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Petrologic implications from the che...
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Vidito, Christopher A.
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Petrologic implications from the chemistry of olivine phenocrysts.
紀錄類型:
書目-電子資源 : Monograph/item
正題名/作者:
Petrologic implications from the chemistry of olivine phenocrysts./
作者:
Vidito, Christopher A.
出版者:
Ann Arbor : ProQuest Dissertations & Theses, : 2014,
面頁冊數:
225 p.
附註:
Source: Dissertation Abstracts International, Volume: 76-06(E), Section: B.
Contained By:
Dissertation Abstracts International76-06B(E).
標題:
Petrology. -
電子資源:
http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=3681646
ISBN:
9781321545326
Petrologic implications from the chemistry of olivine phenocrysts.
Vidito, Christopher A.
Petrologic implications from the chemistry of olivine phenocrysts.
- Ann Arbor : ProQuest Dissertations & Theses, 2014 - 225 p.
Source: Dissertation Abstracts International, Volume: 76-06(E), Section: B.
Thesis (Ph.D.)--Rutgers The State University of New Jersey - New Brunswick, 2014.
Source lithology of mantle plumes and other volcanic sources has been inferred from isotopic data for decades, however these studies cannot determine if the geochemical signature of pyroxenitic source is due to the presence of a pyroxenite, or if the geochemical signature had been imprinted upon peridotite by some metosomatic process (e.g. refertilization). Mn, Ca and Ni concentrations in olivines are used to infer the source lithology of primitive basalts. Secular cooling of the Galapagos hotspot has been established by petrologic modeling. An increase in the entrainment of relatively dense pyroxenite in the Galapagos plume over time may explain this trend in decreasing Tp with time, as pyroxenite entrainment would have a negative effect on the buoyancy of the plume. Analyses of olivines from Curacao indicates that pyroxenite was absent in the source of these Cretaceous age Galapagos plume lavas. Magmatism preserved at Quepos marks the transition of the Galapagos plume from the head (LIP) stage to the tail (hotspot track) stage. Major and trace element analyses of Quepos samples show a geochemical signal of a pyroxenite. The presence of pyroxenite as a distinct lithology in the source of these lavas is confirmed by olivine analyses. The extreme enrichment of radiogenic lead found in the lavas of Mangaia have long been interpreted as reflecting a component of ancient recycled crust and is representative of the isotopic endmember HIMU. Olivine analyses of samples from Mangaia indicate that the source of these lavas is predominantly peridotite. If the source of Mangaia had a substantial pyroxenitic component, as inferred from isotopic data, then it is likely that it had its lithological identity destroyed. This may have been the result of the refertilization of mantle periditote by the injection of silicic, pyroxenite source melt. Ni excess observed in the chemistry of olivines from various LIPs and hotspots contrast their Mn and Ca concentrations which are indicative of a peridotite source. High 3He/ 4He found in samples for which He analysis has been done, suggest a deep lower mantle source. The Ni excess may be due to the interaction between the lower mantle and the core.
ISBN: 9781321545326Subjects--Topical Terms:
535210
Petrology.
Petrologic implications from the chemistry of olivine phenocrysts.
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Source lithology of mantle plumes and other volcanic sources has been inferred from isotopic data for decades, however these studies cannot determine if the geochemical signature of pyroxenitic source is due to the presence of a pyroxenite, or if the geochemical signature had been imprinted upon peridotite by some metosomatic process (e.g. refertilization). Mn, Ca and Ni concentrations in olivines are used to infer the source lithology of primitive basalts. Secular cooling of the Galapagos hotspot has been established by petrologic modeling. An increase in the entrainment of relatively dense pyroxenite in the Galapagos plume over time may explain this trend in decreasing Tp with time, as pyroxenite entrainment would have a negative effect on the buoyancy of the plume. Analyses of olivines from Curacao indicates that pyroxenite was absent in the source of these Cretaceous age Galapagos plume lavas. Magmatism preserved at Quepos marks the transition of the Galapagos plume from the head (LIP) stage to the tail (hotspot track) stage. Major and trace element analyses of Quepos samples show a geochemical signal of a pyroxenite. The presence of pyroxenite as a distinct lithology in the source of these lavas is confirmed by olivine analyses. The extreme enrichment of radiogenic lead found in the lavas of Mangaia have long been interpreted as reflecting a component of ancient recycled crust and is representative of the isotopic endmember HIMU. Olivine analyses of samples from Mangaia indicate that the source of these lavas is predominantly peridotite. If the source of Mangaia had a substantial pyroxenitic component, as inferred from isotopic data, then it is likely that it had its lithological identity destroyed. This may have been the result of the refertilization of mantle periditote by the injection of silicic, pyroxenite source melt. Ni excess observed in the chemistry of olivines from various LIPs and hotspots contrast their Mn and Ca concentrations which are indicative of a peridotite source. High 3He/ 4He found in samples for which He analysis has been done, suggest a deep lower mantle source. The Ni excess may be due to the interaction between the lower mantle and the core.
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