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Geology of the Hackberry Mountain volcanic center, Yavapai County, ArizonaLewis, Richard Edwin. Shoemaker, E. M. January 1983 (has links)
Thesis (Ph. D.)--California Institute of Technology, 1983. UM No. 83-12,057. / Some maps on folded sheets in pocket. Advisor names found in the Acknowledgments pages of the thesis. Title from home page (viewed 04/28/2010). Includes bibliographical references.
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Dynamics of a long-lived magmatic system as indicated by variations in amphibole composition and textures in dacites erupted over 11 M.y. at the Aucanquilcha Volcanic Cluster, Central Andes, Chile /Giles, Denise E. L. January 1900 (has links)
Thesis (M.S.)--Oregon State University, 2010. / Printout. Includes bibliographical references (leaves 76-79). Also available on the World Wide Web.
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A geração de magmas ácidos na Província Magmática Paraná, região de Piraju-Ourinhos (SP): uma contribuição da geoquímica isotópica e de elementos traço em rochas e minerais / Acid magma generation in the Paraná Magmatic Province, Piraju-Ourinhos region, state of São Paulo: a contribution of isotopic geochemistry end of trace elements in rocks end mineralsFreitas, Vivian Azor de 12 May 2009 (has links)
Os dacitos da região de Piraju-Ourinhos (SP), que se estendem por cerca de 60 km acompanhando o curso do rio Paranapanema, são as exposições mais setentrionais do magmatismo ácido da Província Magmática Paraná. Estratigraficamente, jazem sobre os arenitos eólicos da Formação Botucatu e são sobrepostos por derrames de basaltos de alto Ti tipo Pitanga. Diques e soleiras de basaltos presentes na região têm afinidades químicas variadas, podendo ser comparados aos tipos Paranapanema, Urubici e Pitanga. Os traquidacitos, classificação química dessas rochas, apresentam textura porfirítica com 5 a 15% de fenocristais de plagioclásio, clinopiroxênio, minerais opacos e apatita. A matriz afanítica a fanerítica fina é composta por vidro, plagioclásio, clinopiroxênio, quartzo e feldspato alcalino. Vidro pode constituir de 10 a 90% da matriz e em muitos casos está devitrificado, mostrando texturas reliquiares de quenching. Vesículas e amígdalas são abundantes em certas variedades de traquidacitos, podendo chegar a 40% da rocha. Foi obtida neste trabalho a idade U-Pb do magmatismo ácido por TIMS em concentrados de badeleíta e zircão. O valor, 134,4 ± 0,9 (2\'sigma\'), é mais exato e preciso que as idades obtidas previamente nos traquidacitos da região, 133 -134 ± 6 Ma (K-Ar, 1\'sigma\') e 128,7 ± 1 Ma (\'ANTPOT.40 Ar\'/\'ANTPOT.39 Ar\', 1\'sigma\'), e encontra-se no curto intervalo de tempo atualmente admitido para o clímax do vulcanismo na Província. As razões iniciais \'ANTPOT.87 Sr\'/\'ANTPOT.86 Sr\' dos traquidacitos (0,7078 a 0,7080) são pouco mais radiogênicas que as dos basaltos (0,7056 a 0,7068), enquanto os valores de \'épsilon\'\'Nd IND.134\' são mais negativos (~ -5 versus -4). Tais diferenças sugerem que, embora os basaltos devam ter vínculo genético com o magmatismo ácido da região, deve existir alguma contribuição crustal na gênese das rochas vulcânicas ácidas. As razões iniciais \'ANTPOT.87 Sr\'/\'ANTPOT.86 Sr\' obtidas por LA-ICPMS mostram valores idênticos na matriz e em fenocristais de plagioclásio e apatita (~0,7077), consistentes com cristalização em equilíbrio. Com exceção de um cristal de plagioclásio que é fortemente mais radiogênico (~0,7083) e outro menos radiogênico (~0,7074), podendo corresponder a duas diferentes suítes de antecristais. A maioria dos fenocristais de clinopiroxênio tem razões iniciais \'ANTPOT.87 Sr\'/\'ANTPOT.86 Sr\' diferentes da matriz [em geral menores, entre 0,7045 e 0,7071; somente um cristal é mais radiogênico, 0,7084]. Junto com dois fenocristais de plagioclásio (com \'ANTPOT.87 Sr\'/\'ANTPOT.86 Sr\' inicial de 0.7083 e 0.7074), eles não se formaram em equilíbrio com a matriz, e são prováveis antecristais. Modelamentos geoquímicos utilizando elementos maiores e elementos traço compatíveis e incompatíveis mostram que é possível obter o magma ácido após a cristalização fracionada de 60 a 80% de basalto