Quaternary geomorphology, glacial history and relative sea level change in outer Nachvak Fiord, northern Labrador

The Torngat Mountains of northern Labrador portray a complex history of regional and local ice movements during the Wisconsinan. Research undertaken in outer Nachvak Fiord, central Torngat Mountains, provides the basis for a morphostratigraphic and lithostratigraphic framework. The application of re...

Full description

Bibliographic Details
Main Author: Bell, Trevor J.
Format: Thesis
Language:English
Published: Memorial University of Newfoundland 1987
Subjects:
Baffin Island
Labrador Shelf
Torngat Mountains
Nachvak Fiord
Townley Head
Baffin
Online Access:https://research.library.mun.ca/10150/
https://research.library.mun.ca/10150/1/Bell_TrevorJ.pdf
id ftmemorialuniv:oai:research.library.mun.ca:10150
record_format openpolar
institution Open Polar
collection Memorial University of Newfoundland: Research Repository
op_collection_id ftmemorialuniv
language English
description The Torngat Mountains of northern Labrador portray a complex history of regional and local ice movements during the Wisconsinan. Research undertaken in outer Nachvak Fiord, central Torngat Mountains, provides the basis for a morphostratigraphic and lithostratigraphic framework. The application of relative and absolute dating techniques allows reconstruction of a tentative glacial and relative sea level chronology for the area. -- The Nachvak glacial phase represents the last regional ice advance into the outer Nachvak Fiord area. During this event, tributary valleys were backfilled by fiord ice as far east as the fiord threshold, whereas south of the fiord, ice terminated at the western end of Adams Lake. This ice advance is distinguished from previous glacial events on the basis of its drift properties. The earlier Adams Lake glacial phase is considered to be local m origin. The eastern limit of this advance, as defined by the maximum extent of local lithological and geochemical drift characteristics, was Valley of the Flies terminal moraine. The MI glacial phase represents an extensive, older regional ice advance and is characterized by the upper limit of till and moraine in the study area. -- Acoustic stratigraphy of Nachvak Fiord and Adams Lake sediments supplements the terrestrial glacial geology of the region. Acoustic units are interpreted as representing sedimentary facies related to one or more glacial - deglacial cycles, in both the fiord and lake basins. Tentative models of deposition require a grounded to partially-grounded outlet glacier m the fiord during the last regional ice advance, and a significant ice margin at the western end of Adams Lake. -- Analysis of raised marine evidence reveals eleven shorelines, ranging in elevation from 9 m to 73 m above present sea level. The extent and geometry of the shorelines are the bases of a model of relative sea level change during deglaciation from the Nachvak phase maximum. This permits the identification of the Shoal Water Cove and Tessersoak glacial readvances, and the Kogarsok and Townley Head glacial still-stands which appear consistent w1th the morphological evidence of moraines in the region. Locations of major loading centers which affected the Nachvak Fiord region, are based on the assumption of synchronous shoreline formation in the outer fiord area. Radiocarbon-dated shells from sediments associated with a raised marine shoreline suggest that approximately 30 m of emergence has occurred since 9 ka BP. -- A tentative chronology of glacial events is reconstructed from radiocarbon dates, amino acid ratios, and soil development rates. The Nachvak glacial maximum is tentatively dated at 22 ± 2 ka BP. It is estimated that the Adams Lake glacial phase occurred during the period 29-50 ka BP. The MI glacial phase is tentatively dated at ≥75 ka BP, based on comparisons with similar regional ice advances on Baffin Island. -- Correlations with local chronologies from northern Labrador are proposed, and critically examined in the context of previous models of glaciation. The Early Wisconsinan in northern Labrador was likely characterized by an extensive advance of Laurentide ice which may have extended onto the Labrador Shelf. The Middle Wisconsinan is suggested to have been a period of local cirque glacier expansion, with associated high relative sea levels. The extent of Late Wisconsinan ice may have been topographically controlled in northern Labrador. In the Nachvak Fiord region ice was restricted to the fiord basin, whereas in areas north and south of the Torngat Mountains the ice advance may have been more extensive than during the Early Wisconsinan. The deglacial chronology proposed for Nachvak Fiord suggests that a stepwise recession of Laurentide ice characterized the late-glacial period.
format Thesis
author Bell, Trevor J.
spellingShingle Bell, Trevor J.
Quaternary geomorphology, glacial history and relative sea level change in outer Nachvak Fiord, northern Labrador
author_facet Bell, Trevor J.
author_sort Bell, Trevor J.
title Quaternary geomorphology, glacial history and relative sea level change in outer Nachvak Fiord, northern Labrador
title_short Quaternary geomorphology, glacial history and relative sea level change in outer Nachvak Fiord, northern Labrador
title_full Quaternary geomorphology, glacial history and relative sea level change in outer Nachvak Fiord, northern Labrador
title_fullStr Quaternary geomorphology, glacial history and relative sea level change in outer Nachvak Fiord, northern Labrador
title_full_unstemmed Quaternary geomorphology, glacial history and relative sea level change in outer Nachvak Fiord, northern Labrador
title_sort quaternary geomorphology, glacial history and relative sea level change in outer nachvak fiord, northern labrador
publisher Memorial University of Newfoundland
