bibliolater , 5 months ago to science

"We thus model the committed evolution of all glaciers in the European Alps up to 2050 using present-day climate conditions, assuming no future climate change. We find that the resulting committed ice loss exceeds a third of the present-day ice volume by 2050, with multi-kilometer frontal retreats for even the largest glaciers."

Cook, S. J., Jouvet, G., Millan, R., Rabatel, A., Zekollari, H., & Dussaillant, I. (2023). Committed ice loss in the European Alps until 2050 using a deep-learning-aided 3D ice-flow model with data assimilation. Geophysical Research Letters, 50, e2023GL105029. https://doi.org/10.1029/2023GL105029 #OpenAccess #OA #Research #Science #STEM #Glaciers #Climate #Data #AI #Europe #ComputationalScience #ClimateChange #Environment #Artificialintelligence #Academia #Academic #Academics @science @climate

bibliolater , 5 months ago to science

"We thus model the committed evolution of all glaciers in the European Alps up to 2050 using present-day climate conditions, assuming no future climate change. We find that the resulting committed ice loss exceeds a third of the present-day ice volume by 2050, with multi-kilometer frontal retreats for even the largest glaciers."

Cook, S. J., Jouvet, G., Millan, R., Rabatel, A., Zekollari, H., & Dussaillant, I. (2023). Committed ice loss in the European Alps until 2050 using a deep-learning-aided 3D ice-flow model with data assimilation. Geophysical Research Letters, 50, e2023GL105029. https://doi.org/10.1029/2023GL105029 #OpenAccess #OA #Research #Science #STEM #Glaciers #Climate #Data #AI #Europe
#ComputationalScience #ClimateChange #Environment #Artificialintelligence #Academia #Academic #Academics @science @climate

bibliolater , 5 months ago to science

"We thus model the committed evolution of all glaciers in the European Alps up to 2050 using present-day climate conditions, assuming no future climate change. We find that the resulting committed ice loss exceeds a third of the present-day ice volume by 2050, with multi-kilometer frontal retreats for even the largest glaciers."

Cook, S. J., Jouvet, G., Millan, R.,
Rabatel, A., Zekollari, H., & Dussaillant, I. (2023). Committed ice loss in the European Alps until 2050 using a deep-learning-aided 3D ice-flow model with data assimilation. Geophysical Research Letters, 50, e2023GL105029. https://doi.org/10.1029/2023GL105029 #OpenAccess #OA #Research #Science #STEM #Glaciers #Climate #Data #AI #Europe
#ComputationalScience #ClimateChange #Environment #Artificialintelligence #Academia #Academic #Academics @science @climate