A duo of Cheriton School of Computer Science researchers has digitized snow into a new model that can be applied to better understand the impact of climate change.
SPLITSnow is a spectral light transport model for snow and part of a larger body of research that simulates how light interacts with complex materials. While previous models exist, SPLITSnow is one of the most comprehensive models to date, which accounts for a variety of snowpack properties, such as density and water content, as well as the size and shape distributions of the individual grains. SPLITSnow also attempts to account聽for the crystalline makeup of grains.
The new model will also allow the team to generate important data for climate scientists around the world. Their major goal is to simulate this essential part of the ecosystem to gain more insight into fundamental environmental processes as part of the university鈥檚 overall objective of being a global leader in sustainability research, education and innovation to benefit the environment, economy and society.
鈥淥ne current problem facing scientists is the greening phenomenon,鈥 said , a Professor at the Cheriton School of Computer Science who leads the Natural Phenomena Simulation Group. 鈥淢any regions of the world are seeing vegetation growth much earlier and more widely in the season cycle than they have previously, which can alter the whole balance of energy.鈥
By understanding how the sun鈥檚 light is affected by snow 鈥 and how that transmission may be altered depending on the particular characteristics of the snow 鈥 scientists can better predict how the presence or absence of snow because of climate change will affect plant growth.
鈥淒ifferent wavelengths can be seen as signals for different processes affecting the growth of snow-covered plants,鈥 said , a PhD candidate advised by Professor Baranoski and the lead author of the research. 鈥淪ome keep plants dormant, and some facilitate growth. Even small changes in the quantity and the quality of light propagated by snow may dramatically affect ecosystems.鈥
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To learn more about this research, please see Petri Varsa, Gladimir Baranoski. 2023. . IEEE Computer Graphics and Applications.