NWT RESEARCH DATABASE

Principal Investigator: Huot, Yannick
Licensed Year(s): 2019
Summary: The objective of this project is to evaluate and compare complex and abundant lake ecosystems. This will be addressed through answering these 4 core questions: 1. Where, by how much and why Canadian lakes have changed during the last centuries? 2. How do taxonomic, molecular and biochemical features of planktonic, benthic and microbial communities change with lake alteration and which ones can...

Principal Investigator: Abiven, Samuel
Licensed Year(s): 2019
Summary: The objective is to measure the age and stock of organic carbon derived from wildfires (fire-derived carbon) in the Mackenzie River region, and examine long- and short-term processes controlling the size and distribution of fire-derived carbon stocks in soils. The research team will measure fire-derived carbon stocks in soils and determine its age (radiocarbon dating) at four different location...

Principal Investigator: Sendrowski, Alicia
Licensed Year(s): 2019
Summary: The objectives of this project are to understand the dynamics of large wood transport in the Mackenzie River and Delta by identifying the locations of wood sources and deposition, and quantifying the amount of wood that reaches the delta and the processes affecting wood transport. Using this knowledge, the research team can make estimates of carbon transport to the Arctic and improve global models...

Principal Investigator: Hendricks, Stefan
Licensed Year(s): 2019
Summary: Fundamental sea ice properties such as volume and surface characteristics change significantly within and between years. Arctic sea ice extent and thickness have undergone dramatic changes in the past decades. The strength of ice-albedo feedback mechanism depends on area-averaged ice concentration, snow and ice thickness and in summer significantly on melt pond fraction. The sea ice retreat in ...

Principal Investigator: Audet, Pascal
Licensed Year(s): 2019 2018 2017 2016 2015
Summary: This project is aimed at understanding the structure and evolution of the crust and mantle beneath Banks Island in the western Arctic by analyzing new seismic data collected from an array of broadband seismic stations. The objective is to provide information on crustal and mantle structures to determine whether Banks Island forms a rifted margin, or forms the northern extension of the Canadian Shi...

Principal Investigator: Hopkinson, Chris
Licensed Year(s): 2019 2018
Summary: Collect airborne laser scanning data over biomass plots over NWT. Specifically to develop biomass and forest resource models for GNWT multi source inventory, and to assess how the resource is changing through time and in space due to climate and fire influences. Airborne laser data coverage is calibrated by field plot data (most provided by GNWT) and models are created which are then upscaled t...

Principal Investigator: Whalen, Dustin JR
Licensed Year(s): 2019 2018 2017
Summary: The primary objective is to provide the means to improve the knowledge of physical conditions in the Arctic coastal zone in order to help government agencies, corporations and local residents understand mitigate and reduce the impacts of climate driven changes. This research has 3 targeted objectives: 1) to gain a better understanding of coastal permafrost; 2) to provide and updated assessment of ...

Principal Investigator: van der Sanden, Josephus J
Licensed Year(s): 2019
Summary: This project aims to undertake fieldwork in the context of the PermASAR winter campaign. The data collected will support the evaluation and development of radar satellite Earth observation (EO) technology for application to the mapping of river and lake ice processes and properties. The research team expect the fieldwork to take place over a period of two to three weeks in the months of Februar...

Principal Investigator: Reid, Kirsten
Licensed Year(s): 2019 2018
Summary: The overarching research goal of this project is to determine what conditions facilitate tree range expansion across the western Canadian boreal-tundra ecotone. Using a biogeographical, multi-trophic level approach, the research team aim to determine: 1. how multi-trophic level species composition changes across the tundra and which conditions dictate these changes; and, 2. the constraints, dri...

Principal Investigator: Eitel, Jan
Licensed Year(s): 2019 2018 2017
Summary: The overarching objective of the study is to integrate light detection and ranging (LiDAR), passive spectral, and tree ecophysiological data to link biophysical structure to ecological function in the Forest Tundra Ecotone. In so doing, the research team will be able to remotely assess the vulnerability and resilience of the forest tundra ecotone (FTE) to environmental change. The field work wi...