Florent Domine
Regular member

Laval University


Benjamin Bouchard (Ph.D. student)

Daniel Fillion (Master student)

Vincent Houde (Master student)

Félix Lévesque-Desrosiers (Ph.D. student)

Mathilde Poirier (Ph.D. student)

Recent Theses and Dissertations

Jean-Philippe Langelier (Master - 2022)
Polarimetric measurement of the physical properties of snow

Georg Lackner (Doctorate - 2021)
Analysis of the surface energy budget of a low-Arctic valley within the forest-tundra ecotone

Maria Belke Brea (Doctorate - 2020)
The influence of shrub expansion on albedo and the winter radiation budget in the Canadian Low Arctic

Mikaël Gagnon (Master - 2019)
Impact of shrub expansion on soil carbon stocks in Umiujaq, Nunavik

Scientific Communications

Davesne, G., Fortier, D., Domine, F., Kinnard, C., 2023. Mass-balance and ablation processes of a perennial polar ice patch on the northern coast of Ellesmere Island. <strong>Journal of Glaciology</strong>: 1-18. DOI: <a href="" target="_blank">10.1017/jog.2023.44</a>.

Davesne, G., Fortier, D., Domine, F., 2022. Properties and stratigraphy of polar ice patches in the Canadian High Arctic reveal their current resilience to warm summers. <strong>Arctic Science</strong>, 8(2): 414-449. DOI: <a href="" target="_blank">10.1139/as-2021-0011</a>.

Domine, F., Fourteau, K., Picard, G., Lackner, G., Sarrazin, D., Poirier, M., 2022. Permafrost cooled in winter by thermal bridging through snow-covered shrub branches. <strong>Nature Geoscience</strong>, 15: 554–560. DOI: <a href="" target="_blank">10.1038/s41561-022-00979-2</a>.

Lackner, G., Domine, F., Nadeau, D., Lafaysse, M., Dumont, M., 2022. Snow properties at the forest–tundra ecotone: predominance of water vapor fluxes even in deep, moderately cold snowpacks. <strong>The Cryosphere</strong>, 16: 3357–3373. DOI: <a href="" target="_blank">10.5194/tc-16-3357-2022</a>.

Lackner, G., Domine, F., Nadeau, D., Parent, A.-C., Anctil, F., Lafaysse, M., Dumont, M., 2022. On the energy budget of a low-Arctic snowpack. <strong>The Cryosphere</strong>, 16: 127-142, 16. DOI: <a href="" target="_blank">10.5194/tc-16-127-2022</a>.

Ola, A., Fortier, D., Coulombe, S., Comte, J., Domine, F., 2022. The distribution of soil carbon and nitrogen stocks among dominant geomorphological terrain units in Qarlikturvik Valley, Bylot Island, Arctic Canada. <strong>Journal of Geophysical Research - Biogeosciences</strong>, 127(7), e2021JG006750. DOI: <a href="" target="_blank">10.1029/2021JG006750</a>.

Poirier, M., Gauthier, G., Domine, F., Fauteux, D., 2022. Lemmings : À la conquête du manteau neigeux idéal. Réunion scientifique Sentinelle Nord 2022. Québec, Québec, Canada.

Soriot, C., Picard, G., Prigent, C., Frappart, F., Domine, F., 2022. Year-round sea ice and snow characterization from combined passive and active microwave observations and radiative transfer modeling. <strong>Remote Sensing of Environment</strong>, 278, 113061. DOI: <a href="" target="_blank">10.1016/j.rse.2022.113061</a>.

Vérin, G., Domine, F., Babin, M., Picard, G., Arnaud, L., 2022. Metamorphism of Arctic marine snow during the melt season. Impact on spectral albedo and radiative fluxes through snow. <strong>The Cryosphere Discussions</strong>. DOI: <a href="" target="_blank">10.5194/tc-2022-76</a>.

2021. Chemistry in the Cryosphere. Advances in Atmospheric Chemistry: Volume 3, World Scientific, 924 pages. DOI: <a href="" target="_blank">10.1142/12095</a>.

Belke Brea, M., Domine, F., Barrère, M., Picard, G., Arnaud, L., 2021. On the influence of erect shrubs on the irradiance profile in snow. <strong>Biogeosciences</strong>, 18(21): 5851–5869. DOI: <a href="" target="_blank">10.5194/bg-18-5851-2021</a>.

