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21	Mechanisms of magma disaggregation in a cooler host volcanic, plutonic, and theoretical considerations / Banik, Tenley Jill. January 2008 (has links) Thesis (M.S. in Earth and Environmental Sciences)--Vanderbilt University, Aug. 2008. / Title from title screen. Includes bibliographical references.
22	The determination of the fusing point of a few igneous and metamorphic rocks Perkins, Fred H. January 1900 (has links) (PDF) Thesis (B.S.)--University of Missouri, School of Mines and Metallurgy, 1900. / The entire thesis text is included in file. Typescript. Illustrated by author. Title from title screen of thesis/dissertation PDF file (viewed December 22, 2008)
23	Hydrothermal phenomena in the western lobe of the St. Austell granite, Cornwall Allman-Ward, Patrick January 1982 (has links) No description available. 551
24	Experiments on ultramafic rocks and volatiles at high temperatures and pressures. Watson, Robert Brian Fraser January 1964 (has links) The mechanism of emplacement of ultramafic intrusions has been a controversial subject for many years. This thesis summarizes evidence favoring the intrusion of ultramafic rocks as magmas. Experiments were conducted to study the effect on the melting behavior or ultramafic rocks of carbon dioxide, sodium, sulphur and water at temperatures up to 925°C. and pressures up to 2125 atmospheres. No melts were produced but it is felt that the evidence presented justifies further work on the problem. / Applied Science, Faculty of / Mining Engineering, Keevil Institute of / Graduate Igneous rocks Thermochemistry Geology, Structural
25	Petrology of several late tertiary gabbroic plugs in the south Cariboo region, British Columbia Farquharson, Robin Bruce January 1965 (has links) Four olivine gabbro plugs crop out on the basaltic plateau in the south Cariboo region of British Columbia. The plugs form elliptical knobs of unaltered gabbro which stand 100 to 200 feet above the plateau surface. They are 300 to 600 feet in greatest diameter, as seen in plan view. Two plugs, Mt. Begbie and Forestry Hill, are described in detail in this thesis. Alignment of tabular feldspar grains resulting from the upward flow of magma, has produced a foliation in both Mt. Begbie and Forestry Hill plugs. Foliation dips toward the centre at moderate to steep angles in both plugs. Small, scattered lenses of leucogabbro and picritic gabbro lie approximately in the plane of foliation. Marginal foliation is assumed to be roughly parallel to the walls of the plug. Foliation trends indicate that both plugs are funnel-shaped, increasing in diameter toward the surface. The essential minerals of the plugs are olivine, calcic-augite and plagioclase. They are strongly zoned indicating a disequilibrium environment of crystallization. From a consideration of mineralogical and chemical characteristics it is concluded that the original magma was an alkali basalt magma. Differentiation by fractional crystallization produced small volumes of marginal dolerite and pegmatitic gabbro in the outer portions of Mt. Begbie plug. The trend of differentiation leads to iron-enrichment in the marginal dolerite, and then to alkali-enrichment in the pegmatitic gabbro. The four plugs occupy former volcanic vents which, in late Tertiary time, fed lava to the surrounding plateau. The exposed portions of the plugs crystallized possibly within 50 to 150 feet of the surface. General geological relationship, petrological similarity, and the close comparison of fused whole-rock powders suggest a definite kinship of the plugs to the surrounding basaltic lava. / Science, Faculty of / Earth, Ocean and Atmospheric Sciences, Department of / Graduate Petrology -- British Columbia Igneous rocks
26	Petrography and petrology of the igneous intrusive in Woodson County, Kansas Sleeman, Lyle Herman January 2011 (has links) Digitized by Kansas State University Libraries Petrology--Kansas--Woodson County Igneous rocks
27	The petrology and petrography of the igneous rocks of Riley County, Kansas Bridge, Thomas E. January 1953 (has links) Call number: LD2668 .T4 1953 B7 / Master of Science Igneous rocks--Kansas--Riley County. Masters theses
28	A geochemical comparison of some barren and mineralized igneous complexes of southern Arizona Bolin, David Samuel, 1941- January 1976 (has links) No description available. Geochemistry -- Arizona. Igneous rocks -- Analysis. maps
29	Geological studies of igneous rocks and their relationships along the Kyrenia Range, Northern Cyprus Huang, Kuan, 黃寬 January 2008 (has links) published_or_final_version / Earth Sciences / Master / Master of Philosophy Igneous rocks - Cyprus. Geology, Structural - Cyprus.