publishDate 1987
url https://research.library.mun.ca/10150/
https://research.library.mun.ca/10150/1/Bell_TrevorJ.pdf
long_lat ENVELOPE(-58.000,-58.000,56.000,56.000)
ENVELOPE(-63.665,-63.665,59.000,59.000)
ENVELOPE(-63.748,-63.748,59.050,59.050)
ENVELOPE(-63.965,-63.965,59.067,59.067)
geographic Baffin Island
Labrador Shelf
Torngat Mountains
Nachvak Fiord
Townley Head
geographic_facet Baffin Island
Labrador Shelf
Torngat Mountains
Nachvak Fiord
Townley Head
genre Baffin Island
Baffin
genre_facet Baffin Island
Baffin
op_relation https://research.library.mun.ca/10150/1/Bell_TrevorJ.pdf
Bell, Trevor J. <https://research.library.mun.ca/view/creator_az/Bell=3ATrevor_J=2E=3A=3A.html> (1987) Quaternary geomorphology, glacial history and relative sea level change in outer Nachvak Fiord, northern Labrador. Masters thesis, Memorial University of Newfoundland.
op_rights thesis_license
_version_ 1766365819346878464
spelling ftmemorialuniv:oai:research.library.mun.ca:10150 2023-05-15T15:35:29+02:00 Quaternary geomorphology, glacial history and relative sea level change in outer Nachvak Fiord, northern Labrador Bell, Trevor J. 1987 application/pdf https://research.library.mun.ca/10150/ https://research.library.mun.ca/10150/1/Bell_TrevorJ.pdf en eng Memorial University of Newfoundland https://research.library.mun.ca/10150/1/Bell_TrevorJ.pdf Bell, Trevor J. <https://research.library.mun.ca/view/creator_az/Bell=3ATrevor_J=2E=3A=3A.html> (1987) Quaternary geomorphology, glacial history and relative sea level change in outer Nachvak Fiord, northern Labrador. Masters thesis, Memorial University of Newfoundland. thesis_license Thesis NonPeerReviewed 1987 ftmemorialuniv 2021-03-08T08:16:16Z The Torngat Mountains of northern Labrador portray a complex history of regional and local ice movements during the Wisconsinan. Research undertaken in outer Nachvak Fiord, central Torngat Mountains, provides the basis for a morphostratigraphic and lithostratigraphic framework. The application of relative and absolute dating techniques allows reconstruction of a tentative glacial and relative sea level chronology for the area. -- The Nachvak glacial phase represents the last regional ice advance into the outer Nachvak Fiord area. During this event, tributary valleys were backfilled by fiord ice as far east as the fiord threshold, whereas south of the fiord, ice terminated at the western end of Adams Lake. This ice advance is distinguished from previous glacial events on the basis of its drift properties. The earlier Adams Lake glacial phase is considered to be local m origin. The eastern limit of this advance, as defined by the maximum extent of local lithological and geochemical drift characteristics, was Valley of the Flies terminal moraine. The MI glacial phase represents an extensive, older regional ice advance and is characterized by the upper limit of till and moraine in the study area. -- Acoustic stratigraphy of Nachvak Fiord and Adams Lake sediments supplements the terrestrial glacial geology of the region. Acoustic units are interpreted as representing sedimentary facies related to one or more glacial - deglacial cycles, in both the fiord and lake basins. Tentative models of deposition require a grounded to partially-grounded outlet glacier m the fiord during the last regional ice advance, and a significant ice margin at the western end of Adams Lake. -- Analysis of raised marine evidence reveals eleven shorelines, ranging in elevation from 9 m to 73 m above present sea level. The extent and geometry of the shorelines are the bases of a model of relative sea level change during deglaciation from the Nachvak phase maximum. This permits the identification of the Shoal Water Cove and Tessersoak glacial readvances, and the Kogarsok and Townley Head glacial still-stands which appear consistent w1th the morphological evidence of moraines in the region. Locations of major loading centers which affected the Nachvak Fiord region, are based on the assumption of synchronous shoreline formation in the outer fiord area. Radiocarbon-dated shells from sediments associated with a raised marine shoreline suggest that approximately 30 m of emergence has occurred since 9 ka BP. -- A tentative chronology of glacial events is reconstructed from radiocarbon dates, amino acid ratios, and soil development rates. The Nachvak glacial maximum is tentatively dated at 22 ± 2 ka BP. It is estimated that the Adams Lake glacial phase occurred during the period 29-50 ka BP. The MI glacial phase is tentatively dated at ≥75 ka BP, based on comparisons with similar regional ice advances on Baffin Island. -- Correlations with local chronologies from northern Labrador are proposed, and critically examined in the context of previous models of glaciation. The Early Wisconsinan in northern Labrador was likely characterized by an extensive advance of Laurentide ice which may have extended onto the Labrador Shelf. The Middle Wisconsinan is suggested to have been a period of local cirque glacier expansion, with associated high relative sea levels. The extent of Late Wisconsinan ice may have been topographically controlled in northern Labrador. In the Nachvak Fiord region ice was restricted to the fiord basin, whereas in areas north and south of the Torngat Mountains the ice advance may have been more extensive than during the Early Wisconsinan. The deglacial chronology proposed for Nachvak Fiord suggests that a stepwise recession of Laurentide ice characterized the late-glacial period. Thesis Baffin Island Baffin Memorial University of Newfoundland: Research Repository Baffin Island Labrador Shelf ENVELOPE(-58.000,-58.000,56.000,56.000) Torngat Mountains ENVELOPE(-63.665,-63.665,59.000,59.000) Nachvak Fiord ENVELOPE(-63.748,-63.748,59.050,59.050) Townley Head ENVELOPE(-63.965,-63.965,59.067,59.067)

Similar Items