Davesne, G., Domine, F., Fortier, D., 2021. Effects of meteorology and soil moisture on the spatio-temporal evolution of the depth hoar layer in the polar desert snowpack. <strong>Journal of Glaciology</strong>, 68(269): 457-472. DOI: <a href="" target="_blank">10.1017/jog.2021.105</a>.

Domine, F., 2021. The chemical composition of snow and glacial ice. Pages 867-872 dans Chemistry in the Cryosphere. Advances in Atmospheric Chemistry: Volume 3, World Scientific. DOI: <a href="" target="_blank">10.1142/9789811230134_0002</a>.

Domine, F., Lackner, G., Sarrazin, D., Poirier, M., Belke Brea, M., 2021. Meteorological, snow and soil data (2013–2019) from a herb tundra permafrost site at Bylot Island, Canadian high Arctic, for driving and testing snow and land surface models. <strong>Earth System Science Data</strong>, 13: 4331-4348. DOI: <a href="" target="_blank">10.5194/essd-13-4331-2021</a>.

Fourteau, K., Domine, F., Hagenmuller, P., 2021. Macroscopic water vapor diffusion is not enhanced in snow. <strong>The Cryosphere</strong>, 15(1): 389-406. DOI: <a href="" target="_blank">10.5194/tc-15-389-2021</a>.

Lackner, G., Nadeau, D., Domine, F., Parent, A.-C., Leonardini, G., Boone, A., Anctil, F., Fortin, V., 2021. The effect of soil on the summertime surface energy budget of a humid subarctic tundra in northern Quebec, Canada. <strong>Journal of Hydrometeorology</strong>, 22(10): 2547-2564. DOI: <a href="" target="_blank">10.1175/JHM-D-20-0243.1</a>.

Miller, L.A., Domine, F., Frey, M.M., Trombotto Liaudat, D., 2021. The future? Big questions about feedbacks between anthropogenic change in the cryosphere and atmospheric chemistry. Pages 831-865 dans Chemistry in the Cryosphere. Advances in Atmospheric Chemistry: Volume 3, World Scientific. DOI: <a href="" target="_blank">10.1142/9789811230134_0017</a>.

Poirier, M., Fauteux, D., Gauthier, G., Domine, F., Lamarre, J.-F., 2021. Snow hardness impacts intranivean locomotion of arctic small mammals. <strong>Ecosphere</strong>, 12(11), e03835. DOI: <a href="" target="_blank">10.1002/ecs2.3835</a>.

Royer, A., Domine, F., Roy, A.R., Langlois, A., Marchand, N., Davesne, G., 2021. New northern snowpack classification linked to vegetation cover on a latitudinal mega-transect across northeastern Canada. <strong>Écoscience</strong>, 28(3-4): 225-242. DOI: <a href="" target="_blank">10.1080/11956860.2021.1898775</a>.

Belke Brea, M., Domine, F., Barrère, M., Picard, G., Arnaud, L., 2020. Impact of shrubs on surface albedo and snow specific surface area at a low arctic site: in-situ measurements and simulations. <strong>Journal of Climate</strong>, 33(2): 597-609. DOI: <a href="" target="_blank">10.1175/JCLI-D-19-0318.1</a>.

Belke Brea, M., Domine, F., Boudreau, S., Picard, G., Barrère, M., Arnaud, L., Paradis, M., 2020. New allometric equations for arctic shrubs and their application for calculating the albedo of surfaces with snow and protruding branches. <strong>Journal of Hydrometeorology</strong>, 21(11): 2581–2594. DOI: <a href="" target="_blank">10.1175/JHM-D-20-0012.1</a>.

