The geochemical results of the Chunyang granites located in the northeastern part of the Yeongnam Massif, indicate that these rocks have characteristics of calc-alkaline series in the sub-alkaline field, I-type and peraluminous. Most of the geochemical features in major and trace elements show systematic trends, which are similar to differentiation trends of the general Jurassic granitoids in South Korea. The Chunyang granite is largely enriched in mobile LILE (Sr, K, Rb and Ba) relatively immobile HFSE. They show LREE enriched patterns [(La/Lu)CN=41.8-73.2] with a slightly negative Eu anomaly [(Eu/Eu*)CN=0.89-1.10]. There are no meaningful correlations in major and trace elements between the Chunyang granites and the Buseok plutonic rock which is the main unit of the Yeongju batholith. This result may suggest that these two plutonic rocks be not derived from the same parent magma. Tectonic discrimination diagrams indicate that the Chunyang granite was formed in volcanic arc environments. These geochemical characteristics results suggest that the Chunyang granite must have been generated at the active continental margin during the subduction of the Jurassic proto-Pacific plate.

영남육괴 북동부에 위치하는 춘양화강암은 비알칼리계열 중 칼크-알칼리계열에 해당하는 I-type의 화강암류이며, 고알루미나질이다. 주성분원소 및 미량원소의 함량변화는 체계적인 연속성을 보이며, 일반적인 남한의 쥐라기 화강암류의 분화경향과 유사하다. 미량원소 중 유동성을 가지는 LILE (Sr, K, Rb, Ba)는 부화되어 있는 반면, 비유동성을 나타내는 HFSE 중 Ta, Nb, P, Ti의 함량은 상대적으로 결핍되어 있다. HREE에 대한 LREE의 강한 부화((La/Lu)CN=41.8-73.2)와 Eu 부(-)이상[(Eu/Eu*)CN=0.89-1.10]은 남한에 분포하는 쥐라기 화강암류의 패턴과 매우 유사하다. 이러한 춘양화강암을 암체의 서쪽에 위치하며 영주저반의 대부분을 차지하는 부석심성암체와 비교하면 주성분원소 및 미량원소의Harker 성분변화도에서 SiO2 함량에 따른 상관관계를 인지할 수 없어 두 암체는 성인적으로 무관한 별개의 암체로 사료된다. 춘양화강암은 지구조 판별도에서 화산호 환경에 도시되고 따라서 춘양화강암의 지화학적 특성을 종합해보면 쥐라기 고태평양판이 섭입하는 활동성 대륙주변부 환경에서 생성되었을 것으로 사료된다.

1 김성원, "예천전단대 북동부 명호지역 엽리상 화강암류와 압쇄 편마암류에 대한 지구화학및 Nd-Sr 동위원소 연구" 대한자원환경지질학회 41 (41): 299-314, 2008

2 송용선, "영남육괴 북동부 춘양화강암의 SHRIMP U-Pb 연대" 대한지질학회 51 (51): 397-402, 2015

3 위수민, "영남육괴 북동부 울진지역 화강암류의 지화학적 특성" 한국지구과학회 34 (34): 313-328, 2013

4 Streckeisen, A., "To each plutonic rock its proper name" 12 : 1-33, 1976

5 Jin, M.S., "Thermal history of the Late Triassic to Early Jurassic Yeongju-Chunyang Granitoid in the Sobaegsan Massif, South Korea, and its Tectonic Implication" 35 : 189-200, 1999

6 Taylor, S. R., "The application of trace element data to problems in petrology" 6 : 133-213, 1965

7 Hwang, S. K., "Spatial Compositional Variations and their Origins in the Buseok Pluton, Yeongju Batholith" 33 : 147-163, 2000

8 Arth, J.G., "Rare earth partitioning between hornblend and dacitic liquid and implications for the genesis of trondjemitic-tonalitic magmas" 4 : 534-536, 1976

9 Mason, B., "Principles of Geochemistry" John Wiley & Sons 344-, 1982

10 Condie, K. C., "Plate tectonics & crustal evolution" Pergamon press 476-, 1989

11 Hong, Y. K., "Petrogenesis and evolution of early Proterozoic granitic rocks in the Northeastern Ryeongnam Massif, Korea" 28 : 571-589, 1992

12 Nash, W.P., "Partition coefficients for trace elements in silicic magmas" 49 : 2309-2322, 1985

13 Chang, T. W., "On the microstructures of mylonitic rocks -with special reference to Yechon shear zone, Korea" 27 : 177-190, 1991

14 Lee, S.M., "Metamorphic Studies on the so-called Yulri and Weonnam Groups in the Mt. Taebaeg Area" 20 : 195-214, 1984

15 Sun, S.S., "Magmatism in the ocean basins" Geological Society 313-345, 1989

16 Rollinson, H. R., "Longman Scientific &Technical" John Wiley & Sons 352-, 1993

17 Green, T. H., "Island arc and continent-building magmatism: a review of petrogenetic models based on experimental petrology and geochemistry" 63 : 367-385, 1980

18 Hwang, S. K., "Intrusive Phases and Igneous Pricesses in the Yeongju Batholith" 32 : 669-688, 1999

19 Imai, N., "Geology and metamorphic rocks in the environs of the Janggun Mine, Republic of Korea. With some comments relating to the Unazuki metamorphic rocks in Japanese"

20 Kang, J. H., "Geological Structure of Precambrian to Paleozoic metasedimentary rocks in the Janggunbong area, Korea-Crustal evolution and environmental geology of the central part of the North Sobaegsan massif, Korea-" 6 : 244-259, 1997

21 Arth, J.G., "Geochemistry and origin of the early Precambrian crust of northern Minnesota" 39 : 325-362, 1975

22 Vlasov, K. A., "Geochemistry and mineralogy of rare elements and genetic types of their deposits" Israel Program for Scientific Translations Ltd 688-, 1966

23 Lee, C. H., "Geochemistry and mineralization age of magnesian skarn-type iron deposits of the Janggun mine, Republic of Korea" 33 : 379-390, 1998

24 Hong, Y. K., "Geochemical characteristics of Precambrian, Jurassic and Cretaceous granites in Korea" 20 : 35-60, 1987

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

26 Kim, G. H., "Geochemical Study of Some Mesozoic Granitic Rocks in South Korea" 25 : 435-446, 1992

27 Lee, H. K., "Genesis of the Lead-Zinc-Silver and Iron Deposits of the Janggun Mine, as Related to Their Structural Features Structural Control and Wall Rock Alteration of Ore-Formation" 23 : 161-181, 1990

28 Frey, F. A., "Fractionation of rare earth elements in the Toulumne intrusive series, Sierra Nevada batholith, California" 6 : 239-242, 1976

29 Pearce, J.A., "Continental basalts and mantle xenoliths" Shiva 230-249, 1983

30 Nockolds, S.R., "Average chemical compositions of some igneous rocks" 65 : 1007-1032, 1954