NWT RESEARCH DATABASE

Principal Investigator: Jamieson, Rob
Licensed Year(s): 2020 2019
Summary: This licence has been issued for the scientific research application No.4623. The overall objective of this study is improved understanding of heavy metals in Sewage Disposal Facilities (SDFs) and Solid Waste Disposal Facilities (SWDFs) in the NWT. The proposed study aims to answer the following questions: 1) What is the existing treatment capacity of SDFs in NWT for heavy metals?; 2) Are SDFs ...

Principal Investigator: Irving, Elaine
Licensed Year(s): 2019
Summary: This licence has been issued for the scientific research application No.4574. The objective is to sample benthic invertebrates in Jackfish Bay (exposure area) and Kam Bay (reference area), to confirm benthic results from 2018 and determine if treated Con Mine effluent is affecting the benthic community in Jackfish Bay. Benthic invertebrate samples will be collected at five stations in each ...

Principal Investigator: Pisaric, Michael FJ
Licensed Year(s): 2019 2018 2017 2016
Summary: This licence has been issued for the scientific research application No.4564. The objectives of this research are to examine the frequency and severity of past wildfire and drought (drought-like) conditions in the southern Northwest Territories. Specifically, the research team will examine the following questions: 1) how frequent and severe have fires been in the; 2) are fires becoming more fre...

Principal Investigator: Pacunayen, Jessica L
Licensed Year(s): 2019
Summary: The overarching goal for this project is to understand how decision-making bodies can make the best use of water quality data from pre-existing water monitoring programs collected by various agencies within the Tlicho region now and in the future. In order to achieve this goal, the Principal Investigator (PI) plans to understand how decision-making bodies within the Tlicho region currently use wat...

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: Chamberland, Joseph
Licensed Year(s): 2019 2018
Summary: The results of this project will add information that will help northern communities, scientists and decision makers answer questions about water quality and changes to rivers and lakes within the NWT. The information generated from this project will provide both baseline and long term water indicator measures for the Slave River, Great Slave Lake (GSL), and the Mackenzie River, which are three of...

Principal Investigator: Palmer, Mike
Licensed Year(s): 2019 2018 2017
Summary: The overarching objectives of this research are two-fold: 1)To investigate watershed and within-lake abiotic processes affecting the recovery of mine-impacted lakes in the Yellowknife area, including storage and release of arsenic from soils, seasonal dynamics of arsenic export in runoff, and fluxes of arsenic to and from lake sediments; and 2) To investigate the toxicological consequences of ...

Principal Investigator: Zdanowicz, Christian M
Licensed Year(s): 2019 2018
Summary: The goal of this project is to identify and quantify (measure) the different possible sources of toxic mercury that is transported in rivers of the Mackenzie River basin, all the way down to the Beaufort Sea. In particular, the research team want to establish how much mercury comes from "modern" sources (like distant air pollution, runoff from rain/snow, wash-out from surface soils, etc.) and how ...

Principal Investigator: Wolfe, Brent BBW
Licensed Year(s): 2019 2018
Summary: The seven-year objective of Sub-Arctic Meteal Mobility Study (SAMMS) is to identify, quantify, and predict mobility of natural-source and legacy mine-source metals in soil, wetlands, and lake sediments that extend from former, present, and planned mine sites currently and as climate change alters the quantity and quality of dissolved organic matter produced and exported in subarctic NWT watersheds...

Principal Investigator: Chételat, John
Licensed Year(s): 2019 2018
Summary: This study will assess the present-day and future stability of legacy arsenic contamination stored in Yellowknife Bay sediments that originated from local gold mining activities. Using a combination of quantitative methods (field measurements, laboratory experiments, paleolimnology and mass balance modelling), the research team will estimate the diffusion of arsenic from sediments to overlying wat...