tipo Pitanga. O principal obstáculo para esse modelo seria o hiato composicional de sílica entre os magmas ácidos e básicos; no entanto, esse hiato pode resultar de limitações físicas impostas à separação cristal-líquido em composições intermediárias e à extração por filter pressing de líquidos residuais mais evoluídos. As pequenas diferenças nas razões isotópicas de Sr e Nd entre as rochas ácidas e básicas podem ser explicadas por um modelo de AFC com 60% de cristalização de um magma basáltico e assimilação de 10-30% de líquido granítico derivado do embasamento pré-Cambriano. Por outro lado, o modelo de refusão de underplates basálticos prevê a geração de magmas ácidos com teores de elementos compatíveis (Ni, Cr e V) mais elevados, e portanto demandariam fracionamento para alcançar as composições observadas nos traquidacitos. / Dacitic rocks from Piraju-Ourinhos, State of São Paulo, outcrop for ca. 60 km along the Paranapanema River valley, and constitute the northernmost expositions of the Parana Magmatic Province acid magmatism. They rest directly over the Botucatu Formation eolic sandstones and are recovered by Pitanga-type high Ti basalt flows. Basalt dykes and sills that occur in the region show different chemical relationship and can be compared to the Paranapanema, Urubici and Pitanga basalt types. Chemically classified as trachydacites, these rocks are porphyritic with 5 to 15% plagioclase, clinopyroxene, opaque minerals and apatite phenocrysts. Aphanitic to phaneritic groundmass is composed of glass, plagioclase, clinopyroxene, quartz and alkali feldspar. Glass can make up 10 to 90% of the original groundmass and is usually devitrified, being recognized by relict quenching textures. Vesicles and amygdalas are abundants in such trachydacites varieties and can achieve to 40% of rock. In this work, the age of the acid magmatism was obtained by U-Pb TIMS in baddeleyite and zircon concentrates. The value [134.4 0,9 (2\'sigma\')], is more accurate and precise compared with ages previously obtained in the trachydacites from region [133 -134 ± 6 Ma (K-Ar); 128.7 ± 1 Ma (\'ANTPOT.40 Ar\'/\'39 ANTPOT.Ar\')], and within the short age interval currently admitted for the Paraná volcanism climax. Initial \'ANTPOT.87 Sr\'/\' ANTPOT.86 Sr\' ratios of the trachydacites (0.7078 to 0.7080) are slightly more radiogenic than those of associated basalts (0.7056 to 0.7068), whereas \'épsilon\'\'Nd IND.134\' are more negative (~ -5 versus -4). These differences suggest that, although the basalts must have a genetic link with the acid magmatism of region, some crustal contribution may exist in the acid magmas. Initial \'ANTPOT.87 Sr\'/\'ANTPOT.86 Sr\' obtained by LA-ICPMS show identical values for the groundmass and plagioclase and apatite phenocrysts (~0.7077), consistent with equilibrium crystallization. Most of the clinopyroxene phenocrysts have initial \'ANTPOT.87 Sr\'/\'ANTPOT.86 Sr\' different from the groundmass (usually smaller; 0.7045-0.7071; only one crystal is more radiogenic, 0.7084). Together with two the plagioclase phenocrysts (with initial \'ANTPOT.87 Sr\'/\'ANTPOT.86 Sr\'= 0.7083 and 0.7074), they did not crystallize in equilibrium to the groundmass, and are likely antecrysts. Geochemical modelling using major elements and both compatible and incompatible trace-elements show that it is possible to obtain the acid magmas after 60 to 80% fractional crystalization of a Pitanga-type basalt. The main obstacle for such model would be the wide compositional silic gap between acid and basic magmas.; however, this gap could result from physical limitations to crystal-liquid separation at intermediate compositions and to the extraction by filter pressing of more evolved residual liquids. The small differences in Sr-Nd isotopic signature between acid and basic rocks can be explained by an AFC model, with 60% of basaltic magma crystalization plus ~10-30% assimilation of a granitic liquid derived from the pre- Cambrian basament. On the other hand, a model of remelting of basalt underplates generates acid magmas with higher contents of compatible elements contents (Ni, Cr, V) and therefore would demand some fractionation to achieve the observed trachydacite compositions.
