Late Quaternary landscape evolution in a region of stable postglacial relative sea levels, British Columbia central coast, Canada

Late Quaternary landscape evolution in a region of stable postglacial relative sea levels, British Columbia central coast, Canada

After retreat of the Cordilleran Ice Sheet (CIS) and subsequent glacio‐isostatic adjustment of the central coast of British Columbia (BC), Canada, a complex coastline emerged as relative sea level rapidly reached equilibrium and maintained stability over the end of the Late Pleistocene and Holocene....

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Veröffentlicht in:Boreas 2018-07, Vol.47 (3), p.738-753
Hauptverfasser: Eamer, Jordan B. R., Shugar, Daniel H., Walker, Ian J., Neudorf, Christina M., Lian, Olav B., Eamer, Jennifer L., Bryce, Jordan, Biln, Libby
Format: Artikel
Sprache:eng
Schlagworte:
Carbon 14
Chronology
Climate change
Coastal ecology
Coastal processes
Coastal sediments
Coastal zone management
Coasts
Cores
Dating techniques
Diatoms
Evolution
Fires
Fossils
Geochronology
Geomorphology
Glaciation
Glaciers
Holocene
Ice sheets
Imagery
Landforms
Landscape
Lidar
Luminescence
Microorganisms
Migration
Palaeoecology
Palaeogeography
Paleoecology
Pleistocene
Progradation
Quaternary
Rainforests
Reconfiguration
Remote sensing
Sea level
Sedimentation
Sedimentology
Sediments
Shorelines
Stability
Stratigraphy
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container_end_page 753
container_issue 3
container_start_page 738
container_title Boreas
container_volume 47
creator Eamer, Jordan B. R.
Shugar, Daniel H.
Walker, Ian J.
Neudorf, Christina M.
Lian, Olav B.
Eamer, Jennifer L.
Bryce, Jordan
Biln, Libby
description After retreat of the Cordilleran Ice Sheet (CIS) and subsequent glacio‐isostatic adjustment of the central coast of British Columbia (BC), Canada, a complex coastline emerged as relative sea level rapidly reached equilibrium and maintained stability over the end of the Late Pleistocene and Holocene. This study provides a late Quaternary reconstruction of the landscape evolution of a geographically distinct location on the central BC coast, northwest Calvert Island, which experienced a re‐advance of the CIS near the end of the Late Pleistocene and minimal subsequent relative sea‐level change. Geomorphological observations from LiDAR imagery, sedimentological and palaeoecological evidence from exposures, cores and shovel pits, and a robust luminescence and 14C‐based chronology spanning the last 15 000 years are used to reconstruct the landscape of northwest Calvert Island following CIS retreat. A single‐aliquot regenerative dose protocol that was developed specifically for luminescence dating of the sediments on Calvert Island was utilized in this study. Localized proglacial sedimentation was linked to the glacial re‐advance experienced at the end of the Late Pleistocene. Extensive coastal reconfiguration (e.g. rapid shoreline progradation of >1 m a−1) occurred in the absence of extensive RSL change, which was the main driver of coastal change elsewhere along the BC coast. Changes in climate, small magnitude changes in RSL, and fire all probably played a role in isolated aeolian landform development and stabilization in the study area. An important contribution of this study is the documentation of the multi‐disciplinary approach for reconstructing palaeogeography, using multiple geochronological methods, micro‐ and macro‐sedimentology, the palaeoecology inferred from both macro and microfossils (e.g. diatoms and foraminifers), stratigraphy, field mapping and remote sensing. In addition, these findings inform our understanding of the drivers of coastal sedimentary processes, particularly in the temperate coastal rainforest region of BC, and the role that fire may play in those processes. Coastal palaeogeography studies in the region will become increasingly important as discoveries of Late Pleistocene human habitation along the coastal migration route continue to be documented.
doi_str_mv 10.1111/bor.12297
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Geomorphological observations from LiDAR imagery, sedimentological and palaeoecological evidence from exposures, cores and shovel pits, and a robust luminescence and 14C‐based chronology spanning the last 15 000 years are used to reconstruct the landscape of northwest Calvert Island following CIS retreat. A single‐aliquot regenerative dose protocol that was developed specifically for luminescence dating of the sediments on Calvert Island was utilized in this study. Localized proglacial sedimentation was linked to the glacial re‐advance experienced at the end of the Late Pleistocene. Extensive coastal reconfiguration (e.g. rapid shoreline progradation of &gt;1 m a−1) occurred in the absence of extensive RSL change, which was the main driver of coastal change elsewhere along the BC coast. Changes in climate, small magnitude changes in RSL, and fire all probably played a role in isolated aeolian landform development and stabilization in the study area. 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This study provides a late Quaternary reconstruction of the landscape evolution of a geographically distinct location on the central BC coast, northwest Calvert Island, which experienced a re‐advance of the CIS near the end of the Late Pleistocene and minimal subsequent relative sea‐level change. Geomorphological observations from LiDAR imagery, sedimentological and palaeoecological evidence from exposures, cores and shovel pits, and a robust luminescence and 14C‐based chronology spanning the last 15 000 years are used to reconstruct the landscape of northwest Calvert Island following CIS retreat. A single‐aliquot regenerative dose protocol that was developed specifically for luminescence dating of the sediments on Calvert Island was utilized in this study. Localized proglacial sedimentation was linked to the glacial re‐advance experienced at the end of the Late Pleistocene. 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source Wiley Online Library Open Access
subjects Carbon 14
Chronology
Climate change
Coastal ecology
Coastal processes
Coastal sediments
Coastal zone management
Coasts
Cores
Dating techniques
Diatoms
Evolution
Fires
Fossils
Geochronology
Geomorphology
Glaciation
Glaciers
Holocene
Ice sheets
Imagery
Landforms
Landscape
Lidar
Luminescence
Microorganisms
Migration
Palaeoecology
Palaeogeography
Paleoecology
Pleistocene
Progradation
Quaternary
Rainforests
Reconfiguration
Remote sensing
Sea level
Sedimentation
Sedimentology
Sediments
Shorelines
Stability
Stratigraphy
title Late Quaternary landscape evolution in a region of stable postglacial relative sea levels, British Columbia central coast, Canada
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