30	The origin and petrogenesis of the ultramafic enclaves at Unki mine, Selukwe Subchamber, Great Dyke, Zimbabwe Ncube, Sinikiwe 05 March 2014 (has links) The unique Selukwe Subchamber of the Great Dyke is bounded by the Shurugwi greenstone belt (SGB) on the west side for approximately 25 km and granitoids on the east side, as compared to other subchambers of the Great Dyke that are bounded on both sides by granitoids. It is also the narrowest section of the entire Great Dyke. The extensive xenolith suite is found on the western flank and the central zone of the subchamber. This study focuses on the PAR 11 borehole and the surface xenoliths in the Selukwe Subchamber (SSC). The PAR 11 core was drilled into an anomalous sequence of ultramafic rocks situated in the Mafic Succession of the SSC. There are basically two rock types in the PAR 11 borehole: peridotites and pyroxenites. Comparison of the major and trace element geochemistry of the PAR 11 body with the MR 92 data of Coghill (1994) for the SSC reveals that they are similar but less evolved. The mineral assemblages and proportions of phases in the PAR 11 borehole samples are indicative of essentially the same composition as that which formed the layered sequence of the Great Dyke. Therefore, on the basis of the rock types and chemical compositions, the PAR 11 body and the Great Dyke cumulates appear to be petrologically and chemically similar and had the same petrogenesis. There are three rock types in the xenolith suite that have been observed in the mafic succession of the Unki area: peridotites, pyroxenites and gabbros. Major and trace elements show a wide range of compositions that have CaO/Al2O3 ~ 1, which are dissimilar to both PAR 11 and MR 92 borehole data. REE patterns show depletion of LREE, with flat HREEs indicating a different magma to that which gave rise to the Great Dyke. Such flat patterns are typical of a primitive mantle source similar to that of komatiite magma. Stowe, (1974) describes dunite and chromite in the SGB and does not describe pyroxenites and gabbros. Therefore, it is not clear in the first instance that the xenoliths were derived from the SGB. It also does not necessarily mean that these rock types did not occur in the SGB and, if they did, maybe they were derived from an intrusion within the SGB that is at depth and never been seen iv before. The xenoliths do not have mineral compositions that are similar to the Great Dyke and therefore precludes them as having been derived from the Great Dyke Marginal Facies, a possible source of such rocks. Therefore, it is concluded from this study that they were inherited from another source which also does not appear to be the SGB because there is no report of such rock types (other than peridotite) in the SGB. They are also not mantle derived. The metasedimentary rocks that occur as xenoliths are banded iron formation and quartzites and are all clearly derived from the different formations of the SGB. The quartzites are from the Mont d’Or Formation and Wanderer Formation. The BIFs are from the Upper Greenstone and Wanderer Formation. The Shurugwi Greenstones were stripped off from the western flank whereas the Archean granitoids to the eastern flank of the Great Dyke remained. The conclusion from this study is that the Shurugwi greenstones and Archean granitoids of the Selukwe area were intruded by the large volume of new magma that was the parental magma to the Great Dyke. The hot parental magma carried up with it xenoliths from outside the Great Dyke and large blocks from within the Great Dyke to the uppermost rocks of the level of the P1 pyroxenite layer and mafic unit. Ultrabasic rocks - Zimbabwe. Igneous rocks - Inclusions.

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