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A geração de magmas ácidos na Província Magmática Paraná, região de Piraju-Ourinhos (SP): uma contribuição da geoquímica isotópica e de elementos traço em rochas e minerais / Acid magma generation in the Paraná Magmatic Province, Piraju-Ourinhos region, state of São Paulo: a contribution of isotopic geochemistry end of trace elements in rocks end mineralsVivian Azor de Freitas 12 May 2009 (has links)
Os dacitos da região de Piraju-Ourinhos (SP), que se estendem por cerca de 60 km acompanhando o curso do rio Paranapanema, são as exposições mais setentrionais do magmatismo ácido da Província Magmática Paraná. Estratigraficamente, jazem sobre os arenitos eólicos da Formação Botucatu e são sobrepostos por derrames de basaltos de alto Ti tipo Pitanga. Diques e soleiras de basaltos presentes na região têm afinidades químicas variadas, podendo ser comparados aos tipos Paranapanema, Urubici e Pitanga. Os traquidacitos, classificação química dessas rochas, apresentam textura porfirítica com 5 a 15% de fenocristais de plagioclásio, clinopiroxênio, minerais opacos e apatita. A matriz afanítica a fanerítica fina é composta por vidro, plagioclásio, clinopiroxênio, quartzo e feldspato alcalino. Vidro pode constituir de 10 a 90% da matriz e em muitos casos está devitrificado, mostrando texturas reliquiares de quenching. Vesículas e amígdalas são abundantes em certas variedades de traquidacitos, podendo chegar a 40% da rocha. Foi obtida neste trabalho a idade U-Pb do magmatismo ácido por TIMS em concentrados de badeleíta e zircão. O valor, 134,4 ± 0,9 (2\'sigma\'), é mais exato e preciso que as idades obtidas previamente nos traquidacitos da região, 133 -134 ± 6 Ma (K-Ar, 1\'sigma\') e 128,7 ± 1 Ma (\'ANTPOT.40 Ar\'/\'ANTPOT.39 Ar\', 1\'sigma\'), e encontra-se no curto intervalo de tempo atualmente admitido para o clímax do vulcanismo na Província. As razões iniciais \'ANTPOT.87 Sr\'/\'ANTPOT.86 Sr\' dos traquidacitos (0,7078 a 0,7080) são pouco mais radiogênicas que as dos basaltos (0,7056 a 0,7068), enquanto os valores de \'épsilon\'\'Nd IND.134\' são mais negativos (~ -5 versus -4). Tais diferenças sugerem que, embora os basaltos devam ter vínculo genético com o magmatismo ácido da região, deve existir alguma contribuição crustal na gênese das rochas vulcânicas ácidas. As razões iniciais \'ANTPOT.87 Sr\'/\'ANTPOT.86 Sr\' obtidas por LA-ICPMS mostram valores idênticos na matriz e em fenocristais de plagioclásio e apatita (~0,7077), consistentes com cristalização em equilíbrio. Com exceção de um cristal de plagioclásio que é fortemente mais radiogênico (~0,7083) e outro menos radiogênico (~0,7074), podendo corresponder a duas diferentes suítes de antecristais. A maioria dos fenocristais de clinopiroxênio tem razões iniciais \'ANTPOT.87 Sr\'/\'ANTPOT.86 Sr\' diferentes da matriz [em geral menores, entre 0,7045 e 0,7071; somente um cristal é mais radiogênico, 0,7084]. Junto com dois fenocristais de plagioclásio (com \'ANTPOT.87 Sr\'/\'ANTPOT.86 Sr\' inicial de 0.7083 e 0.7074), eles não se formaram em equilíbrio com a matriz, e são prováveis antecristais. Modelamentos geoquímicos utilizando elementos maiores e elementos traço compatíveis e incompatíveis mostram que é possível obter o magma ácido após a cristalização fracionada de 60 a 80% de basalto tipo Pitanga. O principal obstáculo para esse modelo seria o hiato composicional de sílica entre os magmas ácidos e básicos; no entanto, esse hiato pode resultar de limitações físicas impostas à separação cristal-líquido em composições intermediárias e à extração por filter pressing de líquidos residuais mais evoluídos. As pequenas diferenças nas razões isotópicas de Sr e Nd entre as rochas ácidas e básicas podem ser explicadas por um modelo