Impact of topography and meteorological forcing on snow simulation in the Canadian Land Surface Scheme Including Biogeochemical Cycles (CLASSIC)
Published by
Geoscientific Model Development
Summary
journal-article
Mickaël Lalande
About
I’m currently a postdoc fellow at the Université du Québec à Trois-Rivières (UQTR) / RIVE / GLACIOLAB funded by the ESA Climate Change Initiative on “ Snow cover heterogeneity and its impact on the Climate and Carbon cycle of Arctic regions (SnowC2)” under the supervision of Christophe Kinnard and Alexandre Roy. The main objectives of this project are to improve the current snow model in CLASSIC and assess the influence of these new developments in the Arctic. Before that, I received my PhD at the Institute of Environmental Geosciences (Grenoble, France) on “ Modeling climate trends and variability in High Mountain Asia to understand cryosphere changes” supervised by Martin Ménégoz and Gerhard Krinner, where I mainly focused on a CMIP6 multimodel study and on improving the representation of topography in snow cover parameterizations using the ORCHIDEE land surface model.
Education
Grenoble Alpes University
France
→
Master
Publications
Improvement of the CLASSIC Snow Model to Better Simulate Arctic Snowpacks
Summary
preprint
Impact of topography and meteorological forcing on snow simulation in the Canadian Land Surface Scheme Including Biogeochemical Cycles (CLASSIC)
Summary
preprint
Reducing the High Mountain Asia cold bias in GCMs by adaptingsnow cover parameterization to complex topography areas
Summary
preprint
Improving climate model skill over High Mountain Asia by adapting snow cover parameterization to complex-topography areas
Published by
The Cryosphere
Summary
journal-article
Adaptation of a snow cover scheme for complex topography areas: regional calibration over High Mountain Asia and application in global models
Summary
preprint
Climate change in the High Mountain Asia in CMIP6
Summary
preprint
Climate change in the High Mountain Asia in CMIP6
Published by
Earth System Dynamics
Summary
journal-article
Climate change in the High Mountain Asia in CMIP6
Summary
other
Climate change in the High Mountain Asia simulated with CMIP6 models
Summary
other
Convolutional Neural Networks for Estimating Atmospherically-forced Sea Level Variations
Summary
conference-paper
Convolutional Neural Networks for Estimating Atmospherically-forced Sea Level Variations
Summary
conference-paper
Convolutional Neural Networks for Estimating Atmospherically-forced Sea Level Variations
Summary
conference-paper
Attenuating the ocean chaotic variability in altimetric observations: from band-pass filtering to machine learning
Summary
conference-paper
Atténuation de la variabilité chaotique observée par altimétrie.
Summary
conference-paper