Massicotte, P., Amiraux, R., Amyot, M.-P., Archambault, P., Ardyna, M., Arnaud, L., Artigue, L., Aubry, C., Ayotte, P., Bécu, G., Bélanger, S., Benner, R., Bittig, H.C., Bricaud, A., Brossier, É., Bruyant, F., Chauvaud, L., Christiansen-Stowe, D., Claustre, H., Cornet-Barthaux, V., Coupel, P., Cox, C., Delaforge, A., Dezutter, T., Dimier, C., Domine, F., Dufour, F., Dufresne, C., Dumont, D., Ehn, J., Else, B., Ferland, J., Forget, M.-H., Fortier, L., Galí, M., Galindo, V., Gallinari, M., Garcia, N., Gérikas Ribeiro, C., Gourdal, M., Gourvil, P., Goyens, C., Grondin, P.-L., Lacour, T., Lafond, A., Lagunas, J., Lalande, C., Laliberté, J., Lambert-Girard, S., Larivière, J., Lavaud, J., LeBaron, A., Leblanc, K., Le Gall, F., Legras, J., Lemire, M., Levasseur, M., Leymarie, E., Leynaert, A., Lopes dos Santos, A., Lourenço, A., Mah, D., Marec, C., Marie, D., Martin, N., Marty, C., Marty, S., Massé, G., Matsuoka, A., Matthes, L., Moriceau, B., Muller, P.-E., Mundy, C.-J., Neukermans, G., Oziel, L., Panagiotopoulos, C., Pangrazi, J.-J., Picard, G., Picheral, M., Pinczon du Sel, F., Pogorzelec, N., Probert, I., Quéguiner, B., Raimbault, P., Ras, J., Rehm, E., Rontani, J.-F., Rysgaard, S., Saint-Béat, B., Sampei, M., Sansoulet, J., Schmechtig, C., Schmidt, S., Sempéré, R., Sévigny, C., Shen, Y., Tragin, M., Tremblay, J.-É., Vaulot, D., Verin, G., Vivier, F., Vladoiu, A., Whitehead, J., Babin, M., 2020. Green Edge ice camp campaigns: understanding the processes controlling the under-ice arctic phytoplankton spring bloom. <strong>Earth System Science Data</strong>, 12(1): 151–176. DOI: <a href="" target="_blank">10.5194/essd-12-151-2020</a>.

Belke Brea, M., Domine, F., Boudreau, S., Picard, G., Arnaud, L., Barrère, M., 2019. Une nouvelle approche pour calculer l'albédo spectral des surfaces mixtes neige-arbuste.

Davesne, G., Fortier, D., Lévesque, E., Domine, F., Rioux, K., 2019. The polar ice patch project - Fieldwork 2019. Présentation auprès de Park Canada et the Resolute Bay HTA. Resolute, Nunavut, Canada.

Domine, F., 2019. Le pergélisol arctique: un amplificateur du changement climatique et des risques associés. Conférences scientifiques du Lycée français de Budapest. Budapest.

Domine, F., 2019. Le pergélisol arctique: un amplificateur du changement climatique et des risques associés. Cycle de conférences de l'institut français de Budapest. Budapest.

Domine, F., 2019. Notre Planète aujourd’hui, demain…et après-demain. Conférence à l'occasion des 80 ans du CNRS. Lyon.

Domine, F., 2019. Should we not further study the impact of microbial activity on snow and polar atmospheric chemistry? <strong>Microorganisms</strong>, 7(8 - Special Issue Ice and Snow Microbiology): 260. DOI: <a href="" target="_blank">10.3390/microorganisms7080260</a>.

Domine, F., Picard, G., Morin, S., Barrère, M., Madore, J.-B., Langlois, A., 2019. Major issues in simulating some arctic snowpack properties using current detailed snow physics models: consequences for the thermal regime and water budget of permafrost. <strong>Journal of Advances in Modeling Earth Systems</strong>, 11(1): 34-33. DOI: <a href="" target="_blank">10.1029/2018MS001445</a>.

Gagnon, M., Domine, F., Boudreau, S., 2019. The carbon sink due to shrub growth on Arctic tundra: a case study in a carbon-poor soil in eastern Canada. <strong>Environmental Research Communications</strong>, 1, 091001. DOI: <a href="" target="_blank">10.1088/2515-7620/ab3cdd</a>.

Libois, Q., Lévesque-Desrosiers, F., Lambert-Girard, S., Thibault, S., Domine, F., 2019. Optical porosimetry of weakly absorbing porous materials. <strong>Optics Express</strong>, 27(16): 22983-22993. DOI: <a href="" target="_blank">10.1364/OE.27.022983</a>.

Poirier, M., Gauthier, G., Domine, F., 2019. What guides lemmings movements through the snowpack? <strong>Journal of Mammalogy</strong>, 100(5): 1416-1426. DOI: <a href="" target="_blank">10.1093/jmammal/gyz129</a>.

Barrère, M., Domine, F., Belke Brea, M., Sarrazin, D., 2018. Snowmelt events in autumn can reduce or cancel the soil warming effect of snow–vegetation interactions in the Arctic. <strong>Journal of Climate</strong>, 31(23): 9507-9518. DOI: <a href="" target="_blank">10.1175/JCLI-D-18-0135.1</a>.

