Buried preglacial fluvial gorges and valleys preserved through Quaternary glaciations beneath the eastern Laurentide Ice Sheet

Lajeunesse, Patrick

doi:10.1130/b30911.1

Cited by 29 publications

(30 citation statements)

References 59 publications

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“…B). Bedrock thresholds suggest that the structural valley depths may not be significantly greater than the observed flank heights with the possible exception of inner gorges (Lajeunesse, ). Marine sediments preserved in terraces along the lower reaches of the valleys lying below 140 m.a.s.l.…”

Section: Regional Settingmentioning

confidence: 97%

From outwash to coastal systems in the Portneuf–Forestville deltaic complex (Québec North Shore): Anatomy of a forced regressive deglacial sequence

et al. 2017

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Deglacial sequences typically include backstepping grounding zone wedges and prevailing glaciomarine depositional facies. However, in coastal domains, deglacial sequences are dominated by depositional systems ranging from turbiditic to fluvial facies. Such deglacial sequences are strongly impacted by glacio‐isostatic rebound, the rate and amplitude of which commonly outpaces those of post‐glacial eustatic sea‐level rise. This results in a sustained relative sea‐level fall covering the entire depositional time interval. This paper examines a Late Quaternary, forced regressive, deglacial sequence located on the North Shore of the St. Lawrence Estuary (Portneuf Peninsula, Québec, Canada) and aims to decipher the main controls that governed its stratigraphic architecture. The forced regressive deglacial sequence forms a thick (>100 m) and extensive (>100 km2) multiphased deltaic complex emplaced after the retreat of the Laurentide Ice Sheet margin from the study area ca 12 500 years ago. The sedimentary succession is composed of ice‐contact, glaciomarine, turbiditic, deltaic, fluvial and coastal depositional units. A four‐stage development is recognized: (i) an early ice‐contact stage (esker, glaciomarine mud and outwash fan); (ii) an in‐valley progradational stage (fjord head or moraine‐dammed lacustrine deltas) fed by glacigenics; (iii) an open‐coast deltaic progradation, when proglacial depositional systems expanded beyond the valley outlets and merged together; and (iv) a final stage of river entrenchment and shallow marine reworking that affected the previously emplaced deltaic complex. Most of the sedimentary volume (10 to 15 km3) was emplaced during the three‐first stages over a ca 2 kyr interval. In spite of sustained high rates of relative sea‐level fall (50 to 30 mm·year−1), delta plain accretion occurred up to the end of the proglacial open‐coast progradational stage. River entrenchment only occurred later, after a significant decrease in the relative sea‐level fall rates (<30 mm·year−1), and was concurrent with the formation and preservation of extensive coastal deposits (raised beaches, spit platform and barrier sands). The turnaround from delta plain accretion to river entrenchment and coastal erosion is interpreted to be a consequence of the retreat of the ice margin from the river drainage basins that led to the drastic drop of sediment supply and the abrupt decrease in progradation rates. The main internal stratigraphic discontinuity within the forced regressive deglacial sequence does not reflect changes in relative sea‐level variations.

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Section: Regional Settingmentioning

confidence: 97%

From outwash to coastal systems in the Portneuf–Forestville deltaic complex (Québec North Shore): Anatomy of a forced regressive deglacial sequence

et al. 2017

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“…The presence of vertical walls undoubtedly indicates that the structural heritage had a preponderant influence in the shaping of the basement. Moreover, a pre‐existing network of fluvial valleys was potentially reworked and amplified by direct glacial abrasion (von Brunn, , ), as is the case for some Quaternary high‐latitude valleys that originated from the combination of both pre‐glacial fluvial and glacial erosion processes (Lajeunesse, ; Livingstone et al , ). Indeed, the major hiatus that separates the basement from the Dwyka Group suggests that the study area constituted an emerged domain during pre‐Dwyka times as a result of crustal uplift preceding the inception of the Karoo Basin and the onset of glaciation (Visser, ; Tankard et al , ) and onto which a fluvial system may well have developed.…”

Section: Interpretations: Depositional Environments Ice‐margin Fluctmentioning

confidence: 99%

Ice‐margin fluctuation sequences and grounding zone wedges: The record of the Late Palaeozoic Ice Age in the eastern Karoo Basin (Dwyka Group, South Africa)

Dietrich

Hofmann

2019

The Depositional Record

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In the eastern part of the Karoo Basin of South Africa, the sedimentary record of the Late Palaeozoic Ice Age, the Dwyka Group, consists of an up to 200 m thick accumulation of massive to crudely stratified diamictite occasionally interstratified with siltstone, sandstone and conglomerate horizons. Three distinct sedimentary units, separated by intervening glacial erosion surfaces, are viewed as ice‐margin fluctuation sequences. The lowermost one, resting on highly uneven, glacially abraded Archaean basement, has been interpreted as a grounding zone wedge deposited after the retreat and stabilization of the ice margin after the inundation of the Karoo Basin. The grounding zone wedge interpretation is based on its thickness (up to 100 m), the dominance of diamictite, and its facies assemblage and inferred depositional processes (rain‐out of debris, dropstone dumping, mass and debris flow, till). Overlying the grounding zone wedge, deposits are sedimentary units interpreted as glaciofluvial or ice‐contact delta and grounding zone wedges, respectively. By analogy with Quaternary sedimentary sequences, deposition of the Dwyka Group in the study area might have been very rapid (tens to hundreds of thousand years) and may hence correlate with the ultimate deglacial sequence of the Western Karoo Basin, as both successions are covered by the postglacial Ecca Group. Although commonly observed and imaged on modern, high‐latitude continental shelves, grounding zone wedges have never been interpreted in the ancient geological record. This paper therefore outlines a model defining criteria necessary for their identification.

