• Title/Summary/Keyword: Ar-Ar 연대

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40Ar-39Ar Age Determination for the Quaternary Basaltic Rocks in Jeongok Area (전곡 지역 제4기 현무암질 암석의 40Ar-39Ar 연대 측정)

  • Kim, Jeongmin;Choi, Jeong-Heon;Jeon, Su In;Park, Ul Jae;Nam, Seong Soo
    • The Journal of the Petrological Society of Korea
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    • v.23 no.4
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    • pp.385-391
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    • 2014
  • Quaternary basaltic rocks occur as volcanic plateau and/or river cliff in the watershed area of Hantan River in Jeongok, central Korea. We measured $^{40}Ar-^{39}Ar$ ages for the basaltic rocks from Jeongok area using the multi-collector noble gas mass spectrometer and laser heating device introduced for the first time in Korea. The basaltic rocks from the river cliff in Eundae-ri area show the systematic change in $^{40}Ar-^{39}Ar$ ages from $0.54{\pm}0.07Ma$ through $0.48{\pm}0.01Ma$ to $0.12{\pm}0.01Ma$ toward the top. The other sample from Jeongok-ri area yields the age of $0.43{\pm}0.04Ma$. This results suggest that there might be a episodic volcanic eruption between 0.12-0.54 Ma in Jeongok area.

K-Ar Ages of Cretaceous Fossil Sites, Seoyuri, Hwasun, Southern Korea (화순 서유리의 백악기 화석산지에 대한 K-Ar 연대)

  • Kim, Cheong Bin;Kang, Seong Seung
    • Journal of the Korean earth science society
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    • v.33 no.7
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    • pp.618-626
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    • 2012
  • The Cretaceous fossil sites of Seoyuri in Hwasun was designated as the Korean Natural Monument No. 487 in November 2007. It provides important resources for paleoenvironmental studies, including theropod trackways, plant fossils, mudcracks, ripple marks, and horizontal bedding. The Cretaceous sedimentary strata contain a wide variety of volcanic pebbles, 5-40 cm in diameter in the lower portion and are overlain by the Late Cretaceous Hwasun andesite. Whole rock absolute K-Ar age determinations were performed on six volcanic pebbles from the Cretaceous sedimentary strata and on two samples from the overlaying Hwasun andesite. These ages indicate that the rocks belong to the period between the Turonian of the late Cretaceous (91-70 Ma) and the Pliocene age of the early Cenozoic ($63.4{\pm}1.2$ and $62.1{\pm}1.2$ Ma). Thus, the K-Ar ages indicate that the maximum geological age of the dinosaur track-bearing sedimentary deposits is about ca. 70 Ma. Therefore, it suggests that the age is comparable to the formation ages of the dinosaur footprints-bearing deposits in Sado area of Yeosu (71-66Ma).

Stratigraphic Implication of the Daljeon Basalt in the Miocene Pohang Basin, SE Korea (한반도 동남부 마이오세 포항분지 내 달전현무암의 층서적 의미)

  • Song, Cheol Woo;Kim, Hyeonjeong;Kim, Jong-Sun;Kim, Min-Cheol;Son, Moon
    • The Journal of the Petrological Society of Korea
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    • v.24 no.4
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    • pp.323-335
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    • 2015
  • Although the Daljeon Basalt in the Pohang Basin is important for interpreting the basin evolution, its relative chronology, stratigraphic position, and isotopic age still remain controversial. In order to clear up the controversies, this study carried out detailed field investigation to determine its distribution and occurrence together with reanalysis of its previous geochemical data and $^{40}Ar/^{39}Ar$ age dating. Based upon the field investigation, the basalt occurring in the central part of the Pohang basin is composed of three main bodies and a dozen of minor dikes and sills that intruded into the Yeonil Group. Their mineral assemblages consist of phenocrysts such as olivine and clinopyroxene and fine groundmasses of clinopyroxene, plagioclase, olivine, and opaque oxide, impling the porphyritic texture of alkaline basalt. All their geochemical data also show the similar geochemical characteristics in TAS, Zr-Ti, and REE/trace elements distribution diagrams. The samples are plotted on alkalic field in the total alkali-versus-silica diagram and show similar patterns to enrichment oceanic basalt or within plate basalt in trace elements. In addition, $^{40}Ar/^{39}Ar$ isochron age of 13.82Ma is obtained. These results indicate that the Daljeon Basalt is an alkaline intrusive rock belonging to the middle Miocene Yeonil Group.

