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1	Late Devensian solifluction sheets in the Cheviot Hills Harrison, Stephan January 1989 (has links) No description available. 551 Glacial geology/Cheviot Hills
2	STRATIGRAPHIC CORRELATION OF LATE PLEISTOCENE SEDIMENTS OF A BURIED VALLEY IN NORTHFIELD CENTER TOWNSHIP, SUMMIT COUNTY, OHIO Kushner, Vaughn A. January 2006 (has links) No description available. Geology Pleistocene buried valley glacial geology
3	A comparison of glacial chronologies between the Eastern and Western Cordilleras, Bolivia Smith, Colby A. 25 August 2008 (has links) No description available. Geology Andes glacial geology glacial chronology paleoclimate
4	Deglaciation in the Upper Peninsula of Michigan since the Last Glacial Maximum and its relationship to tunnel valleys found in the Lake Superior basin DEROUIN, SARAH A. 19 September 2008 (has links) No description available. Geology glacial geology geomorphology tunnel channels radiocarbon
5	Late Pleistocene and Holocene glacier and climate change Marcott, Shaun Andrew 05 May 2011 (has links) This dissertation presents results from three studies that address major scientific questions in glacial geology and paleoclimatology for the late Pleistocene and Holocene using relatively new geochemical and statistical techniques. Each of the studies attempts to answer a longstanding question in the respective field using geochemical or statistical methods that have not been applied to the problem thus far. A longstanding question in glaciology is the nature and mechanism of the so- called "Heinrich events" of the last ~60 ka. These massive iceberg discharge events into the North Atlantic from the partial breakup of the Laurentide Ice Sheet are identified from distinct ice rafted debris and detrital carbonate layers in marine sediment cores. The mechanism associated with the initiation of these events is commonly thought to be related to internal ice sheet instabilities. However, Heinrich events consistently occur following a long cooling trend that culminates in an extreme cold event, thus suggesting a possible triggering mechanism by climate. Recent modeling work has proposed an oceanic mechanism associated with ocean warming, but no physical evidence has been made available to date. To test this ocean-warming hypothesis, we measured temperature sensitive trace metals and stable isotopes in benthic foraminifera from a sediment core collected in the western North Atlantic that spans the last six Heinrich events and compared our results to climate model simulations using CCSM3. Our results show subsurface warming occurred prior to or coeval with nearly all of the Heinrich events of the last ~60 ka, thus implicating subsurface ocean warming as the main trigger of these rapid breakups of the Laurentide Ice Sheet. In the field of glacial geology a longstanding question has been the timing of alpine glacial advances during the Holocene. A number of studies have interpreted several Holocene glacial advances in western North America, but age control is based largely on relative dating techniques, which have been shown to be in error by up to 10,000 yrs in some cases. Based on 124 ¹⁰Be surface exposure ages from twenty cirque moraines in ten mountain ranges across western North America, glacier were retreating from moraine positions during the latest Pleistocene or earliest Holocene and not throughout the Holocene epoch as previously assumed, thus requiring a refined interpretation of Holocene glacial activity in western North America and the associated climate forcing. In the field of paleoclimatology a question regarding how global temperature varied over the entirety of the Holocene epoch has remained to be answered for some time. While many temperature reconstructions exist for the last 2000 years, a full Holocene temperature stack does not exist, despite its potential utility of putting modern climate change into a full interglacial perspective. Based on a global composite of 73 proxy based temperature record, a Holocene temperature stack was constructed and used to demonstrate that a general cooling of ~1°C has occurred from the early to mid Holocene and that centennial and millennial scale variability is modest. We account for both temperature calibration and chronologic uncertainties using a Monte Carlo based approach. Our results are consistent with prior reconstructions of the last 2000 years and now allow for a full Holocene temperature perspective for evaluation with present and future climate change. / Graduation date: 2011 / Access restricted to the OSU Community, at author's request, from May 5, 2011 - May 5, 2012 Pleistocene Holocene Cosmogenic Nuclide Heinrich Events Glacial Geology Josh Cuzzone
6	The Mystery Interval: hydrological changes and circulation pattern changes? Norris, Nathaniel 19 November 2019 (has links) No description available. Geology glacial geology lake sediment late glacial mystery interval
7	The Origin and Extent of Lacustrine Deposits in the Grand River Valley, Northeastern Ohio Ring, Bridget P. 20 September 2013 (has links) No description available. Geology Geomorphology Grand River Valley Glacial Geology Geomorphology
8	An evaluation of digital elevation models and geotechnical properties of the glacial deposits in Franklin County, Ohio, using a geographic information system Bates, Jeffrey Kenneth 19 September 2007 (has links) No description available. geology glacial geology geotechnical digital elevation model geographic information systems
9	Reconstruction of LGM and Post LGM Glacial Environment of McMurdo Sound: Implications for Ice Dynamics, Depositional Systems and Glacial Isostatic Adjustment Stutz, James Edward, II 06 January 2012 (has links) No description available. Geological Bathymetry Antarctica Ice Sheet McMurdo Glacial Geology
10	Reconstructing High-frequency Holocene Glacial Chronostratigraphies in the Himalayan-Tibetan Orogen Saha, Sourav January 2018 (has links) No description available. Geomorphology Holocene Glacial geology Cosmogenic surface exposure dating Himalayan-Tibetan orogen Paleoclimate Inheritance

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