William J. Wayne scite author profile

William J. Wayne

5Publications

115Citation Statements Received

25Citation Statements Given

How they've been cited

136

112

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Affiliations

University of Nebraska–Lincoln, Instituto de Histología y Embriología de Mendoza, Lincoln Electric (United States)

Publications

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Epeirogenic and Climatic Controls of Early Pleistocene Fluvial Sediment Dispersal in Nebraska

Stanley

Wayne

1972

Geol Soc America Bull

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The change from Pliocene to Pleistocene fluvial sedimentation in Nebraska is denoted by gravel with relative enrichment of mechanically weak rock species and a two-fold increase in largest clast size. These changes in fluvial sediments suggest modification in degradational energy affecting detritus apparently related to deterioration of climate in the early Pleistocene. Cooler Pleistocene climates with increased moisture resulted in greater discharge and carrying capacity for streams headed in the Rocky Mountains and flowing across Nebraska. These streams carried granitic detritus eastward toward the continental glacier margin in easternmost Nebraska. There, streams flowing off ice sheets carrying sedimentary and metamorphic detritus derived from the ice joined the east-flowing streams from the mountains. Detritus derived from continental glaciers in easternmost Nebraska, therefore, was not transported westward, but instead, was mixed with Rocky Mountain-derived detritus and transported southward along the ice-front margin.Even though the drainage basin of the Platte River system came into existence in the Tertiary, the present course of the Platte River dates only from mid-Pleistocene time. Widespread occurrence of lower Pleistocene braided channel deposits east of the Chadron-Cambridge Arch that contain Laramie Range-derived anorthosite indicates repeated channel switching and meandering during times of aggradation over surfaces of minimal relief. Relations of these gravels to the Chadron-Cambridge and Siouxana Arches suggest that uplift on these structures was sufficient to deflect and control the course of streams headed in the Laramie Range and flowing across the plains. Activity on the Chadron-Cambridge Arch also is suggested by the distribution of earthquake epicenters, modern drainage patterns, and the relation of the pre-Pleistocene bedrock surface to the arch and the profile of the Platte River. The presence of knickpoints on rivers crossing the arch suggests that these rivers are maintaining a course antecedent to a spasmodically rising arch. Rivers are entrenched now, but during the early Pleistocene when streams carried a heavy load of sand and gravel, similar activity along the Chadron-Cambridge Arch would have been adequate to spill the aggrading stream over its fan and divert it southward where it could follow a new course. Eastward-flowing streams heading in the Rocky Mountains were controlled by changes in discharge of streams and movement on epeirogenic structures during the early Pleistocene.

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Pleistocene Geology of Indiana and Michigan

Wayne¹,

Zumberge²

1965

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Quaternary geology and geomorphology of South America

Wayne¹

1995

Geomorphology

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The Alemania rockfall dam: A record of a mid-holocene earthquake and catastrophic flood in northwestern Argentina

Wayne

1999

Geomorphology

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Follow this and additional works at: http://digitalcommons.unl.edu/geosciencefacpub This Article is brought to you for free and open access by the Earth and Atmospheric Sciences, Department of at DigitalCommons@University of Nebraska -Lincoln. It has been accepted for inclusion in Papers in the Earth and Atmospheric Sciences by an authorized administrator of DigitalCommons@University of Nebraska -Lincoln.Wayne, William J., "The Alemanía rockfall dam: A record of a mid-holocene earthquake and catastrophic flood in northwestern Argentina" (1999). Papers in the Earth and Atmospheric Sciences. 426. AbstractA prehistoric rockfall, probably caused by an earthquake with a magnitude of 5.0 or greater, blocked Río de las Conchas 2 km upstream from Alemanía (Salta Province, Argentina) in the southern part of the Cordillera Oriental. The rockfall created a dam that formed a lake at least 16 km long. Shells of Biomphalaria, preserved in the lake sediments and, dated by radiocarbon, established the time of this event to be about 5500-6000 years ago. When the natural dam failed, probably either by piping or overtopping, the lake drained catastrophically, eroding a trench through the chaotic mass of sandstone rubble.

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Multiple glaciations of the Cordon del Plata, Mendoza, Argentina

Wayne

Corte

1983

Palaeogeography, Palaeoclimatology, Palaeoecology

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William J. Wayne

Epeirogenic and Climatic Controls of Early Pleistocene Fluvial Sediment Dispersal in Nebraska

Pleistocene Geology of Indiana and Michigan

Quaternary geology and geomorphology of South America

The Alemania rockfall dam: A record of a mid-holocene earthquake and catastrophic flood in northwestern Argentina

Multiple glaciations of the Cordon del Plata, Mendoza, Argentina

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