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The Neoglacial History of Mt. Thielsen, Southern Oregon CascadesLafrenz, Martin Dietrich 08 June 2001 (has links)
Little Ice Age (LIA) deposits are recognized on Mt. Tbielsen, southern Oregon Cascades (43° 9' N, 122° 3' W), based on particle morphology and relative position. The initial advance, Lathrop 1, created a sharp-crested moraine and a protalus rampart within 200 m of the headwall. The retreat of the glacier and recent ice movement, Lathrop 2, is recognized by the deformation of the moraine and a mantle of "protalus till" creating a polygenetic "push-deformation'' moraine. Both the moraine and the protalus rampart have sparse vegetation, no lichens, and a lightly weathered Cox/C soil. This sequence is correlative with LIA Phase 1 and Phase 2 on Mt. Jefferson, central Oregon Cascades, and is broadly correlated with LIA deposits throughout the Cascades, Sierra Nevada, and Rocky Mountains.
There is no evidence for pre-LIA deposits at Mt. Thielsen. The ELA on Lathrop Glacier (2450 m) is lower than ELAs on nearby glaciers. The glacier probably exists because of its preferential topographic position and extensive debris cover; thus, if annual snowfall decreases the glacier will persist longer than a similar sized bare ice glacier. Conversely, a growing protalus rampart may indicate an increase in annual snowfall but not necessarily a decrease in annual temperatures. The lack of older Neoglacial deposits on Mt. Thielsen may be a result of insufficient snowfall to maintain or advance the Lathrop Glacier. As such, the LIA may represent a period when climatic conditions were more severe than at any other time in the Neoglacial.
Boulder size, shape, and orientation proved useful for classifying geomorphic features and assessing the relative ages of slopes. However, soils are the best method for correlating deposits in the cirque with other locations. Soils beyond the moraine are developed in Mazama ash and have moderately developed Bw horizons, depth to weathering over 70 cm, and Harden's PDI for B horizons of 2.10-3.64. Soils are Typic Vitricryands.
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The abandoned glacial lake shorelines of southwest Labrador.Harrison, David Alan. January 1964 (has links)
No description available.
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Aspects of gully morphology along the shield edge north of MontrealHeginbottom, J. A. (J. Alan) January 1967 (has links)
No description available.
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The periglacial morphology of the Schefferville area, central Quebec-Labrador.Gardner, James S. January 1965 (has links)
No description available.
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Fluvioglacial morphology of the area south of Schefferville, central Quebec-Labrador.Barr, William. January 1965 (has links)
No description available.
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Glacial geomorphology of the Churchill Falls area, Labrador.Morrison, Alastair. January 1966 (has links)
The Churchill Falls are a second Niagara. They are situated in the interior of Labrador, about 200 miles from the nearest point of the open Atlantic coast, and about 225 miles north of the Gulf of St.Lawrence (figure 1-1). [...]
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Late Pleistocene glacial geology of the Hope-Waiau Valley system in North Canterbury, New Zealand : a thesis submitted in partial fulfilment of the requirements for the degree of Doctor of Philosopy in Geology in the University of Canterbury /Rother, Henrik. January 1900 (has links)
Thesis (Ph. D.)--University of Canterbury, 2006. / Typescript (photocopy). "August 2006." Includes bibliographical references (leaves 289-292). Also available via the World Wide Web.
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Comparing Geomorphometric Pattern Recognition Methods for Semi-Automated Landform MappingHassan, Wael January 2020 (has links)
No description available.
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A geomorphological investigation of landslides at Tai To Yan, Hong Kong, with special reference to relationships between landsliding anddrainage development伍潔瑩, Ng, Kit-ying. January 2002 (has links)
published_or_final_version / Geography and Geology / Master / Master of Philosophy
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A Preliminary Investigation of the Land Use Limitations of the Major Landforms Along a Portion of the Lincoln County Coast, OregonMathiot, Richard Kent 13 December 1973 (has links)
This study of a portion of Oregon's Lincoln County coast describes the physical limitations to land use of the various landforms in the study area. Seven major landform types comprise the study area: beaches, active dunes, stabilized dunes, marsh land and tidal flats, marine terraces, basaltic headlands, and uplands. Descriptions and evaluations of their physical characteristics, distribution, geologic and and engineering characteristics, and potentially hazardous processes are contained in the maps, figures, and text.
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