Full ProfessorÌý
Department of Earth & Planetary Sciences
3450 University St.
Montreal, Quebec
Canada H3A 0E8
·¡³¾²¹¾±±ô:Ìýjeffrey.mckenzie [at] mcgill.ca
Tel: 514.398.3833
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Courses
Research
Hydrogeology, including pore water flow in northern peatlands, heat transport, heat as a tracer of natural systems, groundwater modeling, coupled numerical models of pore water flow and heat transport with freeze/thaw processes, and the impact of melting tropical glaciers on water resources.ÌýMy research focus is water resources and answering questions about what processes control the source and quality of groundwater. My research program involves many scientific tools such as field measurements, water chemistry, and computer models to understand hydrologic systems around the world, in such places as Ethiopia, Peru, Indonesia, the United States, and Canada. Not only am I interested in water as a resource, but in understanding the connection of these hydrologic systems with ongoing global climate change and geology. My motivating factor in all of these projects is to help people and society in understanding the processes that control and affect water.Ìý
Recent Publications
Ng,. G.-H.C., Wickert, A.D., Somers, L.D., Saberi, L., Cronkite-Ratcliff, C., Niswonger, R.G., and McKenzie, J.M.,Ìý(in press).ÌýGSFLOW–GRASS v1.0.0: GIS-enabled hydrologic modeling of coupled groundwater–surface-water systems.ÌýGeoscientific Model Development, , 10.5194/gmd-2017-321.
Baker, E., Lautz, L.K., Kelleher, C.A., and McKenzie, J.M.,Ìý(2018).ÌýThe Importance of Incorporating Diurnally Fluctuating Stream Discharge in Energy Balance Models to Determine Groundwater Inflow Rates.ÌýHydrological Processes, 32(18), 2901-2914, doi:10.1002/hyp.13226.
Glas, R., Lautz, L.K., McKenzie, J.M., Mark, B.G., Baraer, M., Chavez, D., and Maharaj, L.,Ìý(2018).ÌýA review of the current state of knowledge of proglacial hydrogeology in the Cordillera Blanca, Peru.ÌýWIREs Water, 5(5), doi: 10.1002/wat2.1299.
Greniera, C., Anbergen, H., Bense, V. et al.,Ìý(2018).ÌýGroundwater flow and heat transport for systems undergoing freeze-thaw: Intercomparison of numerical simulators for 2D test cases.ÌýAdvance in Water Resources, 114, 196-218, doi:10.1016/j.advwatres.2018.02.001.
Lamontagne-Hallé, P., McKenzie, J.M., Kurylyk, B.L., and Zipper, S.C.,Ìý(2018).ÌýChanging groundwater discharge dynamics in permafrost regions.ÌýEnvironmental Research Letters, 13(8), doi:10.1088/1748-9326/aad404.
Somers, L., McKenzie, J.M., Zipper, S.C., Mark, B.G., Lagos, P., and Baraer, M.,Ìý(2018).ÌýClimate Change and Enhanced Recharge in a Mountain Catchment, Shullcas River, Peru.ÌýHydrological Processes, 32(3), 318-331, doi:10.1002/hyp.11423.
Wu, P., Liang, S., Wang, X.-S., Feng, Y., and McKenzie, J.M.,Ìý(2018).ÌýA New Assessment of Hydrological Change in the Source Region of the Yellow River.ÌýWater, 10(7), doi:10.3390/w10070877.
Zipper, S.C., Lamontagne-Hallé, P., McKenzie, J.M., and Rocha, A.V.,Ìý(2018).ÌýGroundwater Controls on Postfire Permafrost Thaw: Water and Energy Balance Effects.ÌýJournal of Geophysical Research: Earth Surface, 123, doi:10.1029/2018JF004611.
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