Physical Sciences and Mathematics Commons^™

Petrology And Alteration In The Core Of The Bear Lodge Tertiary Intrusive Complex, Bear Lodge Mountains, Crook County, Wyoming, Michael Wilkinson

Theses and Dissertations

The Bear Lodge complex is an elongate, dome-shape uplift about 8.5 km long by 4 km wide, 10 km northwest of Sundance, Wyoming. The study area is centered about Warren Peaks and includes approximately 23 km2. The igneous intrusive core of the complex is mostly alkali trachyte but latite is abundant in the southern portion of the complex. Phonolite, pseudoleucite trachyte porphyry, and carbonatite dikes cut across the core. Precambrian granitic rocks and lower Paleozoic sedi mentary rocks flank the intrusion and occur as xenoliths.

The latite is relatively unaltered and consists mostly of oligo clase, andesine, alkali feldspar, salite, …

Paleocene Coal-Bearing Sediments Of The Williston Basin, North Dakota : An Interaction Between Fluvial Systems And An Intracratonic Basin, Laramie M. Winczewski

Theses and Dissertations

Outcrop and test hole data for 225 sites in a 33,700-km² area of southwestern North Dakota were examined. Seven sedimentation intervals were identified for the Paleocene Bullion Creek and Sentinel Butte Formations. The intervals extend from the top of the Harmon coal (lower Bullion Creek) to the top of the Twin Buttes coal (upper Sentinel Butte). Each interval consists of medium and fine elastics underlying a persistent lignite coal, or some other lithology at the stratigraphic position of the coal. Clastics are finer-grained upwards within intervals and within both formations to the upper Sentinel Butte.

Sand-rich zones align northwest-southeast, …

Palynological Differences Between The Chuckanut And Huntingdon Formations, Northwestern Washington, Kenneth Norman Reiswig

WWU Graduate School Collection

Pollen and spore assemblages from the Tertiary coal-bearing Chuckanut and Huntingdon Formations were studied to determine the existence and location of the southern boundary of the Bellingham Basin. Ages of deposition were determined for each formation based on the flora recovered. The age of the Chuckanut Formation ranges from Middle Paleocene at its base to Late Eocene at its top. The age of the Huntingdon in northwestern Washington is Late Eocene to perhaps Earliest Oligocene. From the evidence of palynomorph ranges, no definite age breaks were found within the Chuckanut Formation, or between the Chuckanut and Huntingdon Formations. The structure …

Net Shore-Drift Of King County, Washington, Michael Chrzastowski

WWU Graduate School Collection

King County has a 182 km, crenulated coastline along the glacially formed channels of Puget Sound. This distance is nearly evenly divided between the mainland and two islands, Vashon and Maury. This field study determined the long-term net shore-drift along the King County coast, primarily using geomorphic and sedimentologic indicators of net shore-drift. The shore-drift sediment is mainly sand and gravel supplied from coastal bluffs by wave erosion, mass wasting, and fluvial processes. There are a total of 46 drift cells, with shore-drift operating along all of the King County coast except for 9 km of artificially modified, commercial and …

Radiometric And Petrochemical Characteristics Of The Dells Granite, Yavapai County, Arizona, Kenneth Stewart Fleck

Masters Theses

"The Dells granite of central Arizona, an alkaline granite containing accessory fluorite and tourmaline, contains anomalously high amounts of uranium. Gamma-ray spectrometry, x-ray fluorescence, petrographic, and autoradiographic methods were used to determine the contents and distribution of equivalent U, Th, K, and ten major element oxides within the granite pluton. The range of uranium content is 0 to 39.7 parts per million (ppm) with the mean equivalent U content 8.8 ppm; eTh, 26.8 ppm; and K, 4.8%. The average uranium content is about twice the average of western United States granites, the thorium content slightly less than average. The Th/U …

Glacial Geology And Stratigraphy Of Southeastern Pierce And Southwestern Benson Counties, North Dakota, Arthur W. Schnacke Jr.

Theses and Dissertations

The study area includes 220 square miles in southeastern Pierce and southwestern Benson Counties, North Dakota (T. 152 N. through T. 154 N., R. 70 W. through R. 73 W.).

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Field mapping and subsequent analyses were attempted to differentiate the drifts of the Leeds and Souris lobes, to determine the sequence and duration of events during and subsequent to glaciation, and to aid in correlating the drifts. Landforms of the area include: ice marginal ridges, ground moraine, proglacial plains, abandoned river channels, and sand dunes.

In the laboratory, very coarse sand lithology percentages, till fabric, texture, and gross lithology …

Tertiary Volcanic Rocks In Southwest Montana And Adjacent Idaho As Possible Source Rocks For Epigenetic Stratabound Uranium Deposits, Richard Brian Wice

WWU Graduate School Collection

Rhyolitic volcanic and volcaniclastic rocks found in or on the margins of Tertiary basins that contain sandstone-type uranium deposits are considered by many workers to be the source rocks for the uranium. In southwestern Montana and adjacent Idaho three volcanic areas were mapped and evaluated by geochemical analysis. X-ray diffraction and petrographic studies to determine if the volcanics are good source rocks for uranium deposits in nearby Tertiary basins. Area I volcanics, south of Dillon, Montana, have radiometric ages, uranium, thorium and fluorine contents and petrography similar to the Post-Lowland Creek Volcanics in the Boulder Batholith region and are tentatively …

Quaternary Chronology Of The Palouse Loess Near Washtucna, Eastern Washington, Lucy L. (Lucy Louglin) Foley

WWU Graduate School Collection

Four roadcuts in the Palouse loess near Washtucna, southeastern Washington, expose a thick sequence of buried calcic soils and tephra layers which span more than the last 730,000 years. The identification of four tephra layers of known age in the upper part of the loess sequence

(Mazama, Mt. St. Helens Set S, and two separate layers of Mt. St. Helens Set C) allow the formulation of a soil chronology for the last 40,000 years. Paleomagnetic stratigraphy resulted in the identification of the Brunhes Normal-Matuyama Reversed polarity epoch boundary in one roadcut, thereby establishing an age of at least 730,000 years …