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“…Similar to much of North America and Eurasia, Late Pleistocene ice sheets advanced over permafrost-rich deposits and deranged preglacial fluvial landscapes in northern Canada (Dyke and Prest 1987;Johnson 1990;Ó Cofaigh et al 2005;Hickin et al 2008;Lajeunesse 2014). The relatively subdued topography of northeastern British Columbia does not reflect the irregular, buried bedrock surfaces.…”

Section: Late Wisconsinan Glacial Historymentioning

confidence: 99%

“…8A) are indicative of initial advance of ice margins over sand and clay-rich bed materials containing permafrost (cf. Dyke and Prest 1987;Johnson 1990;Kleman and Borgström 1994;Bennett et al 1998;Boulton et al 1999;Ó Cofaigh et al 2005;Bednarski 2008;Evans et al 2008;Hartman and Clague 2008;Hickin et al 2008;Trommelen and Levson 2008;Benediktsson et al 2009;Lajeunesse 2014;Hickin et al 2016).…”

Section: Fig 9 (A)mentioning

confidence: 99%

The pattern and style of deglaciation at the Late Wisconsinan Laurentide and Cordilleran ice sheet limits in northeastern British Columbia

2017

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This paper reports on the landform assemblages at the northern confluence of the Late Wisconsinan Laurentide and Cordilleran ice sheets with montane and piedmont glaciers in the northern Rockies and southern Mackenzie Mountains. Recent observations in northeastern British Columbia refine our knowledge of the pattern and style of ice sheet retreat, glacial lake formation, and meltwater drainage. At the onset of deglaciation, confluent Laurentide and Cordilleran terminal ice margins lay between 59°N, 124°30=W and 60°N, 125°15=W. From this terminal limit, ice sheets retreated into north-central British Columbia and Yukon Territory, with remnant Cordilleran ice and montane glaciers confined to mountain valleys and the Liard Plateau. Distinctive end moraines are not associated with the retreat of Cordilleran ice in these areas. Laurentide ice retreated northeastward from uplands and the plateaus; then separated into lobes occupying the Fort Nelson and Petitot river valleys. Ice-retreat landforms include recessional end moraines (sometimes overridden and drumlinized), hill-hole pairs, crevasse-fill deposits, De Geer-like ribbed till ridges, hummocky moraines, kames, meltwater features, and glacial lake deposits that fall within the elevation range of glacial Lake Liard and glacial Lake Fort Nelson (ca. 840-380 m). Meltwater and sediment transport into glacial lakes Fort Nelson, Liard, Nahanni, and Mackenzie was sustained by remnant ice in the Liard River and Fort Nelson River drainage basins until the end of glaciation. Optical dating of sand from stabilized parabolic dunes on the Liard Plateau indicates that proglacial conditions, lake formation, and drainage began before 13.0 ± 0.5 ka (calendar years). The Petitot, Fort Nelson, and Liard rivers all occupy spillways incised into glacial deposits and bedrock by meltwater overflow from glacial lakes Peace and Hay.Résumé : L'article rend compte des assemblages de formes de relief au confluent septentrional des inlandsis Laurentidien et de la Cordillère, d'âge wisconsinien tardif, avec des glaciers de montagne et de piémont dans le nord des montagnes Rocheuses et le sud des monts Mackenzie. Des observations récentes dans le nord-est de la Colombie-Britannique peaufinent les connaissances sur le motif et le style du retrait des inlandsis, la formation de lacs glaciaires et l'évacuation des eaux de fonte. Au début de la déglaciation, les marges terminales confluentes des inlandsis Laurentidien et de la Cordillère se trouvaient entre 59°N, 124°30=O et 60°N, 125°15=O. De cette limite terminale, les inlandsis ont retraité vers le centre-nord de la Colombie-Britannique et le Yukon, les restes de l'inlandsis de la Cordillère et des glaciers de montagne étant confinés à des vallées et au plateau de la Liard. Des moraines frontales distinctes ne sont pas associées au retrait de l'inlandsis de la Cordillère dans ces régions. L'inlandsis Laurentidien s'est retiré vers le nord-est à partir de hautes-terres et des plateaux, pour ensuite se diviser en lobes occupant les vall...

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Buried preglacial fluvial gorges and valleys preserved through Quaternary glaciations beneath the eastern Laurentide Ice Sheet

Cited by 29 publications

References 59 publications

From outwash to coastal systems in the Portneuf–Forestville deltaic complex (Québec North Shore): Anatomy of a forced regressive deglacial sequence

From outwash to coastal systems in the Portneuf–Forestville deltaic complex (Québec North Shore): Anatomy of a forced regressive deglacial sequence

Ice‐margin fluctuation sequences and grounding zone wedges: The record of the Late Palaeozoic Ice Age in the eastern Karoo Basin (Dwyka Group, South Africa)

The pattern and style of deglaciation at the Late Wisconsinan Laurentide and Cordilleran ice sheet limits in northeastern British Columbia

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