동막골응회암은 철원분지에서 큰 용적의 화쇄류암으로 구성되는 하나의 층서단위이다. 이 화쇄류암은 부석풍부 파리질응회암에 속하며, 부석편 혹은 피아메가 대부분 심하게 편평화되고 치밀 용결되어 있지만 평행 배열되고 신장되어 있다. 이들은 배열과/혹은 신장에 의한 유상선구조, 와상배열, 인장틈과 부딘구조 등과 같은 흐름지시자를 보여주고 평균최대 암편과 부석편들은 측방으로 입도변화를 나타낸다. 동막골응회암에서 유상선구조에 의한 유향도, 암편과 부석의 여러 비대칭 구조, 평균최대 암편과 부석 입경의 측방점이도 등에 따르면, 이 응회암을 집적시킨 화쇄류는 동막리 남부와 고문리 북부의 경계부 근처에서 공급되었다. 이 응회암을 집적시킨 화쇄류는 흐름의 마지막 단계에 층류로 이동하였으며, 유상선구조는 이때 화쇄류의 일차성 흐름으로 전단력에 의한 정치과정을 겪은 것으로 판단된다.

The Dongmakgol Tuff is a stratigraphic unit which is composed of voluminous ignimbrites in the Cheolwon basin. The ignimbrites belong to pumice-rich vitric tuffs that show eutaxitic to parataxitic fabrics from fiamme or pumice clasts. They are almost densely welded and strongly flattened, but often parallel aligned and stretched. Also they exhibit flow indicators such as flow lineations, imbrications, tensional cracks and boudins from their alignment and/or elongation, and lithic and pumice clasts show lateral grading in their average maximum diameter. Flow direction map from the lineations, asymmetric structures and lateral grading diagram indicate that the Dongmakgol Tuff has a source from its southwestern part near a boundary between southern Dongmakri and northern Gomunri, and is considered that the ignimbrites took emplacement processes of laminar flows during the final stage of flowage and the flow lineations are from the result of shear stress during that times.

• 요약
• Abstract
• 서언
• 연구방법
• 지질개요
• 동막골응회암
• 흐름 지시자와 유향
• 측방 입도변화
• 토의
• 결론
• 사사
• 참고문헌

1 김광호, "한반도 중서부 지각구조와 물성 연구: 전곡-연천 일대에 분포하는 백악기 화산암류의 고지자기" 16 : 65-73, 1995

2 기원서, "포천도폭 지질조사보고서" 한국지질자원연구원 69-, 2005

3 김규한, "추가령 지구대의 지질구조, 고지자기 및 암석학적 연구" 17 : 215-230, 1984

4 이대성, "추가령 열곡 지구조적 해석" 19 : 19-38, 1983

5 황상구, "청송 동부 주왕산응회암의 유상선구조와 정치과정" 대한지질학회 43 (43): 463-476, 2007

6 안웅산, "청송 남·동부 무포산응회암의 흐름 지시자로부터 유향 결정" 대한자원환경지질학회 40 (40): 319-330, 2007

7 황상구, "철원분지 백악기 화성암류의 암석조구조적 위치와 암석성인" 한국암석학회 19 (19): 67-87, 2010

8 최위찬, "철원-마전리 지질조사 보고서" 한국자원연구소 31-, 1996

9 황재하, "지포리도폭 지질조사 보고서" 한국지질자원연구원 54-, 2007

10 기원서, "연천도폭 지질조사 보고서" 한국지질자원연구원 83-, 2008

11 김재호, "연천 동부 동막골응회암의 화산학적 연구" 안동대학교 대학원 2010

12 이윤수, "고지자기학적 관점에서 본 추가령단층곡의 생성과 진화" 대한자원환경지질학회 34 (34): 555-571, 2001

13 Cas, R.A.F., "Volcanic succession, modern and ancient" Chapman & Hall 528-, 1987

14 Potter, D.B., "Vent sites and flow directions of the Otowi ash flows(lower Bandelier Tuff), New Mexico" 98 : 66-76, 1987

