. Margolis; S. McAfee; B.R. Middleton; B.H. Udall (2018). "Southwest". In Reidmiller, D.R.; C.W. Avery; D.R. Easterling; K.E. Kunkel; K.L.M. Lewis; T.K. Maycock; B.C. Stewart (eds.). Impacts, Risks, and Adaptation in the United States: Fourth National Climate Assessment, Volume II (Report). Washington, DC, USA: U.S. Global Change Research Program. pp. 1101–1184. doi:10.7930/NCA4.2018.CH25.—this chapter of the National Climate Assessment covers Arizona, California, Colorado, New Mexico, Nevada, and Utah