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Rudd Creek

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Series: GSA Reviews in Engineering Geology
Published: 01 January 1998
DOI: 10.1130/REG12-p97
EISBN: 9780813758121
... Abstract Widespread debris-flow damage occurred in northern Utah intermittently between 1912 and the spring of 1983. The worst damage in 1983 was at the mouth of Rudd Creek, a canyon that previously had not generated significant debris flows in historical time. Floodlike damage extended well...
Journal Article
Published: 15 February 2017
Quarterly Journal of Engineering Geology and Hydrogeology (2017) 50 (1): 13–52.
FIGURES | View All (24)
Journal Article
Journal: AAPG Bulletin
Published: 01 August 1968
AAPG Bulletin (1968) 52 (8): 1592–1603.
...Eric A. Rudd; Hans R. Katz 1 Manuscript received and accepted, April 24, 1968. © 1968 American Association of Petroleum Geologists. All rights reserved 1968 American Association of Petroleum Geologists ERIC A. RUDD 2 Adelaide, South Australia Significant gains...
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Journal Article
Journal: AAPG Bulletin
Published: 01 August 1964
AAPG Bulletin (1964) 48 (8): 1401–1410.
...Eric A. Rudd As a direct result of the Petroleum Search Subsidy support given to exploration, a series of reports on subsidized surveys and wells are now available and are being added to constantly. These reports are made available publicly approximately 6 months after the completion of the work...
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Journal Article
Journal: AAPG Bulletin
Published: 01 August 1965
AAPG Bulletin (1965) 49 (8): 1349–1360.
...Eric A. Rudd; David Kear 1 Manuscript received, April 2, 1965 2 The University of Adelaide. © 1965 American Association of Petroleum Geologists. All rights reserved 1965 American Association of Petroleum Geologists Production of indigenous hydrocarbons...
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Journal Article
Journal: GSA Bulletin
Published: 01 July 2008
GSA Bulletin (2008) 120 (7-8): 1010–1020.
...Robert H. Webb; Peter G. Griffiths; Lawrence P. Rudd Abstract Holocene debris flows do not occur uniformly on the Colorado Plateau province of North America. Debris flows occur in specific areas of the plateau, resulting in general from the combination of steep topography, intense convective...
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Journal Article
Journal: AAPG Bulletin
Published: 01 August 1936
AAPG Bulletin (1936) 20 (8): 1028–1070.
... on Kialawibri Creek, a tributary of Lyndon River, which have been referred to as the “Lyons conglomerate” are not less than 2,000 feet below the horizon of that name on Wyndham River. Whether or not any one of the several boulder horizons is persistent from place to place is unknown. According to Rudd...
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Journal Article
Journal: AAPG Bulletin
Published: 01 June 1939
AAPG Bulletin (1939) 23 (6): 844–859.
... miles northeast of Hawley and 1 mile northeast of the Lewis pool. It is producing from the Bluff Creek sand at 1,900 feet and the Flippen limestone at 1,950 feet. Wells are completed for 100–500 barrels of 37°–39° gravity oil from 5 to 26 feet of sand. Fox and Rudd pool .—The Fox and Rudd pool...
FIGURES
Journal Article
Journal: AAPG Bulletin
Published: 01 August 2004
AAPG Bulletin (2004) 88 (8): 1185–1206.
... capacity. Instead, they found that the best seals were high in both total organic carbon and authigenic minerals. The best seals were phosphatic and pyritic shales in and immediately beneath the condensed section. Two Denver basin Cretaceous marine shale units, the Skull Creek Shale of the Lower...
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Journal Article
Journal: AAPG Bulletin
Published: 01 August 1970
AAPG Bulletin (1970) 54 (8): 1581–1586.
... step-out appraisal hole. Activities were high in all sectors. The drilling of 9 complete and 2 part holes during the year is a record; these tests are distributed over 4 of the country’s 7 oil-prospective basins (see Rudd and Katz, 1969, Fig. 6). Geophysical work concentrated on offshore areas...