de AFC com 60% de cristalização de um magma basáltico e assimilação de 10-30% de líquido granítico derivado do embasamento pré-Cambriano. Por outro lado, o modelo de refusão de underplates basálticos prevê a geração de magmas ácidos com teores de elementos compatíveis (Ni, Cr e V) mais elevados, e portanto demandariam fracionamento para alcançar as composições observadas nos traquidacitos. / Dacitic rocks from Piraju-Ourinhos, State of São Paulo, outcrop for ca. 60 km along the Paranapanema River valley, and constitute the northernmost expositions of the Parana Magmatic Province acid magmatism. They rest directly over the Botucatu Formation eolic sandstones and are recovered by Pitanga-type high Ti basalt flows. Basalt dykes and sills that occur in the region show different chemical relationship and can be compared to the Paranapanema, Urubici and Pitanga basalt types. Chemically classified as trachydacites, these rocks are porphyritic with 5 to 15% plagioclase, clinopyroxene, opaque minerals and apatite phenocrysts. Aphanitic to phaneritic groundmass is composed of glass, plagioclase, clinopyroxene, quartz and alkali feldspar. Glass can make up 10 to 90% of the original groundmass and is usually devitrified, being recognized by relict quenching textures. Vesicles and amygdalas are abundants in such trachydacites varieties and can achieve to 40% of rock. In this work, the age of the acid magmatism was obtained by U-Pb TIMS in baddeleyite and zircon concentrates. The value [134.4 0,9 (2\'sigma\')], is more accurate and precise compared with ages previously obtained in the trachydacites from region [133 -134 ± 6 Ma (K-Ar); 128.7 ± 1 Ma (\'ANTPOT.40 Ar\'/\'39 ANTPOT.Ar\')], and within the short age interval currently admitted for the Paraná volcanism climax. Initial \'ANTPOT.87 Sr\'/\' ANTPOT.86 Sr\' ratios of the trachydacites (0.7078 to 0.7080) are slightly more radiogenic than those of associated basalts (0.7056 to 0.7068), whereas \'épsilon\'\'Nd IND.134\' are more negative (~ -5 versus -4). These differences suggest that, although the basalts must have a genetic link with the acid magmatism of region, some crustal contribution may exist in the acid magmas. Initial \'ANTPOT.87 Sr\'/\'ANTPOT.86 Sr\' obtained by LA-ICPMS show identical values for the groundmass and plagioclase and apatite phenocrysts (~0.7077), consistent with equilibrium crystallization. Most of the clinopyroxene phenocrysts have initial \'ANTPOT.87 Sr\'/\'ANTPOT.86 Sr\' different from the groundmass (usually smaller; 0.7045-0.7071; only one crystal is more radiogenic, 0.7084). Together with two the plagioclase phenocrysts (with initial \'ANTPOT.87 Sr\'/\'ANTPOT.86 Sr\'= 0.7083 and 0.7074), they did not crystallize in equilibrium to the groundmass, and are likely antecrysts. Geochemical modelling using major elements and both compatible and incompatible trace-elements show that it is possible to obtain the acid magmas after 60 to 80% fractional crystalization of a Pitanga-type basalt. The main obstacle for such model would be the wide compositional silic gap between acid and basic magmas.; however, this gap could result from physical limitations to crystal-liquid separation at intermediate compositions and to the extraction by filter pressing of more evolved residual liquids. The small differences in Sr-Nd isotopic signature between acid and basic rocks can be explained by an AFC model, with 60% of basaltic magma crystalization plus ~10-30% assimilation of a granitic liquid derived from the pre- Cambrian basament. On the other hand, a model of remelting of basalt underplates generates acid magmas with higher contents of compatible elements contents (Ni, Cr, V) and therefore would demand some fractionation to achieve the observed trachydacite compositions.