Reactivated Timings of Yangsan Fault in the Sangcheon-ri Area, Korea (상천리 일대 양산단층의 재활동 연대)

  • Song, Yungoo;Park, Changyun;Sim, Ho;Choi, Woohyun;Son, Moon;Khulganakhuu, Chuluunbaatar
    • Economic and Environmental Geology
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    • v.49 no.2
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    • pp.97-104
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    • 2016
  • Here we firstly present that a timing of reactivated event of Yangsan fault, the major fault in the southeastern Korean Peninsula, by using combined approaches of the optimized illite-polytype quantification, the K-Ar age-dating, and the recently developed illite-age-analysis (IAA) approach for the fault clays from Sangcheon-ri area of Yangsan main fault line. Two chronological record of brittle fault-activation event at about 41.5~43.5 and 50.7 Ma were determined from 3 fault gouges suggesting a crucial reactivation time-scheme. Furthermore, the regional processes that drive tectonics to form and reactivate the Yangsan fault may be explained from the chronological analysis for additional sites along the Yangsan fault.

Reactivated Timings of the Yangsan Fault in the Yeonghae area based on the Mineralogical Characteristics of Fault Clays (단층암 점토광물 특성에 기초한 영해지역 양산단층의 단층활동연대 결정)

  • Hong, Seongsik;Sim, Ho;Choi, Sung-Ja;Song, Yungoo
    • Economic and Environmental Geology
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    • v.53 no.6
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    • pp.645-654
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    • 2020
  • We present the K-Ar age dating results of <0.1㎛ fraction of the selected fault rocks from the Yangsan fault in the Yeonghae area. Based on the mineralogical characterization, the <0.1㎛ fractions were mostly composed of 1Md illite polytype, or I-S interstratified mineral, which should be formed by fault activation. Therefore, we determined the timings of fault activation events by analyzing K-Ar age-dating for the <0.1㎛ fractions. Accordingly, the activation timings of Yangsan Fault in the Yeonghae area were determined as 45.5±1.1 Ma, 50.9±1.2 Ma, 58.2±1.3 Ma, 60.8±1.4 Ma, 65.3±1.6 Ma, 66.8±1.5 Ma, 67.1±1.5 Ma, and 75.1±1.7 Ma. These results indicate that at least 5-times of major fault events occurred in the Yangsan fault from late Mesozoic to Cenozoic Era. In the outcrop, age dating results tend to be younger age from the location of the oldest sample(75.1±1.7 Ma) toward to the both sides. From the results, it suggests that the fault activation extends from the location of oldest age saple to both sides. This geochronological research of the multiple fault activation ages for the Yangsan Fault will provide crucial information for establishing the tectonic evolution model in the southeastern part of the Korean Peninsula.

Rb-Sr Isotopic Ages of Biotite in the Weathering Profile of Granodiorite, Yecheon (예천지역 화강섬록암 풍화대내 흑운모의 Rb-Sr 동위원소연대 변화)

  • Jeong Gi Young;Cheong Chang-Sik;Lee Bong Ho
    • Journal of the Mineralogical Society of Korea
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    • v.18 no.1
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    • pp.53-59
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    • 2005
  • Rb-Sr isotopic ages of oxidized biotite in the weathering profile of granodiorite, Yecheon area, were measured by thermal ionization mass spectrometry, and compared with their K-Ar ages. A decrease of Rb-Sr isotopic age is well correlated with iron oxidation, and consistent with K-Ar age. Octahedral and interlayer cations including Rb and Sr were partly released from the oxidizing biotite by excess positive charge from iron oxidation. Divalent /sup 87/Sr decayed from monovalent /sup 87/Rb was more easily released from biotite, resulting in the reduction of Rb-Sr isotopic age. Weathered biotite is not suitable for the age dating of parent rocks, but behaviour of radiogenic isotopes provides useful information on the geochemical and structural changes of biotite during weathering.

Reactivated Timings of Some Major Faults in the Chugaryeong Fault Zone since the Cretaceous Period (추가령단층대 주요 단층의 백악기 이후 재활동 연대)

  • Chung, Donghoon;Song, Yungoo;Park, Changyun;Kang, Il-Mo;Choi, Sung-Ja;Khulganakhuu, Chuluunbaatar
    • Economic and Environmental Geology
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    • v.47 no.1
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    • pp.29-38
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    • 2014
  • Recently developed illite-age-analysis (IAA) approach has been applied to determine the multiple events for the Singal and Wangsukcheon faults in the Chugaryeong fault belt, Korea. Fault reactivated events during Late Cretaceous to Paleogene events($69.2{\pm}0.3$ Ma and $27.2{\pm}0.5$ Ma) for the Singal fault and of $75.4{\pm}0.8$ Ma for the Wangsukcheon fault were determined by combined approach of the optimized illite-polytype quantification and the K-Ar age-dating of clay fractions separated from the fault clays. These absolute geochronological determinations of the multiple tectonic events recorded in the Chugaryeong fault belt are crucial to establish the tectonic evolution of the Korean Peninsula since Late Cretaceous.