Domine, F., 2018. L'Arctique, première victime et acteur négligé du changement climatique. Institut Français du Pétrole Conférence series. Paris.

Domine, F., 2018. Quelques aspects des perturbations actuelles du cycle du carbone dans l'Arctique. IRCELYON Conférences, Institut de recherches sur la catalyse et l'environnement de Lyon. Lyon.

Domine, F., Belke Brea, M., Sarrazin, D., Arnaud, L., Barrère, M., Poirier, M., 2018. Soil moisture, wind speed and depth hoar formation in the arctic snowpack. <strong>Journal of Glaciology</strong>, 64(248): 990-1052. DOI: <a href="" target="_blank">10.1017/jog.2018.89</a>.

Domine, F., Gauthier, G., Vionnet, V., Fauteux, D., Dumont, M., Barrère, M., 2018. Snow physical properties may be a significant determinant of lemming population dynamics in the high Arctic. <strong>Arctic Science</strong>, 4(4): 813-826. DOI: <a href="" target="_blank">10.1139/AS-2018-0008</a>.

Barrère, M., Domine, F., Decharme, B., Morin, S., Vionnet, V., Matthieu, L., 2017. Evaluating the performance of coupled snow-soil models in SURFEXv8 to simulate the permafrost thermal regime at a high arctic site. <strong>Geoscientific Model Development</strong>, 10: 3461-3479. DOI: <a href="" target="_blank">10.5194/gmd-10-3461-2017</a>.

Berteaux, D., Gauthier, G., Domine, F., Ims, R.A., Lamoureux, S.F., Lévesque, E., Yoccoz, N.G., 2017. Effects of changing permafrost and snow conditions on tundra wildlife: critical places and times. <strong>Arctic Science</strong>, 3: 65-90. DOI: <a href="" target="_blank">10.1139/as-2016-0023</a>.

Busseau, B.-C., Royer, A., Roy, A.R., Langlois, A., Domine, F., 2017. Analysis of snow-vegetation interactions in the low Arctic-Subarctic transition zone (northeastern Canada). <strong>Physical Geography</strong>, 38(2): 159-175. DOI: <a href="" target="_blank">10.1080/02723646.2017.1283477</a>.

Davesne, G., Fortier, D., Domine, F., Gray, J.T., 2017. Wind-driven snow conditions control the occurrence of contemporary marginal mountain permafrost in the Chic-Choc Mountains, south-eastern Canada: A case study from Mont Jacques-Cartier. <strong>The Cryosphere</strong>, 11(3): 1351-1370. DOI: <a href=", 2017" target="_blank">10.5194/tc-11-1351-2017, 2017</a>.

Domine, F., 2017. Can we monitor snow properties on sea ice to investigate its role in tropospheric ozone depletion? <strong>Journal of Geophysical Research - Atmospheres</strong>, 122(20): 11,107-11,111. DOI: <a href="" target="_blank">10.1002/2017JD027676</a>.

Domine, F., 2017. Potential climate-permafrost feedbacks and uncertainties in climate projections. BNP Paribas’ sustainability week: Shifting the mindset from “less bad” to “more good”. New York, New York.

Domine, F., 2017. Why snow models such as Crocus and SNOWPACK cannot simulate arctic snow. 3rd Snow Science Winter School. Sodankylä.

Belke Brea, M., Barrère, M., Domine, F., Picard, G., Arnaud, L., 2016. Impact des arbustes sur l&rsquo;alb&eacute;do spectral dans la toundra arctique. Colloque du CEN 2016, Université du Québec à Trois-Rivières. Trois-Rivières, Québec, Canada.

Boone, M., Decharme, B., Domine, F., Abramowitz, G., Ek, M., 2016. Recent progress in land surface modeling and land surface model evaluation/benchmarking (and other surprises). Earth System Model-Snow Model Intercomparison Project (ESM-SnowMIP). San Francisco, Californie.

Brun, E., Domine, F., Picard, G., 2016. Le rôle et l’évolution du manteau neigeux du Groenland. Pages 36-40 dans Le Groenland - Climat, écologie, société. CNRS Editions.

Domine, F., 2016. Pourquoi les mod&egrave;les de neige comme Crocus ne peuvent pas simuler la neige arctique. Cons&eacute;quences ? Séminaire CNRM. Toulouse, France.

Domine, F., Barrère, M., Morin, S., 2016. The growth of shrubs on high Arctic tundra at Bylot Island: Impact on snow physical properties and permafrost thermal regime. <strong>Biogeosciences</strong>, 13: 6471-6486. DOI: <a href="" target="_blank">10.5194/bg-13-6471-2016</a>.

