| Title | Predictive environmental modeling in the Lac Dasserat study |
| Download | Download (whole publication) |
| |
| Licence | Please note the adoption of the Open Government Licence - Canada
supersedes any previous licences. |
| Author | Aherne, J |
| Source | Multidisciplinary environmental science investigations surrounding the former Aldermac mine, Abitibi, Quebec: The Lac Dasserat study workshop summarized; by Alpay, S (ed.); Geological Survey of Canada, Open File 7993, 2016 p. 89-92, https://doi.org/10.4095/297770  Open Access |
| Year | 2016 |
| Publisher | Natural Resources Canada |
| Document | open file |
| Lang. | English |
| Media | on-line; digital |
| Related | This publication is contained in Multidisciplinary
environmental science investigations surrounding the former Aldermac mine, Abitibi, Quebec: The Lac Dasserat study workshop summarized |
| File format | pdf |
| Province | Quebec |
| NTS | 32D/03; 32D/06 |
| Area | Rouyn-Noranda; Lac Dasserat |
| Lat/Long WENS | -79.5000 -79.0000 48.5000 48.0000 |
| Subjects | environmental geology; hydrogeology; geochemistry; geochemical analyses; stream sediment geochemistry; stream water geochemistry; lake sediment geochemistry; lake water geochemistry; copper
geochemistry; zinc geochemistry; gold geochemistry; silver geochemistry; cores; trace metals; heavy metals contamination; watersheds; environmental studies; environmental analysis; environmental impacts; lakes; Aldermac Mine; Abitibi greenstone
belt |
| Illustrations | flow charts |
| Program | Environmental Geoscience Tools for environmental impacts and adaptation for metal mining |
| Released | 2016 03 11 |
| Summary | (Plain Language Summary, not published)
The Lac Dasserat study arose from a unique field site where metal contamination from an abandoned mine adversely affected the downstream watershed for
decades. The scientific workshop created an opportunity for a multidisciplinary research to (1) identify the physical, chemical, biological, and toxicological effects of metal contamination in space and time, (2) develop scientific tools to assess
environmental effects and potential recovery from metal contamination in nearby lakes, and (3) improve environmental risk assessment and mining management practices. |
| GEOSCAN ID | 297770 |
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