FIGURES
Series: Geological Society, London, Memoirs, Geological Society, London, Memoirs
Published: 01 January 2002
EISBN: 9781862393981
.... 1931), for a visit to Chinner's study area. The geology was ‘excellent’ 226 but the weather was wet (Fig. 9.2 ) and Phillips’ (1953 b , p. 10) laconic comment that on the return journey they ‘tried to cross Tanunda Creek, but car nearly went in nose first’ understates a narrow escape from drowning...
FIGURES
Journal Article
Journal: Elements
Published: 01 June 2018
Elements (2018) 14 (3): 179–184.
... favoring Pinot Noir and Chardonnay. And in the north-central part of the county, Dry Creek Valley is known for its Zinfandel. On a local level, every different slope, each bend in a stream, every variation in soil and geology creates its own set of unique conditions that influence the character...
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Series: GSA Field Guide
Published: 01 January 2005
DOI: 10.1130/2005.fld006(22)
EISBN: 9780813756066
... and discuss several of the most significant types of geologic hazards of the Wasatch Front and examine the results of recent and ongoing related research. Field trip topics include (1) slow, active landsliding near the mouth of City Creek Canyon in Salt Lake City; (2) site conditions, earthquake ground...
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Journal Article
Journal: Geophysics
Published: 22 June 2015
Geophysics (2015) 80 (4): W17–W31.
... conductivities. The flight altitude is required as an input parameter that can be subject to errors (for example, due to trees). To solve these problems, Huang and Rudd (2008) propose the pseudolayer half-space model ( Fraser, 1978 ) for CDI that uses an apparent thickness Δ i and effective depth...
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Journal Article
Journal: GSA Bulletin
Published: 01 January 2002
GSA Bulletin (2002) 114 (1): 24–42.
... of the Goose Creek Limestone. Contour interval is 20 feet. “Greater than” symbol (>) means that the Goose Creek is not present at that locality and its former base was higher than the value given, which is the top of the next older unit present at that locality. “Less than” symbol (<) means...
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Journal Article
Journal: AAPG Bulletin
Published: 01 March 1941
AAPG Bulletin (1941) 25 (3): 371–415.
...). Rivers are indicated by numbers: (1) Irwin River, (2) Wooramel River, (3) Minilya River, (4) Lyndon River, (5) Christmas Creek, (6) Margaret River. Fig. 2. Sketch map of Western Australia, showing distribution of outcrops of upper Paleozoic rocks in black. Diagonal lining indicates area...
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Journal Article
Journal: AAPG Bulletin
Published: 01 February 1959
AAPG Bulletin (1959) 43 (2): 397–433.
... The sequence commences with the Prices Creek group, of Ordovician age, which is present as small isolated exposures on the northern margin of the basin. The unit consists of limestone, shale, and dolomite, and is nearly 3,000 feet thick. Traces of oil have been reported from shallow bores drilled...
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Journal Article
Journal: AAPG Bulletin
Published: 01 December 1951
AAPG Bulletin (1951) 35 (12): 2479–2525.
... and engineers: D. D. Condit, H. G. Raggatt, Eric A. Rudd, VV. A. Findlay, W. P. Wilson, A. W. Atkinson, E. M. Braes, and T. W. H. Dee. The following geologists cooperated in the field surveys of one or more of the other basins: D. D. Condit, R. H. Matheson, H. J. Evans, D. J. Guppy, and Reginald Sprigg. Fossils...
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Journal Article
Journal: AAPG Bulletin
Published: 01 January 1951
AAPG Bulletin (1951) 35 (1): 1–61.
.... The silt is lost toward the southwest. The arch continued to rise and act as a barrier to free circulation of waters so that while Brownsport, Helderberg, and Clear Creek were being deposited in those parts of the Central Interior and Appalachian basins which are shaded in Figure 5...
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Journal Article
Journal: AAPG Bulletin
Published: 01 January 1940
AAPG Bulletin (1940) 24 (1): 65–118.
... of local sandstone or limestone reservoirs and stratigraphic traps. A “compaction-hydraulic theory” of oil migration is favored as the main cause of movement of oil into and laterally within the reservoir toward areas of less overburden and pressure. Formation Seaman No. 1 Feet Rudd No. 1 Feet...
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