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LOST LANDSCAPES: A PALEOGEOGRAPHIC RECONSTRUCTION OF THE QUEEN CHARLOTTE ISLANDS ARCHIPELAGO, WESTERN CANADA 8.7 TO 14.2 KA BP
A series of paleogeographic maps and isostatic crustal displacement maps chart the sequence of evolving landscapes and display temporal changes in the magnitudes and extent of crustal flexure which resulted in a lack of uniformity in relative sea levels across the Queen Charlotte Islands (QCI) region. These maps were derived from the integration of the following data sets: habitat characteristics and age of molluscs collected from submarine cores, submarine grab samples, and raised beaches; sedimentological analysis of cores and raised beaches; seismic reflection and sidescan sonar records; and bathymetry.
An estimated 690 m of glacial ice began retreating from Dixon Entrance after 14.5 ka BP and prior to 12.6 ka BP, permitting over 100 m of uplift in northern Hecate Strait. A forebulge persisted in Hecate Strait and QC Sound from 13.2 until after 9.7 ka BP implying fixed glacial ice on the BC mainland until ~10 ka BP. Paleogeographic reconstructions show two emergent ice-free terrains extending across the continental shelf (100-150 km) that could have been inhabited by plants and animals, including coastally migrating early humans. Ice-free terrain, present by 13.7 ka BP, were intermittently connected via a landbridge to the Queen Charlotte Islands and the BC mainland. Edible molluscan resources were available from at least 13.2 ka BP. Malacological evidence supports paleoceanographic and palynological studies of a late-glacial Younger Dryas cooling event around the southern limits of Hecate Strait and QC Sound, potentially requiring early peoples to migrate greater distances to collect coastal resources and/or increase their reliance on land-based resources. Early coastlines that have not been drowned and which may harbour early archaeological sites are identified along the western QCI and the BC mainland.