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우경식,허민,박세문,Woo, Kyung-Sik,Huh, Min,Park, Se-Moon The Korean Society of Oceanography 1994 韓國海洋學會誌 Vol.29 No.2
The well preserved ostracodes of the Chunbuk Formation in Pohang Basin were analyzed isotopically to understand paleoceanographic conditions of the southeastern park of Korean peninsula which Songhacdong, and Mulcheonri areas range from - 2.2 to - 0.7% (PDB), - 0.7 to 0.0% , and -20.0 to - 0.8%, and their corresponding paleotemperatures range from ca 20 to 27$^{\circ}C$ (average = 24$^{\circ}C$), 17 to 20$^{\circ}C$ (average = 18$^{\circ}C$), and 20 to 26$^{\circ}C$ (average=23$^{\circ}C$),respectively. Assuming the $\delta$/SUP 18/O composition of the Middle Miocene seawater was about - 0.34% (SMOW), the paleotemperatures of the Middle Miocene shallow seawater in the Pohang Basin was almost equal to or slightly higher than the present summer temperature (ca 16 to 20$^{\circ}C$) near Pohang area. Carbon isotopic value of Cyhere omotenipponica is - 0.8% (PDB), reflecting marine carbonate carbon composition. Carbon isotopic compositions of other ostracodes such as Aurial okumurai, Trachyleberis niitsmai, Urocythereis sp., Urocythereis cf. gorokuensis, and Acanthocythereis mutsuensis range from - 5.2 to - 3.4% (PDB), which might have secreted their shells out of equilibrium with ambient seawater. This disequilibrium was most likely to have resulted from metabolic (=vital) effect, rather than temperature of productivity.
중앙태평양 마이크로네시아 군도 해저산 일원에서 발견되는 탄산염암의 속성작용
우경식,최윤지,이경용,강정극,박병권,Woo, Kyung-Sik,Choi, Yoon-Ji,Lee, Kyeong-Yong,Kang, Jung-Keuk,Park, Byong-Kwong 한국해양학회 1998 바다 Vol.3 No.4
중앙태평양 마이크로네시아 군도 해저산 일원에서 발견되는 탄산염암의 구성성분과 속성작용을 이해하기 위하여 조직적, 지화학적 연구를 수행하였다. 연구지역은 Caroline 해령, Chuuk 섬, Hunter 뱅크, Yap 해구 일대이며, 대부분의 시료들은 수심 약 1,000~3,000 m 깊이에서 준설된 것들이다. 연구지역에서 발견되는 탄산염암은 부유성 유공충으로 이루어진 원양성 퇴적물과 산호, 석회조류, 연체동물 및 극피류 등으로 이루어진 천해퇴적물의 두 종류가 있다. 이들 퇴적물은 Hunter 뱅크와 Yap A 지역을 제외하고는 모두 조직적, 화학적 속성변질을 받았다. 천해기원 교질물들이 발견되므로, 천해에서 퇴적된 후 현재의 깊이로 침강되었거나 재동된 것으로 사료된다. 조직 특성은 천수에 의한 속성변질산물과 매우 유사한 양상을 보여주나, 변질된 시료의 탄소동위원소는 해수기원 탄소의 특성을 보여주며, 산소동위원소는 변질되지 않은 시료와 같거나 부화된 값을 보여준다. 따라서 이 지역의 탄산염암은 심해의 해수에 의해 변질되었음을 알 수 있다. This study was carried out to investigate the composition and diagenesis of the carbonate rocks from the seamounts in the Federated States of Micronesia, Central Pacific. Most of the samples were dredged from the water depth of about 1000-3000 m mainly in Chuuk Island, Hunter Bank, Caroline Ridge and Yap Trench. The carbonate rocks are either pelagic sediment mainly of planktonic foraminifera or shallow-marine sediment of corals, calcareous algae, mollusks and echinoderms. The rocks are altered texturally and chemically, except for those from the Hunter Bank and Yap A. The presence of shallow-marine cements suggests that the carbonate sediment has been subsided or reworked to the present water depth after deposition in shallow-marine environments. The texture of the carbonate sediment is reminiscent of meteoric diagenesis; however, the stable carbon isotopic composition of the altered rock samples shows affinity with that of sea water and the oxygen isotopic values are slightly enriched or same as compared to those of unaltered samples. These stable isotopic data suggest that the carbonate sediment of the study area has been diagenetically altered in the present deep-marine environment.