Domine, F., Barrère, M., Sarrazin, D., 2016. Seasonal evolution of the effective thermal conductivity of the snow and the soil in high Arctic herb tundra at Bylot Island, Canada. <strong>The Cryosphere</strong>, 10(6): 2573-2588. DOI: <a href="" target="_blank">10.5194/tc-10-2573-2016</a>.

Duguay, Y., Bernier, M., Lévesque, E., Domine, F., 2016. Land cover classification in sub-Arctic regions using fully polarimetric RADARSAT-2 data. <strong>Remote Sensing</strong>, 8(9): 697. DOI: <a href=" " target="_blank">10.3390/rs8090697 </a>.

Barrère, M., Domine, F., Sarrazin, D., Morin, S., 2015. Suivi automatique de la conductivit&eacute; thermique de la neige dans une r&eacute;gion du Bas-Arctique. Colloque du CEN 2015. Québec, Québec, Canada.

Domine, F., 2015. Conf&eacute;rence de presse &agrave; l&rsquo;occasion de l&rsquo;inauguration de l&rsquo;exposition &laquo; D&rsquo;un P&ocirc;le &agrave; l&rsquo;autre, la po&eacute;sie des glace &raquo;. Musée de la civilisation. Québec, Québec, Canada.

Domine, F., Barrère, M., Sarrazin, D., Morin, S., Arnaud, L., 2015. Automatic monitoring of the effective thermal conductivity of snow in a low-Arctic shrub tundra. <strong>The Cryosphere</strong>, 9(3): 1265-1276. DOI: <a href="" target="_blank">10.5194/tc-9-1265-2015</a>.

Picard, G., Domine, F., Krinner, G., Arnaud, L., Libois, Q., Morin, S., 2015. La taille des grains de neige et son influence sur le climat antarctique. <strong>La Météorologie</strong>, 91: 39-46. DOI: <a href="" target="_blank">10.4267/2042/57861</a>.

Bartels-Rausch, T., Jacobi, H.-W., Kahan, T.F., Thomas, J.L., Thomson, E.S., Abbatt, J.P.D., Ammann, M., Blackford, J.R., Bluhm, H., Boxe, C., Domine, F., Frey, M.M., Gladich, I., Guzmán, M.I., Heger, D., Huthwelker, T., Klán, P., Kuhs, W.F., Kuo, M.H., Maus, S., Moussa, S.G., McNeill, V.F., Newberg, J.T., Pettersson, J.B.C., Roeselová, M., Sodeau, J.R., 2014. A review of air-ice chemical and physical interactions (AICI): liquids, quasi-liquids, and solids in snow. <strong>Atmospheric Chemistry and Physics</strong>, 14(3): 1587-1633. DOI: <a href="" target="_blank">10.5194/acp-14-1587-2014</a>.

Carmagnola, C.M., Morin, S., Lafaysse, M., Domine, F., Lesaffre, B., Lejeune, Y., Picard, G., Arnaud, L., 2014. Implementation and evaluation of prognostic representations of the optical diameter of snow in the SURFEX/ISBA-Crocus detailed snowpack model. <strong>The Cryosphere</strong>, 8(1): 417-437. DOI: <a href="" target="_blank">10.5194/tc-8-417-2014</a>.

Gallet, J.-C., Domine, F., Dumont, M., 2014. Measuring the specific surface area of wet snow using 1310 nm reflectance. <strong>The Cryosphere</strong>, 8(4): 1139-1148. DOI: <a href="" target="_blank">10.5194/tc-8-1139-2014</a>.

Gallet, J.-C., Domine, F., Savarino, J., Dumont, M., Brun, E., 2014. The growth of sublimation crystals and surface hoar on the Antarctic plateau. <strong>The Cryosphere</strong>, 8(4): 1205-1215. DOI: <a href="" target="_blank">10.5194/tc-8-1205-2014</a>.

Wright, P., Bergin, M., Dibb, J., Lefer, B., Domine, F., Carman, T., Carmagnola, C., Dumont, M., Courville, Z., Schaaf, C., Wang, Z., 2014. Comparing MODIS daily snow albedo to spectral albedo field measurements in Central Greenland. <strong>Remote Sensing of Environment</strong>, 140: 118-129. DOI: <a href="" target="_blank">10.1016/j.rse.2013.08.044</a>.

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