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Archaeometric Investigations Of Stone Deterioration In Kalecik (ankara) CastleAkoglu, Alp Osman 01 February 2012 (has links) (PDF)
Kalecik Castle is an important historical building. However, dacitic building stone sed is deteriorating mainly because of atmospheric conditions. The purpose of this tudy is to understand the deterioration mechanisms affecting the dacitic stones used n the castle&rsquo / s walls. To achieve this purpose various arhaeometrical methods such as etrography, X-ray diffraction analyses, analyses for determining physical poperties density, porosity, and water absorption capacities), ultrasonic velocity easurements and some mechanical tests are used.
The results of this study show that the deterioration of Kalecik Castle results mostly rom physical factors such as frost action, wetting and drying and thermal shock.
According to the study, chemical and biological factors that may also be an mportant cause of deterioration are negligible in Kalecik Castle&rsquo / s building stones.
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Insight into the Evolving Composition of Augustine Volcano's Source Magma from a Low-K DaciteThomas, Christian 04 October 2018 (has links)
No description available.
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Pre-Eruptive Conditions of the Oligocene Wah Wah Springs Tuff, Southeastern Great Basin Ignimbrite ProvinceWoolf, Kurtus Steven 06 August 2008 (has links) (PDF)
The Wah Wah Springs Tuff (30.0 Ma) is one of several very large volume ash-flow tuffs (>3200 km³ of erupted magma) that were emplaced near the peak of the flare-up of activity in the Great Basin ignimbrite province of western North America. It can be characterized as a "monotonous intermediate" ignimbrite because of its intermediate concentrations of silica (~63 to ~70 wt. %), apparent uniform chemical and mineralogical characteristics, and crystal-rich nature (32 ± 10 % phenocrysts on a dense rock basis). The major phase assemblage found throughout deposit is similar to other monotonous intermediates with a few exceptions (pl > hnbl > bio, qtz >> cpx, opx > mt, ilm, ap, zcn, and po). Based on experiments on the monotonous intermediate Fish Canyon Tuff (Johnson & Rutherford, 1989a) and this phase assemblage, the Wah Wah Springs magma equilibrated between 775°C – 800°C. One hornblende-plagioclase thermometer with or without quartz (Holland & Blundy, 1994) and one Fe-Ti oxides thermometer (Anderson et al., 1993) most consistently yield temperatures within this range. The Fe-Ti oxides oxy barometer (Anderson et al., 1993) yield fO2 estimates 2 – 3 log units above the quartz-fayalite-magnetite buffer. The Al-in-hornblende geobarometer (Johnson & Rutherford 1989b) indicates pressures between 2.0 and 2.5 kb. Detailed compositional profiles across hornblende and plagioclase grains help constrain how intensive parameters changed during the evolution of the magma shortly before eruption. Plagioclase in the Wah Wah Springs displays oscillatory zonation with overall normal zonation (a maximum change of about An5 from core to rim). Hornblende is also zoned in Al2O3 and TiO2 which typically decrease as much as 2.5 wt. % and 1 wt. % respectively from core to rim. These zoning patterns are consistent with a decrease of temperature from core to rim that accompanied progressive crystallization of a large body of magma that closely approached equilibrium. These conditions in the parent magma for the Wah Wah Springs differ from interpretations of mineral compositions in the Fish Canyon Tuff which led Bachman et al., (2002) to propose that the near solidus magma body was "rejuvenated" or reheated immediately prior to eruption. This model cannot be applied to the Wah Wah Springs. Rather, the Wah Wah Springs magma appears to have been cooling and crystallizing prior to eruption.
