Ice-Sheet Erosion—A Result of Maximum Conditions?

Sugden, D.

doi:10.1017/s0022143000030008

J. Glaciol.

1979

DOI: 10.1017/s0022143000030008

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Ice-Sheet Erosion—A Result of Maximum Conditions?

D. Sugden¹

Abstract: The stratigraphic descriptions for Illinois define members that cover areas of the order of 50 km by 100 km (IO L I04 km2). Perhaps each member is to be associated with a single glacial advance or perhaps each bed represents an advance (a bed is a subdivision of a member). It would be very interesting to determine if the compositional variations within each member can be related to a similar pattern in the bedrock and other pre-existing deposits.

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Glacier Physics of the Puget Lobe, Southwest Cordilleran Ice Sheet

Booth¹

2007

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The Puget lobe, the southwest-most extension of the Cordilleran ice sheet, provides an excellent opportunity to examine the connection between glacier physics and the resulting products of glaciation. The action of water, at and within the sediments of the glacier bed, is particularly significant for the geologic record of this ice sheet. Physical data and inferred mass balance relationships constrain lobe reconstruction and predict sliding velocities in excess of 500 m/a and water discharges of nearly 1 * 10" m3/a. This sub-glacial water produced a dendritic channel pattern well predicted by static analysis of sub-glacial hydrology. Near to the eastern ice margin, a much larger single channel drained subglacially and episodically, with tributary ice-dammed lakes releasing their water as jokulhlaups. Basal meltwater generated near-hydrostatic water pressures and very low till strengths at the base of the ice sheet. Water pressure dropped only close to the ice margin, allowing normal stresses to rise to significant fractions of the total ice overburden. Thus marginal and interior zones impose contrasting bed conditions. Although observation of sub-glacial deposits will reflect the late-stage passage of the marginal zone, conditions within the ice-sheet interior, far more significant to glacier history and behavior, may be substantially different.Le lobe de Puget, à la limite sud-ouest de l'Inlandsis de la Cordillère, permet d'étudier les liens entre la physique glaciaire et l'action glaciaire. L'action de l'eau à proximité et à l'intérieur des sédiments du lit glaciaire est un aspect particulièrement important de la géologie de l'inlandsis. Les données d'ordre physique et les calculs du bilan de masse permettent de faire une reconstitution assez fidèle du lobe et d'extrapoler les vitesses de glissement au delà de 500 m/a et les débits d'eau de près de 1 * 10" m3/a. L'écoulement de l'eau sous-glaciaire a créé un réseau de chenaux dentritiques que l'analyse statique de l'hydrologie sous-glaciaire a extrapolé avec justesse. Près de la marge glaciaire orientale, un important chenal isolé a assuré épisodiquement le drainage sous-glaciaire, alors que les lacs de barrage glaciaire emprisonnés dans les vallées adjacentes se déchargeaient par débâcles. L'eau de fonte basale a produit des pressions d'eau près de l'équilibre hydrostatique et de très faibles résistances du till à la base de l'inlandsis. La pression de l'eau ne diminuait que près de la marge glaciaire, laissant ainsi les taux de contrainte normaux s'élever jusqu'à des proportions importantes de la couverture totale de glace. Ainsi les conditions du lit sont très différentes selon qu'il se situe en zone interne ou en zone marginale. L'observation des dépôts sous-glaciaires révèle la phase finale en zone marginale, mais les conditions à l'intérieur même de l'inlandsis, d'une plus grande portée quant à l'évolution et au comportement du glacier, pourraient être très différentes.Der Puget-Lappen, die sûdwestliche Ausdehnung der Kordilleren-Eisdecke, bietet eine aus...

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Glacier Physics of the Puget Lobe, Southwest Cordilleran Ice Sheet

Booth¹

2007

gpq

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Ice-Sheet Erosion—A Result of Maximum Conditions?

Cited by 1 publication

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Glacier Physics of the Puget Lobe, Southwest Cordilleran Ice Sheet

Glacier Physics of the Puget Lobe, Southwest Cordilleran Ice Sheet

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