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박병권,송무영,Park, Byong-Kwon,Song Moo-Young 한국해양학회 1972 韓國海洋學會誌 Vol.7 No.2
This paper studied the grain size distribution of bottom sediments of Yeongil Bay which is located at the southeastern part of the Korean Peninsula. Sixty four samples collected with snapper and dredger are analyzed by roe Tap Sieve Shaker and Pipette Method. The moment parameters are calculated with the method of Friedman(1961). Most samples are composed of sand size sediments and a few samples are composed of silt and clay. The Yeongil Bay can be divided into gravel-granule zone, sand zone, and silt-clay zone. The sediments near Yeonam- Dong and Hyongsan river are moderately sorted and others are very poorly sorted according to scheme of Friedman91962). In general, sorting values are ranged from 1.0 to 3.5. The samples near Janggigap and Masin-Dong show negative and others show positive skewness values. Skewness values are ranged from -1 to 2. All samples show the leptokurtic distribution except for the samples near Masin- dong and at the deepest place near Janggigap. Kurtosis values are ranged from -1.5 to 21.9. The samples of gravel-granule zone contain more than 50% and those of silt-clay zone contain less than 50% of CaCO$\_$3/. Four different colors, black, yellow, brown and gray, are shown in the sediments of Yeongil Bay.
Recent Tectonism in the Korean Peninsula and Sea Floor Spreading
박병권,김서운,Park, Byong Kwon,Kim, Suh Woon The Korean Society of Economic and Environmental G 1971 자원환경지질 Vol.4 No.1
한반도(韓半島)는 지형운동(地穀運動)이 없이 안정(安定)한 상태(狀態)에 있는 아시아대륙(大陸)과, 지형운동(地鼓運勤)이 활발(活廢)한 일본열도(日本列鳥)의 사이에 위치(位置)하고 있다. 한반도(韓半島)는 비재적(比載的) 좁은 동서폭(東西幅)을 가지고 있는데도 불구(不拘)하고, 동해안(東海岸)은 융기(隆起), 서해안(西海岸)은 침강현상(沈降現象)을 보여 주고 있다. 그러나 서해안(西海岸)의 침강율(沈降率)을, 지형운동(地鼓運勤)이 거의 없이 안정(安定)한 상태(狀態)의 북미(北美) 동해안(東海岸)의 침강율(沈降率)과 비교(比較)해 보면 한반도(韓半島)의 서해안(西海岸)은 동해안(東海岸)과 함께 서서(徐徐)히, 융기(隆起) 하되, 다만 시차적(示差的) 융기현상(陸起現象)을 보이는 듯 하다. 이러한 융기현상(陸起現象)은 동해안(東海岸)(일본해(日本海))을 따라 전개(展開)하는 현상(現象)이다. 태평양(太平洋) mantle convection이 일본해구(日本海溝)를 따라 아세아대륙(大陸)으로 plunge 하는 데서 발생(發生)하는 압축응력(壓縮應力)에 기인(基因)하고 있을 것 같다. 또한 이러한 strain은 동해(東海) 일대(一帶)의 높은 heat flow에 의(依)해서 가속(加速)될 것 같다. 이와 같이 근세(近世) 한반도(韓半島)의 지형운동(地穀運動)을 해저확장설(海底擴張說) (Sea Floor Spreading Theory)로서 설명(說明)할 수가 있으며, 휴화산(休火山)인 백두산(白頭山)과 한라산(漢筆山)을 한반도(韓半島)가 서진(西進)한 증거(證據)로 간주(看做)할 수도 있다. The Korean Peninsula is located between the tectonically stable Asian Continent and the tectonically active Japanese islands. The east coast of Korea shows evidence of uplift whereas the west coast shows evidence of submergence. However, radiocarbon dates indicate that the rate of submergence of the west coast of Korea is slower than the tectonically stable east coast of North America. Therefore, both east and west coasts of Korea might have been uplifted during the last post-glacial period. This uplift may result the spreading line of the from compressional strain produced along East Sea of Korea (Japan Sea) and/or the conversion hinge line of the Pacific mantle convection current plunging beneath the Asian continent. This downturn is supposed to be located in the Japan Trench. High heat flow near the east coast of Korea produces the differential strain. This strain accelerates the compressional strain of the peninsula. The Sea Floor Spreading Theory can explain the tectonism of the Korean Peninsula in Recent time. Baek-Doo Mt. and Han-Ra Mt., dormant volcanoes, may be an evidence of westward movement of the Korean Peninsula.
조선루층군(朝鮮累層群) 상부 캠브리아계(系) 화절층(花折層)에 협재(挾在)된 Carbonate Flat Pebble Conglomerate의 성인(成因)
박병권,한상준,Park, Byong-Kwon,Han, Sang-Joon 대한자원환경지질학회 1985 자원환경지질 Vol.18 No.2
The carbonate flat pebble conglomerates (CFPC) are interbedded as lenticular bed in the greenish rhythmite of the upper part of $Hwaj{\check{o}}l$ Formation, $Jos{\check{o}}n$ Supergroup. Pebbles are composed mainly of lime-mudstone with small amounts of bioclasts and silt-sized subangular quartz grains. The matrix among pebbles is composed mainly of sparry calcite with relatively much amounts of bioclasts, silt-sized subangular quartz grains and authigenic pyrite crystals or grains. The sparry calcite of the matrix seems to be the results of neomorphism of skeletal sands and bioclasts. The pebbles are well rounded and no plastic deformations are found. Some pebbles show the outer rim of glauconite. CFPC are not associated with any other intertidal features such as stromatolites, flaser bedding and channel structures. Also any features indicative of subaerial exposure such as dessication cracks, fenestrae and so on are not found in the bed. The sedimentological features of CFPC suggest that the following conditions appear to have been necessary for the formation of CFPC : 1) episodic deposition of thin, permeable calcareous beds separated argillaceous beds; 2) preservation of these beds near the sediment-water interface where they could become rapidly cemented; 3) erosion and redeposition of the partially lithified beds by storms or other exceptional erosional events. Eventually storm erosion and redeposition together represent only one of several critical conditions in the genesis of CFPC. The CFPC are very common in Cambrian and lower Ordovician formations, and become very rare in the younger carbonate formations. The expansion of infauna after Ordovician Period eliminated the widespread potential for rapid submarine cementation which is one of the critical factors to form CFPC.