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Magma Mixing and Dome Formation: Dacite of East Pass Creek, ColoradoStreffon, Jenna C. 09 August 2019 (has links)
No description available.
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Meeting of the magmas : the evolutionary history of the Kalama Eruptive Period, Mount St. Helens, WashingtonLieuallen, Athena Erin 14 October 2010 (has links)
Comprehension of eruptive histories is critical in understanding the evolution of magmatic systems at arc volcanoes and may supply evidence to the petrogenesis of intermediate and evolved magmas. Within the 300 ka eruptive history of Mount St. Helens, Washington, the Kalama Eruptive Period, 1479- ~1750 CE was bracketed by interludes of quiescence (Hoblitt et al., 1980) and thus likely represents an entire eruptive cycle within a span of 300 years. Study of the magmatic evolution during this short time period provides key information regarding inputs and the plumbing system of Mount St. Helens. This research aims to enhance comprehension of processes leading to the petrogenesis of intermediate magmas by providing whole rock and phase geochemical data of an eruptive cycle, thereby providing constraints on the magmatic evolution of the Kalama Eruptive Period.
The eruptive sequence is divided into early, middle and late subperiods. The early Kalama began with two dacitic plinian eruptions and continued with smaller eruptions of dacite domes (64.4-66.5 wt% SiO₂) that included quenched mafic inclusions (53.7-57.7 wt% SiO₂). The middle Kalama signified the onset of basaltic andesite and andesite eruptions ranging between 55.5-58.5 wt % SiO₂. Subsequently, summit domes that began as felsic andesite (61-62.5 wt% SiO₂) and transitioned to dacite (62.5-64.6 wt% SiO₂) dominated the late Kalama. Previous work on Kalama-aged rocks suggests magma mixing is an integral process in their production. Compositions and textures of crystal phases, in addition to the presence of xenocrysts in middle and late Kalama rocks, confirm mechanical mixing of magmas likely produced many of the sampled compositions.
New petrographic observations were integrated with new whole rock and phase EMP and LA-ICP-MS data and the known stratigraphy in order to constrain the magmatic and crustal components active during the Kalama Eruptive Period. New findings include:
1. Two populations of quenched mafic inclusions, one olivine-rich and one olivine-poor, are identified from the early Kalama based on mineralogy, textures, and major and trace element chemistry. Major element modeling shows crustal anatexis of plutonic inclusions found in early Kalama dacites could produce the felsic magma source of the olivine-poor population. The olivine-rich population incorporated cumulate material.
2. Four distinct lava populations erupted during the early part of the middle Kalama (X lavas), including two found exclusively in lahar deposits: M-type lahars are the most mafic, B-type lahars are more mixed, the Two Finger Flow was previously grouped with other middle Kalama-age lavas, and the X lava (in situ) has unique geochemical and textural character. X tephras likely correlate with the lavas.
3. There were at least three mafic source contributions at Mount St. Helens during the eruptive period: the parent to the X deposits, the cumulate material in the olivine-rich QMIs, and the calc-alkaline parent to the MKLV and SDO.
The magma reservoir at Mount St. Helens has been modeled as a single, elongate chamber (Pallister et al., 1992). Multiple coeval basaltic or basaltic andesite parents fluxing into the magmatic system beneath the volcano could indicate a more complex magma chamber structure. / Graduation date: 2011
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Mid-Miocene Magmatic System Development in the Northwestern United StatesBrueseke, Matthew Edward 12 April 2006 (has links)
No description available.
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