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Gao, Shan; Kern, Hartmut; Liu, Yong‐Sheng; Jin, Shu‐Yan; Popp, Till; Jin, Zhen‐Min; Feng, Jia‐Lin; Sun, Min; Zhao, Zu‐Bin

Measured and calculated seismic velocities and densities for granulites from xenolith occurrences and adjacent exposed lower crustal sections: A comparative study from the North China craton

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  • Media type: E-Article
  • Title: Measured and calculated seismic velocities and densities for granulites from xenolith occurrences and adjacent exposed lower crustal sections: A comparative study from the North China craton
  • Contributor: Gao, Shan; Kern, Hartmut; Liu, Yong‐Sheng; Jin, Shu‐Yan; Popp, Till; Jin, Zhen‐Min; Feng, Jia‐Lin; Sun, Min; Zhao, Zu‐Bin
  • imprint: American Geophysical Union (AGU), 2000
  • Published in: Journal of Geophysical Research: Solid Earth
  • Language: English
  • DOI: 10.1029/2000jb900100
  • ISSN: 0148-0227
  • Keywords: Paleontology ; Space and Planetary Science ; Earth and Planetary Sciences (miscellaneous) ; Atmospheric Science ; Earth-Surface Processes ; Geochemistry and Petrology ; Soil Science ; Water Science and Technology ; Ecology ; Aquatic Science ; Forestry ; Oceanography ; Geophysics
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  • Description: <jats:p>Granulites from the Neogene xenolith‐bearing Hannuoba alkaline basalt and from the Manjinggou‐Wayaokou exposed lower crustal section in the Archean Huai 'an terrain, which occurs within and surrounds the Hannuoba basalt, provide a unique opportunity for a comparative study on petrophysical properties and composition of the lower crust represented by these two types of samples. <jats:italic>P</jats:italic> and <jats:italic>S</jats:italic> wave velocities and densities of 12 Hannuoba lower crustal xenoliths and one associated spinel Iherzolite xenolith as well as nine granulites and granulite‐facies metasedimentary rocks from the Archean Huai 'an terrain were measured in laboratory at pressures up to 600 MPa and temperatures up to 600°C. Calculations of <jats:italic>P</jats:italic> and <jats:italic>S</jats:italic> wave velocities were also made for the same suite of samples based on modal mineralogy and single‐crystal velocities whose variations with composition are considered by using microprobe analyses and velocities of end members. The measured and calculated <jats:italic>V<jats:sub>p</jats:sub></jats:italic> at room temperature and 600 MPa, where the microcrack effect is considered to be almost eliminated, agree within 4% for rocks from the Manjinggou‐Wayaokou section and the adjacent Wutai‐Jining upper crustal to upper lower crustal section. In contrast, the xenoliths show systematically lower measured <jats:italic>V<jats:sub>p</jats:sub></jats:italic> by up to 15% relative to calculated velocities, even if decompression‐induced products of kelyphite and glass are taken into account. The lower measured velocities for xenoliths are attributed to grain boundary alteration and residual porosity. This implies that although granulite xenoliths provide direct information about lower crustal constitution and chemical composition, they are not faithful samples for studying in situ seismic properties of the lower crust in terms of measured velocities due to alterations during their entrainment to the surface, which changes their physical properties significantly. In this respect, granulites from high‐grade terrains are better samples because they are not subjected to significant changes during their slow transport to the surface and because physical properties depend primarily on mineralogy in addition to pressure and temperature. On the other hand, calculated velocities for granulite xenoliths are consistent with velocities for granulites from terrains, suggesting that they can be also used to infer lower crust composition by correlating with results from seismic refraction studies.</jats:p>
  • Access State: Open Access