Textural, Isotopic, and Chemical Investigation of Cultured Pearls
우경식,Woo, Kyung Sik The Korean Society of Oceanography 1989 韓國海洋學會誌 Vol.24 No.2
Cultivated pearls, composed of aragonite crystals, show two distinctive layers: nacreous and conchiolin organic layers. Each aragonite crystal is surrounded by organic matrix, which probably consists of amino acids. Nucleus, surrounded by pearl layer, also consists of nacreous crystals, suggesting that there is a close mineralogical and ultrasturctural relationship between pearl and nucleus. Carbon isotopic values of cultivated pearls are within the range of marine carbonate carbon. Oxygen isotopic composition indicates that the temperature for the growth of pearl and pearl oyster ranges from 16.4 to $21.4^{\circ}C$ and from 15.5 to $24.8^{\circ}C$, corresponding to the summer temperature range of the cultivating area. Elemental composition of pearl, pearl oyster, and nucleus shows that there is a difference in chemical composition depending upon the original mineralogy and the chemical composition of water in which shells grow. Especially, a strong relationship exists between pearl and the inner layer of pearl oyster because both are composed of nacreous aragonite and formed in a shallow marine environment.
우경식,최승진,Woo Kyung Sik,Choi Seung Jin The Korean Society Of Petroleum Geology 1993 한국석유지질학회지 Vol.1 No.1
강원도 영월 마차리 부근에 분포하는 문곡층의 속성역사에 대한 연구를 조직적, 동위원소적 및 미량원소적 결과를 이용하여 수행하였다. 속성광물의 생성단계는 각각 그들의 지화학적 결과와 함께 문곡층이 여러 단계의 속성작용을 받았음을 보여준다: 그들은 1) 천해속성작용, 2) 민물속성작용, 3) 얕은매몰속성작용 및 4) 깊은매몰속성작용이다. 천해속성작용은 섬유상 방해석 교질작용과(framboidal) 황철석화작용으로 이루어져 있으며, 민물속성작용 동안에는 불안정한 광물(아라고나이트와 고마그네슘 방해석)로 구성된 탄산염 입자들의 용해작용과 재 결정작용, 극피동물 위의 syntaxial overgrowth 작용 및 등립질 방해석의 교질작용이 일어났다. 얕은 매몰 속성환경에서는 쳐어트와 이디오토픽 돌로마이트가 생성되었고 제노토픽 돌로마이트화작용은 스타일로라이트화 작용 전에 일어났을 것이다. 깊은 매몰 속성환경 에서는 saddle 돌로마이트화작용, 2차 규화작용 및 탈돌로마이트화작용이 일어났다. The diagenetic history of the carbonate rocks of the Mungok Formation near Machari area, Kangwondo, was investigated based on textural, isotopic, and chemical data. Paragenetic relationship among diagenetic minerals, coupled with their distinct geochemical contents, shows that the Mungok Formation have undergone several stages of diagenetic events: 1) shallow marine, 2) meteoric, 3) shallow to intermediate burial, and 4) deep burial diagenesis. Shallow marine diagenesis includes fibrous calcite cementation, micritization, and framboidal pyritization, and meteoric diagenesis involved dissolution and recrystallization of unstable allochems (both aragonite and HMC), syntaxial overgrowth on echinoderm fragments, and equant calcite cementation. During shallow to intermediate burial, idiotopic dolomite and chert formed, and xenotopic dolomitization took place before stylolitization of the rocks. After the rocks were deeply buried, saddle dolomitization, second stage of silicification, and dedolomitization occurred.
우경식,Woo Kyung Sik 한국석유지질학회 1997 한국석유지질학회지 Vol.5 No.1
강원도 예미부근에는 예미각력암 (Yemi Breccia)이라는 층이 보고되어 있다. 이 층은 두위봉형 조선누층군 막골층을 부정합으로 덮고 있으며, 이 층 위에 고성 셰일이 정합적으로 놓인다고 알려져 왔다. 예미각력암의 야외조사와 조직적 관찰결과, 예미각력암은 막골층 상부가 퇴적될 당시에 퇴적된 증발암이 속성작용에 의해 용해됨으로써 생성된 속성산물인 용해-붕락 각력암 (solution-collapse breccia)이라 생각된다. 따라서 예미각력암은 기존에 독림된 층으로 제안된 바와는 달리 막골층의 상부층의 일부로 간주되어야 하며, 상위의 고성셰일은 직운산층으로, 고성석회암은 두위봉층과 대비되는 것으로 생각된다. The Yemi Breccia has been reported as a separate formation near Yemi area, Kangwondo. This formation overlies the Maggot Formation of the Joseon Supergroup unconformably, and is overlain by the Goseong Shale conformably. Based on the field observation and textural examination of the Yemi Breccia, the breccia beds are interpreted as soluton-collapse breccia beds, which were formed by the dissolution of the pre-existing evaporites. The evaporites were precipitated during the deposition of the upper part of the Maggot Formation. Therefore, the Yemi Breccia should not be regarded as a separate formation, instead, it should be considered to be a upper part of the Maggot Formation. This implies that the overlying Goseong Shale and Goseong Limestone can be correlated with the Jigunsan and Duwibong Formtions, respectively.