• Title/Summary/Keyword: major element and rare earth element analyses

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Petrologic and Mineralogic Studies on the Origin of Paleolithic Obsidian Implements from Wolseongdong, Korea (월성동 구석기 유적 출토 흑요석제 석기의 암석 및 광물학적 연구를 통한 원산지 추정)

  • Jang, Yun-Deuk;Park, Tae-Yoon;Lee, Sang-Mok;Kim, Jeong-Jin
    • Journal of the Korean earth science society
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    • v.28 no.6
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    • pp.733-742
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    • 2007
  • Petrological, mineralogical, and geochemical analyses were carried on the paleolithic obsidian implements excavated at Wolseongdong, Daegu, Korea. The obsidians has a homogeneous glassy texture that can be observed in a typical obsidian formed from a rapid cooling of silicic magma. Major element composition of the obsidians represent calc-alkaline series. Comparing those with other obsidians from domestic local excavation sites, Mt. Baekdu, and Kyusu of Japan, the Wolseongdong obsidians show similar element distribution pattern with others in spite of small difference in trace and rare Earth element contents. Sr isotopes of the obsidians considerably differ from those of the obsidians from southern part of the Korean Peninsula or from Mt. Baekdu. K-Ar age is approximately 30 Ma, which is much older than Mt. Baekdu (10 Ma). Therefore, considering the characteristics of obsidians found in the Korean Peninsula including mineralogy, petrology, trace element, and isotopes chronology, the obsidians can be divided into four groups: Mt. Baekdu, southern part of Korea (Kyusu of Japan), middle part of Korea, and Wolseongdong region. These groups suggest a possibility of more than four different origins of the obsidians found in the Korean Peninsular.

A Scientific Study on the Characteristics of Ridge-end Tiles from the Temple Sites in the Period of the Sabi Baekje (사비백제시기 사찰지 출토 치미 특성에 대한 과학적 연구)

  • Lee, Minhee;Hwang, Hyunsung;Shin, Yeonhong
    • Journal of Conservation Science
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    • v.35 no.5
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    • pp.430-439
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    • 2019
  • This study investigates the characteristics of ridge-end tiles excavated from temple sites in Sabi Baekje. Analyses were carried out to evaluate the chemical and mineralogical compositions of the excavated samples. All the samples except one from the Gunsu-ri temple exhibit a similar element distribution pattern in rare earth element contents. However, major and trace element contents differ because the mixing method used in each sample depends on the type of ridge-end tile. The mineral components of the tiles were grouped into three types, irrespective of the excavated areas. Group 2 and 3 were probably developed in high-temperature fires in comparison with Group 1; this is verified by the Fe2O3 content of more than 5 wt% in these samples. In conclusion, the raw materials utilized in each ridge-end tile are prone to have changed according to the time of use of the tile, regardless of the excavated site.

Properties of Deposits and Geomorphic Formative Ages on Marine Terraces in Gwangyang Bay, South Sea of Korea (광양만 일대 해안단구의 퇴적물 특성과 지형 형성시기)

  • Lee Gwang-Ryul;Park Chung-Sun
    • Journal of the Korean Geographical Society
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    • v.41 no.3 s.114
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    • pp.346-360
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    • 2006
  • In order to analyze synthetically geomorphological processes of marine terrace in Korea, this study deals with the distribution of marine terraces, stratification of sedimentary layers, physicochemical properties of deposits, and formative ages of marine terraces based on OSL(Optically Stimulated Luminescence) absolute age at coastal area of Gwangyang Bay in central part of the South Coast. As a result of comparison with physicochemical properties on diverse geomorphic materials, there is not enough distinction in them, because of recycling and mixing of materials at Gwangyang Bay having a geomorphic closure. In Gwangyang bay coast, marine terraces are discovered at least 3 levels and have a small area. Formative age of 1st Terrace, as the lowest level ranging in $10{\sim}13m$ above the sea level, is estimated at MIS(Marine Isotope Oxygen Stage) 5a, based on OSL age dating and properties of deposits. Uplifting rate is calculated at 0.141m/ka in Gwangyang bay coast. For application to this rate, 2nd terrace($18{\sim}22m$) is estimated at MIS 5e, 3rd terrace($27{\sim}32m$) is latter part of MIS 7. Consequently, we might conclude that uplifting and geomorphic process of marine terrace in South Coast is similar to East Coast during the Late Pleistocene in Korea.