15 Wilson, C.J.N., "The Taupo eruption, New Zealand II. The Taupo ignimbrite" 314 : 229-310, 1985

16 Wright, J.V., "Stratigraphy and geology of the welded air-fall tuffs of Pantelleria, Italy" 69 : 263-291, 1980

17 Sparks, R.S.J., "Stratigraphy and geology of the ignimbrites of Vulsini Volcano, Central Italy" 64 : 497-523, 1975

18 Branney M.J., "Sheathfolds in rheomorphic ignimbrites" 66 : 485-491, 2004

19 Fisher, R.V., "Rocks composed of volcanic fragments and their classification" 1 : 287-298, 1966

20 Wolff, J.A., "Rheomorphism of welded tuffs" 10 : 13-34, 1981

21 Branney, M.J., "Pyroclastic density currents and the sedimentation of ignimbrites" 27 : 143-, 2002

22 Chapin, C.E., "Primary and secondary flow structures in ash-flow tuffs of the Gribbles run paleovalley, Central Colorado" Ash-flow tuff 137-154, 1979

23 Lee, J.S., "Petrology and tectonic setting of the Cretaceous to Cenozoic volcanics of Seoul, Korea: Geodynamic implication on the east Eurasian margin" Orleans University 1989

24 Froggatt, P.C., "Orientation of logs in the Taupo Ignimbrite as indicator of flow direction and vent position" 9 : 109-111, 1981

25 Le Pennec, J.-L., "Neogene ignimbrites of the Nevsehir plateau (central Turkey): stratigraphy, distribution and source constraints" 63 : 59-87, 1994

26 Schmincke, H.-U., "Laminar viscous flowage structures in ash flow tuffs from Gran Canaria, Canary Islands" 75 : 641-664, 1967

27 Mimura, K., "Imbrication, flow direction and possible source areas of the pumice-flow tuffs near Bend, Oregon, U.S.A" 21 : 45-60, 1984

28 Suzuki, K., "Grain orientation and depositional ramps as flow direction indicators of a large-scale pyroclastic flow deposit in Japan" 10 : 429-432, 1982

29 Walker, G.P.L., "Generation and dispersal of fine ash and dust by volcanic eruption" 11 : 81-92, 1981

30 Freundt, "Formation of high-grade ignimbrites. Part II. A pyroclastic suspension current model with imbrications also for low-grade ignimbrites" 60 : 545-576, 1999

31 Yokoyama, S., "Flow and emplacement mechanism of the Ito pyroclastic flow from Aira caldera, Japan" 12 : 17-62, 1974

32 Freundt, A., "Emplacement of small-volume pyroclastic flows at Laacher see(East-Eifel, Germany)" 48 : 39-59, 1986

33 Rhodes, R.C., "Distribution and directional fabric of ash-flow sheets in the north-western Mogollon plateau. New Mexico" 83 : 1863-1868, 1972

34 Schmid, R., "Descriptive nomenclature and classification of pyroclastic deposits and fragments: recommendations of the IUGS Subcommission on the Systematics of Igneous Rocks" 9 : 41-43, 1981

35 Capaccioni, B., "Computer-assisted image analysis on clast shape fabric from the Orvieto-Bagnoregio ignimbrite(Vulsini District, central Italy):implications on the emplacement mechanisms" 70 : 75-90, 1996

36 Ragan, D.M., "Compaction of the Bishop Tuff, California" 83 : 95-106, 1972

37 Palladino, D.M., "Coarse-tail vertical and lateral grading in pyroclastic flow deposits of the Latera Volcanic Complex(Vulsini, central Italy): origin and implications for flow dynamics" 69 : 343-364, 1995

38 Gibson, I.L., "Additional theory on the origin of fiamme in ignimbrites" 215 : 1473-1474, 1967

39 Branney, M.J., "A reappraisal of ignimbrite emplacement: progressive aggradation and changes from particulate to non-particulate flow during emplacement of high-grade ignimbrite" 54 : 504-520, 1992