Landscape evolution and sediment delivery in a High Arctic proglacial lake, Ellesmere Island, Canadian Arctic Archipelago

Geophysical and morphosedimentary investigations were conducted at Strathcona Lake, a High Arctic proglacial lake and its catchment connected to the Taggart Lake Glacier, northwest corner of the Prince of Wales Icefield in Ellesmere Island (eastern Canadian Arctic Archipelago). The mapping of glacio...

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Veröffentlicht in:	Earth surface processes and landforms 2024-05, Vol.49 (6), p.1987-2009
Hauptverfasser:	Chassiot, Léo, Lajeunesse, Patrick, Francus, Pierre, Normandeau, Alexandre, Lapointe, François, Massa, Charly, De Coninck, Arnaud
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustic mapping Archipelagoes Carbon 14 Catchment area Catchments Climate variability Cores Deglaciation Deltas Evolution Geomorphology Glacial lakes Glacial periods Glacier melting Glaciers Ice fields Inland waters Lacustrine sedimentation Lacustrine sediments Lakes Landforms Mapping Meltwater paraglacial sedimentation Prince of Wales Icefield proglacial varves Radiocarbon dating Sea level fall Sediment Sediments Stratigraphy Varves
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container_end_page	2009
container_issue	6
container_start_page	1987
container_title	Earth surface processes and landforms
container_volume	49
creator	Chassiot, Léo Lajeunesse, Patrick Francus, Pierre Normandeau, Alexandre Lapointe, François Massa, Charly De Coninck, Arnaud
description	Geophysical and morphosedimentary investigations were conducted at Strathcona Lake, a High Arctic proglacial lake and its catchment connected to the Taggart Lake Glacier, northwest corner of the Prince of Wales Icefield in Ellesmere Island (eastern Canadian Arctic Archipelago). The mapping of glaciomarine landforms and units provides, together with updated radiocarbon information, a framework for catchment evolution and sediment delivery to the lake during deglaciation and glacio‐isostatically induced relative sea level fall. A staircase of deltas with descending altitudes provide evidence for a spatially diachronous timing of ice retreat from the catchments around Strathcona Lake. Swath bathymetric mapping coupled with acoustic sediment stratigraphy show draped infills with a transition from marine to rhythmically bedded lacustrine sediments produced by hyperpycnal flows. Multiproxy investigations on a set of sediment cores highlight proglacial varves interrupted by rhythmites resulting from the erosion of fluvially incised glaciomarine sediments stored in the catchment. Pluricentimetric proglacial varves formed during the last century in response to periods of intense glacial melt, notably since the 21st century. The sedimentary record suggests the varved sediments from Strathcona Lake can be used to reconstruct the melting history of the Prince of Wales Icefield. This work provides a geomorphological, sedimentological, and geochemical framework that should guide future varve‐based reconstructions of glacial and climatic variability in Ellesmere Island. Google Earth view of Strathcona Fiord and Strathcona Lake illustrating sediment delivery from a deglaciated landscape.
doi_str_mv	10.1002/esp.5811
format	Article
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The mapping of glaciomarine landforms and units provides, together with updated radiocarbon information, a framework for catchment evolution and sediment delivery to the lake during deglaciation and glacio‐isostatically induced relative sea level fall. A staircase of deltas with descending altitudes provide evidence for a spatially diachronous timing of ice retreat from the catchments around Strathcona Lake. Swath bathymetric mapping coupled with acoustic sediment stratigraphy show draped infills with a transition from marine to rhythmically bedded lacustrine sediments produced by hyperpycnal flows. Multiproxy investigations on a set of sediment cores highlight proglacial varves interrupted by rhythmites resulting from the erosion of fluvially incised glaciomarine sediments stored in the catchment. Pluricentimetric proglacial varves formed during the last century in response to periods of intense glacial melt, notably since the 21st century. 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The mapping of glaciomarine landforms and units provides, together with updated radiocarbon information, a framework for catchment evolution and sediment delivery to the lake during deglaciation and glacio‐isostatically induced relative sea level fall. A staircase of deltas with descending altitudes provide evidence for a spatially diachronous timing of ice retreat from the catchments around Strathcona Lake. Swath bathymetric mapping coupled with acoustic sediment stratigraphy show draped infills with a transition from marine to rhythmically bedded lacustrine sediments produced by hyperpycnal flows. Multiproxy investigations on a set of sediment cores highlight proglacial varves interrupted by rhythmites resulting from the erosion of fluvially incised glaciomarine sediments stored in the catchment. Pluricentimetric proglacial varves formed during the last century in response to periods of intense glacial melt, notably since the 21st century. 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source	Wiley Online Library Journals Frontfile Complete
subjects	Acoustic mapping Archipelagoes Carbon 14 Catchment area Catchments Climate variability Cores Deglaciation Deltas Evolution Geomorphology Glacial lakes Glacial periods Glacier melting Glaciers Ice fields Inland waters Lacustrine sedimentation Lacustrine sediments Lakes Landforms Mapping Meltwater paraglacial sedimentation Prince of Wales Icefield proglacial varves Radiocarbon dating Sea level fall Sediment Sediments Stratigraphy Varves
title	Landscape evolution and sediment delivery in a High Arctic proglacial lake, Ellesmere Island, Canadian Arctic Archipelago
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