University of Minnesota: U of M study shows strong winter and summer warming in Minnesota by 2100
Minnesota’s winters are warming faster than nearly any other state in the contiguous United States, but according to a new study published in the journal of Earth and Space Science by researchers from across the University of Minnesota, summers are beginning to heat up too.
Projections from this study, led by Dr. Stefan Liess, a researcher in the Department of Soil, Water, and Climate, show that winter temperatures could rise by 11 degrees Fahrenheit by the end of the 21st century, with far fewer days of snow on the ground.
Minnesota summers, which haven’t warmed significantly up to now, could see temperatures rise by 7 degrees Fahrenheit in the same time period.
Funding for this project was provided by the Minnesota Environment and Natural Resources Trust Fund as recommended by the Legislative-Citizen Commission on Minnesota Resources (LCCMR).
Using resources at the Minnesota Supercomputing Institute, researchers performed county-scale model simulations of the climate across Minnesota valid for the middle and end of the 21st century using two different scenarios (RCP4.5 and RCP8.5) for global emissions of greenhouse gases adopted by the Intergovernmental Panel on Climate Change. Results provide data from eight recent global climate model projections over 6 mile by 6 mile areas, which is much finer than most global climate models and will provide more detailed information on how temperatures and precipitation are expected to change at any location in the state.
The researchers found:
Spring precipitation could increase by more than half an inch per day over northern Minnesota.
Snow depth could decrease by more than 5 inches, especially in central eastern Minnesota.
The number of days per year with snow cover may decrease by up to 55, especially in central Minnesota.
These results are expected to influence regional decision-making as communities across Minnesota gain the ability to use this published data for climate adaptation action plans.
“Early awareness and mitigation have the potential to preserve valuable ecosystems for future generations,” said Liess. “Mitigation and adaptation strategies need to be put in place to address these future changes. These projections would impact multiple important state sectors including agriculture, pest management, water and energy management, forestry, health care (adaptation to heat related health issues) and tourism.”
Next steps for this line of research include projecting future crop yields and analyzing the data in relation to the frequency of extreme climate events. In addition, researchers plan to create an updated projection with 3 by 3 mile spatial resolution.