Régions: North Slave Region
étiquettes: physical sciences, aquatic ecosystems, air quality, diamond mining, mine-impacted lakes
chercheur principal: | O'Keefe, Harry (1) |
Nᵒ de permis: | 17211 |
Organisation: | Arctic Canadian Research Institute |
Année(s) de permis: |
2023
|
Délivré: | févr. 17, 2023 |
Équipe de projet: | Harry O'Keefe, Sheila Chernys, Derek Donald, Madison Jerhoff, Richard Ehlert, Dustin Chaffee, Kendra McGreish, Nicholas Ballantyne, Rebecca Plotne, Tommy Thorsteinsson, Kurtis Trefry, Andre Brazeau, Jeffrey Mantla, Tania Robitaille, Bradley Cox, Jonah Kelley, Daniel Sokal, Landon Murphy, Veronica Valdron, Sam Lynch, Laren Newton, Gavin MacDougall, Peter Stephan, Adam Chateauvert , Alexandra Crichton, Andrew Baisley, Cameron Evans, Carrie Strangway, Alexis Marti, Cortney Blackburn, Cris Gomez, Daniel Casanova, Danielle Willmon, Erin Forster, Hannah Visty, Jason Parviainen, Jennifer Thompson, Jesse Chambers, Jesse Holla, Joanna Majarreis, Karoliina Munter, Kashif Choudhry, Katie Jones, Kirsten Seymour, Heather Friday, Leanne Baker, Leanne Elchyshyn, Benton Dalgleish, Greg Sharam, Kelly Whaley Martin, Michael O’Kane, Karin Siegel, Nina Morrell, Matt Friend, Roberta Pedlar-Hobbs, Alicia Boatman, Kirby Ottenbreit, Renee Prefontaine, Talaat Bakri, Terryn Kuzyk, Maggie Tang, Trevor Newton, Andrew Loeppky, Lora Tryon, Melinda Bahr, Andres Soux |
Objectif(s): To determine if the Ekati Diamond Mine is having an effect on the surrounding aquatic environment, wildlife, and air quality; and to provide baseline data for areas where mine development may occur in the future.
Description du projet: This licence has been issued for the scientific research application No.5422. The main objectives of the field work for 2023 will be to determine if the Ekati Diamond Mine is having an effect on the surrounding aquatic environment, wildlife, and air quality; and to provide baseline data for areas where mine development may occur in the future. In winter, water samples will be collected under ice using a 2.5-L Niskin (a cylindrical PVC water sampler). During the week of spring freshet, hydrology and meteorology stations will be set up and data loggers will be serviced approximately once a month until the end of the field season. In summer, sampling equipment will include: multi-parameter water chemistry meters (for in situ measurement of pH, temperature, dissolved oxygen, and specific conductivity), water column samplers (a cylindrical PVC GO-FLO for collection of water samples for laboratory analysis of parameters such as major ions, nutrients, and metals), and sediment samplers (K-B corer and Ekman grab sampler for collection of surface sediment samples for laboratory analysis of parameters such as particle size and metals). Sediment sampling is scheduled to occur every three years; which will occur this year in 2023. Lower trophic organism data will be collected as near-shore littoral, mid-depth, and deep-water benthic invertebrate samples. Zooplankton samples will be collected using a conical mesh net towed through the water column. Lake benthos and sediment quality samples will be collected using an Ekman grab sampler (surface areas 0.0225 m2) and additional sediment quality samples will be collected using a K-B corer (top 1-2 cm) to potentially assess the most recent deposition. Stream benthos samples will be collected using up to two methods, artificial substrates (Hester-Dendy samplers), which consist of nine plates stacked vertically with a total surface area of 0.09 m2, to evaluate short-term colonization; and/or Surber samplers, which will provide a whole community snapshot at the time of sampling. Supporting benthic information including water quality parameters and depth-integrated chlorophyll-a and nutrient data will also be collected using standard lower trophic procedures and lower trophic sampling equipment. Fish and fish habitat information will be collected from lakes and streams within the Ekati Claim Block. Fyke nets, gill nets, dip nets, minnow traps, angling, fish boxes, electrofishing and 1.5 inch sinking gillnets may be used to sample fish. When required, fish tissue samples will be collected from fish for analyses. Large-bodied fish sampling is scheduled to occur every six years; the next sampling period will be in 2024. A maximum of five lake trout will be lethally sampled for these tissue analyses, the remaining obtained from tissue biopsies taken from live-sampled fish. Round whitefish will be lethally sampled for their tissues and will be generally limited to 20 mortalities per sampled lake. Slimy sculpin, a sentinel species of the Aquatic Effects Monitoring Program (AEMP) will also be lethally sampled, but at an interval of every three years, currently set to occur in 2024. A total of 30 slimy sculpin will be euthanized for laboratory analyses including metals. For the Air Quality Management Plan (AQMP), air samples are collected via Partisol sampler where large volumes of air are pulled through a filter that collects total suspended particulates. This is done in conjunction with continuous air monitoring from one station on site. Dustfall monitoring stations are constructed and situated in accordance with the methods outlined in ASTM D1739-98. Snow samples are collected using a Mt. Rose sampler (corer). Vegetation is monitored using distribution surveys and collected to sample for particulate matter. The Wildlife Effects Monitoring Program (WEMP) focuses on monitoring wildlife species and habitats that were identified during the Environmental Assessment Review Process (EARP) as being of social or economic importance or of particular ecological or conservation concern (i.e., caribou, grizzly bears, wolves, wolverines, breeding birds, raptors and habitat). The WEMP uses scientific methods and traditional knowledge as a source of information regarding wildlife and local ecology. Each year, results from the program will be made publicly available through Arctic Canadian and will be presented in a Summary Report that describes highlights of the program. The fieldwork for this study will be conducted from February 16, 2023 to December 31, 2023.