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Project leads
Fereidoun Rezanezhad (University of Waterloo)
Philippe Van Cappellen (University of Waterloo)
Jonathan Price (University of Waterloo)
William L. Quinton (Wilfrid Laurier University)
Nathan Basiliko (Lakehead University)
Pascale Roy-Leveillee (Université Laval)
Christina Smeaton (Memorial University of Newfoundland)
Kara Webster (Canadian Forest Service Great Lakes Forestry Centre (CFS-GLFC) - Natural Resources Canada)
Nancy Goucher (University of Waterloo)

Timeline
03/01/2019 - 02/28/202

Study area
Canada

Main objectives
The goal of this project is to advance the fundamental, process-based understanding of the function of soil biogeochemical processes in cold region environments during the fall-winter and winter-spring transitions and during the non-growing season (NGS) by creating the foundation for the predictive modelling of winter carbon losses in cold region wetland ecosystems under current and future climates. This research project mainly focuses on 1) determining the hydrological and climatic factors driving microbial NGS carbon cycling and 2) integrating the information and data gained into models describing the underlying processes controlling NGS emissions for incorporation into the Carbon Budget Model of the Canadian Forest Sector (CBM-CFS).

For more information:
Contact: frezanez@uwaterloo.ca

Project leads
Dr. Maria Strack, University of Waterloo
Dr. Nicole Balliston, University of Waterloo

Timeline
08/01/2023 - 05/01/2026

Study area
Mushkegowuk Traditional Territory in the Hudson Bay Lowland, Ontario, Canada

Main objectives
Assessing seasonal and interannual hydrological fluxes within HBL peatlands
Estimating water bound lateral carbon fluxes within HBL peatlands


For more information:
Contact: nballist@uwaterloo.ca

Project leads
Maryam Bayatvarkeshi, University of Waterloo
Dr. Maria Strack, University of Waterloo
Dr. Scott Ketcheson, 
Athabasca University

Timeline
09/01/2021 08/31/202

Study areas
Kirby site in Conklin, AB
Maqua site in Fort McMurray, AB


Main objectives
1. Measuring actual evapotranspiration in seismic lines and adjacent forests
2. Collecting weather variables in seismic lines and adjacent forests
3. Calculating water balance in seismic lines and adjacent forests
4. Modeling water balance on local and large scale