Spelling suggestions: "subject:"deology, estratigraphic precambrian."" "subject:"deology, estratigraphic precambriano.""
11 |
Geochronology of older Precambrian rocks in Gila County, ArizonaLivingston, Donald Everett January 1969 (has links)
A sequence of Older Precambrian volcanic and sedimentary rocks more than 15,000 feet thick occurs in the Blackjack Mountains and White Ledges, 20 miles north of Globe, Arizona. This sequence consists of (from older to younger) the Redmond formation (acidic volcanic rocks) and the Hess Canyon group (clastic sedimentary rocks). The Hess Canyon group is subdivided into: the White Ledges formation (interbedded quartzites and argillaceous rocks); the Yankee Joe formation (argillaceous strata with interbedded graywackes and arkoses); and the Blackjack formation (argillaceous quartzites). These rocks have been intruded by the Ruin Granite (a porphyritic quartz monzonite) and subsequently eroded to approximately the present level of exposure prior to the deposition of the Younger Precambrian Apache Group. The unconformity between the Older and Younger Precambrian strata is well exposed at Butte Creek north of Haystack Butte. Diabase has intruded the Blackjack formation, the Ruin Granite and the Apache Group. No Paleozoic or Mesozoic rocks are known to occur within the surveyed area. Sediments and volcanic and sedimentary rocks of Tertiary and Quaternary age partly conceal the older rocks. The Hess Canyon group can be correlated with the Deadman Quartzite, Maverick Shale, and Mazatzal Quartzite of the Mazatzal Mountains (Wilson 1939a) and also the Houden Formation of the Diamond Butte Quadrangle (Gastil 1958). Whole rock Rb-Sr dating indicates an age of 1,510 ± m.y. for the Redmond formation. Isotopic dating of the Ruin Granite near the Blackjack Mountains and of the granitic rocks intruded the Mazatzal Quartzite of Four Peaks in the southern Mazatzal Mountains indicates that the Mazatzal Orogeny (the Mazatzal Revolution of Wilson, 1939a) occurred 1,425 to 1,380 m.y. ago in central Arizona. This orogeny followed the deposition of the Mazatzal Quartzite and the Hess Canyon group, terminating older Precambrian time in Arizona and was followed by the deposition of the Younger Precambrian Apache Group. Isotopic dating of volcanic metamorphic and plutonic rocks in the Pinal and Tortilla Mountains and near Roosevelt Dam on the Salt River indicate that portions of the Pinal Schist in the type locality are greater than 1,730 m.y. old and that these rocks have experienced a complex series of events in Older Precambrian times. The Madera Diorite of Ransome (1903) consists of rocks 1,730 ± 30 m.y. old as well as rocks about 1,500 m.y. old. The Older Precambrian igneous rocks in this part of Arizona appear to have developed from material similar in Rb to Sr ratio to average shallow continental crust. These rocks formed during the interval 1,730 to 1,370 m.y. ago. The continental crust in this region probably originated no earlier than about 1,800 m.y. ago. Igneous rocks younger than 1,370 m.y. have not been derived soley from average shallow crustal material.
|
12 |
GEOLOGY OF AND EXPLORATION TECHNIQUES FOR PRE-BELTIAN TALC DEPOSITS ON THE MALESICH RANCH, RUBY RANGE, MADISON COUNTY, MONTANA.Piniazkiewicz, Robert Joseph., Piniazkiewicz, Robert Joseph. January 1984 (has links)
No description available.
|
13 |
Birrimian metamorphic and associated granitic rocks (Precambrian), south-central Ghana, West AfricaFakundiny, Robert H. 27 June 2011 (has links)
The Birrimian System forms most of the exposed Precambrian shield of West Africa. About half of Ghana is underlain by Birrimian metamorphic and granitic rocks. In the Dunkwa S. E. area (Field Sheet 48) of south-central Ghana, interlayered sedimentary and volcanic rocks were metamorphosed to greenschist and amphibolite facies. These sheared and tightly folded metamorphic rocks have incipient retrograde metamorphism of biotite and garnet to chlorite or hornblende to biotite. Two large intrusive bodies in the metamorphic terrain may be partly the result of granitization: (1) the Pra River complex, an albitized laccolith or sill, consisting of quartz monzonite, quartz diorite, and granodiorite; (2) the Twifu Praso complex of albite granite and granodiorite gneiss. All of the above rocks were folded along northeast-trending fold axes. Then a third granitic body, the Wuwu River albitized quartz monzonite, intruded and locally re-folded the older rocks. / text
|
14 |
Precambrian geology and ore deposits of the Mayer-Crown King area, Yavapai County, ArizonaDeWitt, Ed January 1976 (has links)
No description available.
|
15 |
The metamorphosed alteration zone associated with the Bruce Precambrian volcanogenic massive sulfide deposit, Yavapai County, ArizonaLarson, Peter Brennan, 1951- January 1976 (has links)
No description available.
|
16 |
The precambrian geology of the Montauban area, Quebec.Pyke, D. R. January 1967 (has links)
No description available.
|
17 |
The Opemisca Lake pluton : a petrological and geochemical study.Wolhuter, Louis Ernest. January 1968 (has links)
No description available.
|
18 |
A geochronologic and stratigraphic study of the Precambrian rocks north of Montreal.Barton, Jackson Mounce. January 1971 (has links)
No description available.
|
19 |
The geometry and controls on basement-involved deformation in the Adelaide Fold Belt, South Australia / by Eike Gunther Paul.Paul, Eike Gunther January 1998 (has links)
Copies of author's previously published articles inserted. / Bibliography: leaves 142-159. / xiv, 159, [47] leaves : ill., maps ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Focuses on understanding the controls of distribution of continental deformation from the perspective of structural and metamorphic investigations, using the 500 Ma Adelaide Fold Belt in South Australia as a case study. Of particular interest is the relative roles of compositional, thermal and structural controls on the distribution of deformation at the scale of an orogen. / Thesis (Ph.D.)--University of Adelaide, Dept. of Geology and Geophysics, 1999?
|
20 |
Contributions to palaeontology and stratigraphic correlation of the late precambrian in China and Australia / by Sun Weiguo (W.G. Sun)Sun, Weiguo January 1985 (has links)
1 v. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Geology and Geophysics, 1986
|
Page generated in 0.4384 seconds