EGU24-13240, updated on 09 Mar 2024
https://doi.org/10.5194/egusphere-egu24-13240
EGU General Assembly 2024
© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Evolution of paleohydrological pathways at Nettilling Lake, Baffin Island (Nunavut, Canada) since deglaciation

Reinhard Pienitz1, Rachel Labrie1, Biljana Narancic1, Emilie Saulnier-Talbot1,2, and Hanno Meyer3
Reinhard Pienitz et al.
  • 1Laval University, Centre for Northern Studies, Geography, Quebec City, Canada (reinhard.pienitz@cen.ulaval.ca)
  • 2Laval University, Institut de biologie integrative et des systemes (IBIS)
  • 3Alfred-Wegener Institut, Potsdam, Germany

Paleohydrological connections and pathways within Nettilling Lake, the largest lake in the Canadian Arctic Archipelago (Baffin Island, Canada), remain poorly known. This knowledge gap hinders our ability to reliably infer past environmental changes that could provide clues to the future evolution of this region with rapid environmental change at high latitudes. The lake is currently fed by freshwaters from its catchment and drains westward into the Foxe Basin via the Koukdjuaq River. However, its early hydrological connections following the last deglaciation are thought to have been complex, when marine waters from the postglacial Tyrell Sea initially invaded the Nettilling basin from the west, followed by a brief reversal when Atlantic waters fed the basin from the east via the Cumberland Sound and Nettilling Fjord. To test this hypothesis, we investigated the lithology, sedimentology and geochemistry of various sediment archives from the easternmost sector of the lake. The multi-proxy data revealed three successive phases: an initial glaciomarine phase (8300 - 7300 cal. BP), a brackish phase (7300 - 6000 cal. BP) and a lacustrine freshwater phase (6000 - present). Our results support the hypothesis formulated by Blake (1966) of temporary hydrological connectivity between the Foxe Basin in the west, followed by a link with the Atlantic Ocean in the east via the Cumberland Sound before marine waters retreated due to differential glacio-isostatic uplift that forced the basin to be progressively occupied by the fresh waters of the present-day Nettilling Lake.

How to cite: Pienitz, R., Labrie, R., Narancic, B., Saulnier-Talbot, E., and Meyer, H.: Evolution of paleohydrological pathways at Nettilling Lake, Baffin Island (Nunavut, Canada) since deglaciation, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-13240, https://doi.org/10.5194/egusphere-egu24-13240, 2024.