미륵도와 주변 백악기 화산암류에 대한 주원소, 미량원소의 암석화학적 특성으로부터 이 화산암류의 조구조적 배경과 마그마 진화를 고찰하였다. 이 화산암류는 주사산아층군, 운문사아층군, 욕지아층군과 사량 아층군으로 구분되며, TAS도에서 현무암-현무암질 안산암-안산암-데사이트-유문암으로 분류된다. 이 지역에서 암석화학적 변화는 대체로 분별결정작용에 의한 마그마 진화를 설명해줄 수 있다. 암석화학적 특징은 대부분 칼크알칼리 계열에 속하고 전반기에는 중-K 계열 화산암류가 우세하지만 후반기로 가면서 고-K 계열의 화산암류가 우세하게 분출되었음을 나타낸다. 주원소와 미량원소 판별도에서 모두 조산대에 속하고 섭입대에 관련된 화산호 환경을 지시하는 조구조 양상을 가진다. 이 화산암류는 칼크알칼리 마그마가 균질한 근원암에서 분리되어 형성되고 공급지에서 지표까지 독립노선을 따르는 경우를 제공한다. 선기와 후기 아층군의 마그마는 지표로 올라오면서 다른 노선을 취하고, 이 화산과정의 전반을 통해 일련의 별도 마그마챔버로서 천부 지각에 정치되고, 각 챔버는 분별결정작용과 소량의 동화작용에 의해 독자적으로 진화하였다. 마그마 성인은 해양판의 섭입과 관련하여 상부맨틀의 부분용융으로 생성되었고 일차마그마로부터의 분별결정작용으로 안산암질 마그마를 형성하였을 가능성을 시사한다. 이 안산암질 마그마는 지속적인 분별결정작용과 벽암 동화작용의 수반으로 인하여 유문암질 마그마로 진화하였음을 나타낸다.

We have examined the petrotectonic setting and magmatic evolution from petrochemical characteristics of major and trace elements for the Cretaceous volcanic rocks in and around the Mireukdo Island. The volcanic rocks, can be devided into Jusasan, Unmunsa, Yokji and Saryang subgroups on the ascending order, are classified as basalt, basaltic andesite, andesite, dacite and rhyolite on TAS diagram. Petrochemical data show that the rocks are calc-alkaline series, and suggest that erupted earlier medium-K series and later high-K series. The volcanic rocks provide a case in which the calc-alkaline magma are formed, not only from separate protoliths, but following separate paths from source to surface. Earlier and later subgroups take different paths to the surface respectively, and are emplaced in the shallow crust as a series of discrete magma chambers through the volcanic processes. After emplacement, each chamber evolves indepently through fractional crystallization with a little assimilation of wall rock. The volcanic rocks have close petrotectonic affinities with orogenic suite and subduction-related volcanic arc. The rhyolitic magma can be derived from calc-alkaline andesitic magma by fractional crystallization with crustal assimilation, which may be derived from a partial melt of peridotite in the upper mantle.

• 요약
• Abstract
• 1. 서언
• 2. 지질개요
• 3. 분석방법
• 4. 암석화학적 성질
• 5. 화학조성 변화
• 6. 토의
• 7. 결론
• References

1 황상구, "한반도 남동부 경상호의 조구조 배경과 호화산작용" 한국암석학회 21 (21): 367-383, 2012

2 김명정, "옥동단층대 석영편암의 K-Ar 연령에 대한 검토: 장산층의 선캠브리아기 퇴적에 대한 확실한 증거로 활용 가능한가?" 한국암석학회 27 (27): 67-72, 2018

3 박맹언, "광화유체의 비등과 희석에 의한 통영 천열수계 Au-Ag-Te 광화작용에 대한 반응경로 모델링" 대한자원환경지질학회 34 (34): 507-522, 2001

4 Johnson, D.M., "XRF analysis of rocks and minerals for major and trace ele- ments on a single low dilution Li-tetraborate fused bead" 41 : 843-867, 1999

5 Saunders, A.D., "Trasverse geochemical variations across the Antarctic Peninsula: Implications for the genesis of calc-alkaline magmas" 46 : 344-360, 1980

6 Pearce, J.A., "Trace element discrimination diagram for the tectonic interpre- tation of granitic rocks" 25 : 956-983, 1984

7 Perfit,, M.R., "Trace element and isotopic variations in a zoned pluton and associated volcanic rocks, Unalaska Island, Alaska: Model for fractionation in the Aleutian calc-alkaline suite" 73 : 69-87, 1980

