Search

FRDR Logo
Repartitioning of co-precipitated Mo(VI) during Fe(II) and S(-II) driven ferrihydrite transformation: Datasets and Supplementary Materials
Federated Research Data Repository / dépôt fédéré de données de recherche
Schoepfer, Valerie A.; Lindsay, Matthew B.J. 2022-05-03 This file contains aqueous and solid phase geochemical data resulting from a set of experiments documenting the repartitioning of initially co-precipitated molybdenum(VI) during electron transfer and atom exchange of ferrihydrite. Data include aqueous Fe, S, and Mo concentrations, as well as pH and Eh. Solid phase data consists of spectra from K- and LIII- edge X-ray absorption spectroscopy, X-ray diffraction patterns, and d-spacings associated with transmission electron microscopy-selected area electron diffraction. These data are associated with the article "Repartitioning of co-precipitated Mo(VI) during Fe(II) and S(-II) driven ferrihydrite transformation" by Schoepfer and Lindsay (In preparation).
FRDR Logo
Arsenic and antimony geochemistry of historical roaster waste from the Giant Mine, Yellowknife, Canada: Datasets
Federated Research Data Repository / dépôt fédéré de données de recherche
Lum, Jullieta E.; Schoepfer, Valerie A.; Jamieson, Heather E.; McBeth, Joyce M.; Borčinová Radková, Anežka; Walls, Mary P.; Lindsay, Matthew B.J. 2023-01-25 This file contains aqueous and solid phase geochemical data regarding arsenic trioxide roaster waste dust from underground chambers at the Giant Mine, Yellowknife, NT, Canada. Data include bulk geochemical digests, electron microprobe analysis values, X-ray absorption spectroscopy spectra and projects for As and Sb, powder X-ray diffraction data, and transmission electron microscopy- selected area electron diffraction data.
Global Water Futures (FRDR) Logo
Geochemical composition of groundwater, surface water, permafrost porewater, and active layer porewater in samples from the Coffee gold deposit, Dawson Range, Yukon, Canada
Federated Research Data Repository / dépôt fédéré de données de recherche
Skierszkan, Elliott K; Carey, Sean K.; Fellwock, Matt; Jackson, Scott I; Fraser, Colin; Lindsay, Matthew B.J. 2024-08-15 The data are associated with the article: "Seasonal controls on stream metal(loid) signatures in mountainous discontinuous permafrost" by Skierszkan,E.K.,Carey, S.K., Jackson, S.I., Fellwock, M., Fraser, C. & Lindsay, M.B.J. (2023). Seasonal controls on stream metal(loid) signatures in mountainous discontinuous permafrost, Science of The Total Environment, 908(167999). DOI: https://doi.org/10.1016/j.scitotenv.2023.167999. The data were used to investigate metal(loid) abundances and mobilization processes in water in a discontinuous permafrost region. The data consist of a compilation of analyses produced as part of baseline environmental monitoring at the proposed Coffee Gold Mine by its proponent, Newmont Corp, and supplemented with additional samples collected as part of a research project into geogenic metal(oid)s in permafrost regions led by Skierszkan et al. Additional useful references to understand the local geological and geochemical context are: Skierszkan, E. K., Dockrey, J. W., Helsen, J., Bataille, L.-L. F. C. P., de Laplante, G., McBeth, J. M., et al. (2021). Persistence of uranium in old and cold subpermafrost groundwater indicated by linking 234U-235U-238U, groundwater ages, and hydrogeochemistry. Earth and Space Chemistry, 5(12), 3474–3487. Skierszkan, E. K., Dockrey, J. W., Mayer, K. U., & Beckie, R. D. (2020). Release of geogenic uranium and arsenic results in water-quality impacts in a subarctic permafrost region of granitic and metamorphic geology. Journal of Geochemical Exploration, 217 (October 2019), 106607. DOI: https://doi.org/10.1016/j.gexplo.2020.106607 Kidder, J. A., McClenaghan, M. B., Leybourne, M. I., McCurdy, M. W., Pelchat, P., Layton-Matthews, D., & Voinot, A. (2022). Hydrogeochemistry of porphyry-related solutes in ground and surface waters; an example from the Casino Cu–Au–Mo deposit, Yukon, Canada. Geochemistry: Exploration, Environment, Analysis, 22(2), geochem2021-058. DOI: https://doi.org/10.1144/geochem2021-058 https://creativecommons.org/licenses/by/4.0/

Map search instructions

1.Turn on the map filter by clicking the “Limit by map area” toggle.
2.Move the map to display your area of interest. Holding the shift key and clicking to draw a box allows for zooming in on a specific area. Search results change as the map moves.
3.Access a record by clicking on an item in the search results or by clicking on a location pin and the linked record title.
Note: Clusters are intended to provide a visual preview of data location. Because there is a maximum of 50 records displayed on the map, they may not be a completely accurate reflection of the total number of search results.

(Author: Lindsay, Matthew B.J.)

Limit by:

Clear all

to