8 Johnston, A.D., "The system tonalite-peridotite-$H_2O$ at 30kbar, with applications to hydridization in subduction zone magmatism" 102 : 257-264, 1989

9 Pearce, T.H., "The relationship between major element geochemistry and tectonic environment of basic and intermediate volcanic rocks" 36 : 121-132, 1977

10 Plank, T., "The geochemical composition of subducting sediment and its consequences for the crust and mantle" 145 : 325-394, 1998

11 Hildreth, W., "The compositionally zoned eruption of 1912 in the Valley of Ten Thousand Smokes, Katmai National Park, Alaska" 18 : 1-56, 1983

12 Wood, D.A., "The application of a Th-Hf-Ta diagram to problems of tectonomagmatic classification and to establishing the nature of crustal contamination of basaltic lavas of the British Tertiary volcanic province" 50 : 11-30, 1980

13 Sekine, T., "Phase relationships in the system $KALSiO_4 -Mg SiO4-SiO_2-H_2O$ as a model for hybridization between hydrous siliceous melts and peridotite" 79 : 368-374, 1982

14 Yun, S.H., "Petrology of the volcanic rocks in Geoje island, South Korea" 6 : 1-18, 1997

15 Jwa, Y.-J., "Petrology of the igneous rocks in the Goseong area, Gyeongsang basin I. major element geochemistry and K-Ar radiometric age" 29 : 562-573, 1996

16 Hwang, S.K., "Petrology of Cretaceous volcanic rocks in the Miryang-Yangsan Area, Korea (I): petrotectonic setting" 30 : 229-241, 1994

17 Lee, C.-H., "Petrology and petrochem- istry of the granitoids in the Geoje Island, Korea" 20 : 62-79, 1999

18 Price, R.C., "Petrogenesis of high-K arc magmas:Evidence from Egmont Volcano, North Island, New Zealand" 40 : 167-197, 1999

19 Kim, J.S., "Petrochemical study on the Cretaceous volcanic rocks in the Namhae island, Korea" 20 : 630-651, 1999

20 Gill, J.B., "Orogenic andesites and plate tectonics" Springer 390-, 1981

21 Woodhead, J.D., "Isotopic and trace-element profiles across the New Britian island arc, Papua New Guinea" 113 : 479-491, 1993

22 Wilson, M., "Igneous petrogenesis" Unwin Hyman 466-, 1989

23 Woodhead, J.D., "High field strength and transition element systematics in island arc and back arc basin basalts:Evidence for multiphase melt extraction and a depleted mantle wedge" 114 : 491-504, 1993

24 Winchester, J.A., "Geochemical discrimination of different magma series and their differentiation products using immobile element" 20 : 325-343, 1977

25 McCulloch, M.T., "Geochemical and geodynamical constraint on subduction zone magmatism" 102 : 358-374, 1991

26 Hwang, S.K., "Explanatory text of the geological map of Mijo.Mireukdo Sheets" 78-, 2016

27 Eichelberger, J.C., "Eruption of andesite triggered by dyke injection: contrasting cases at Karymsky Volcano, Kamchatka and Mt. Katmai, Alaska" 358 : 1465-1485, 2000

28 Elliot, T.T., "Element transport from slab to volcanic front at the Mar- iana Arc" 102 : 14991-15019, 1997

29 Nicholls, I.A., "Effect of water on olivine stability in tholeiites and production of silica-saturated magmas in the island arc environment" 81 : 285-300, 1973

30 Nakamura, N., "Determination of Ree, Ba, Fe, Mg, Na and K in carbonaceous and ordinary chondrites" 38 : 757-773, 1974

31 Powell, M., "Crystallization conditions of low-pressure cumulate nodules from the Lesser Antilles island arc" 39 : 162-172, 1978

32 Sun, S.S., "Chemical heterogeity of the Archean mantle: composition of the earth and mantle evolution" 35 : 429-448, 1977

33 Kuno, H., "Basalts: The Poldervaart treatise on rocks of basaltic composition. Vol. 2" Interscience 623-688, 1968

34 Le Maitre, R.W., "A proposal by the IUGS Subcom- mission on the Systematics of Igneous Rocks for a chem- ical classification of volcanic rocks based on the total alkali silica (TAS) diagram" 31 : 243-255, 1984

35 Irvine, T.N., "A guide to the chemical classification of the common volcanic rocks" 8 : 523-548, 1971

36 Le Bas, M.J., "A chemical classification of volcanic rocks based on the total alkali-silica diagram" 27 : 745-750, 1986