The Journal of the Petrological Society of Korea (암석학회지)

The Petrological Society of Korea (한국암석학회)
권호 표지

The Geochemistry of Yuksipryeong Two-Mica Leucogranite, Yeongnam Massif, Korea

영남육괴내 육십령 복운모화강암에 대한 지화학적 연구

  • Koh, Jeong-Seon (Department of Earth Sciences, Pusan National University) ;
  • Yun, Sung-Hyo (Department of Earth Sciences, Pusan National University)
  • Published : 2003.09.01
Download PDF
⟨ Previous Next ⟩

Abstract

Yuksipryeong two-mica granite presents strongly peraluminous characteristics in both mineralogy and geochemistry. It has high aluminum saturation index with 1.15∼l.20 and high corundum with 2.20∼2.98 wt% CIPW norm. As the color index is <16% and FeO$\^$T/+ MgO + TiO$_2$is average 1.9 wt%, it corresponds to leucogranite. Yuksipryeong two-mica leucogranite shows negative linear trend for TiO$_2$, Al$_2$O$_3$, FeO, Fe$_2$O$_3$, MgO, CaO, K$_2$O, P$_2$O$\_$5/, Rb, Ba, and Sr as SiO$_2$increases, and the positive relation of Zr and Th, which result from feldspar, biotite, apatite and zircon fractionation. Pegmatitic dike has higher SiO$_2$and P$_2$O$\_$5/, but lower another major elements. Yuksipryeong two-mica leucogranite has lower Rb, but higher Ba and Sr than Manaslu, Hercynian two-mica leucogranites, and S-type granites in Lachlan Fold Belt. Pegmatitic dike has higher Rb and Nb but lower Ba, Sr, Zr, Th, and Pb contents than Yuksipryeong two-mica leucogranite, resulting in removing or mobilizing for some trace elements from the granitic melt. Yuksipryeong two-mica leucogranite has total REEs with 95.7∼l23.3 ppm, and chondrite-normalized REE pattern is very steep ((La/Yb)$\_$N/ = 6.9∼24.8), light REEs (LREEs)-enriched End heavy REEs (HREEs)- depleted pattern with low to moderate Eu anomalies (Eu/Eu*= 0.7∼0.9). While pegmatitic dike has low total REEs with 7.0 ppm, and chondrite-normalized REE pattern is flat-pattern ((La/Yb)$\_$N/ = 2.1) with strong negative Eu anomalies (Eu/Eu*= 0.2). The melt compositions having formed two-mica leucogranites depend on not only the source rock but also the amounts of the residual remaining after melting of source rocks. The CaO/Na$_2$O and Rb/Sr-Rb/Ba ratios depend mainly on the composition of source rocks in the strongly peraluminous granite, that is, plagioclase/clay ratio of the source rocks. Yuksipryeong two-mica leucogranite has higher CaO/Na$_2$O and lower Rb/Sr-Rb/Ba ratios than Manaslu and Hercynian two-mica leucogranites (Millevaches and Gueret) derived from clay-rich, plagioclase-poor (polite), which suggest that the probable source rocks for Yuksipryeong two-mica leucogranite is clay-poor, plagioclase-rich quartzofeldspathic rocks. As the concentrations of Al$_2$O$_3$remain nearly constant but those of TiO$_2$increases as increasing temperature in the strong peraluminous melt, the Al$_2$O$_3$/TiO$_2$ratio may reflect relative temperature at which the melts have formed. Comparing the polite-derived Manaslu and Hercynian two- mica leucogranites, Manaslu two-mica leucogranite has higher Al$_2$O$_3$/TiO$_2$ratio than latter, and its melt have formed at relatively lower temperature ($\leq$ 875$^{\circ}C$) than Hercynian two-mica leucogranites. Likewise, comparing the quartzofeldspathic rock-derived granites, Yuksipryeong two-mica granite has higher Al$_2$O$_3$/TiO$_2$, ratio than S-type granites in Lachlan Fold Belt (>875$^{\circ}C$). The melt formed Yuksipryeong two-mica leucogranite are considered to have been formed at temperature at below the maximum 875$^{\circ}C$C$.

육십령 복운모화강암은 광물학$.$지화학적으로 과알루미나 성질을 특징적으로 나타낸다. 육십령 화강암체는 1.15∼l.20 범위의 높은 알루미나 포화 지수와 2.20∼2.98wt% 범위의 높은 CIPW norm 강옥 함량을 나타낸다. 색지수는 <16%이고, FeO$^{T}$ +MgO+TiO$_2$,는 평균 1.9 wt%로서 우백질화강암에 해당한다. 육십령 복운모 우백질화강암은 SiO$_2$성분이 증가함에 따라, TiO$_2$, $Al_2$O$_3$, FeO, Fe$_2$O$_3$, MgO, CaO, $K_2$O, P$_2$O$_{5}$ , Rb, Ba, Sr 은 감소하는 경향을 나타내는 반면, Zr과 Th는 증가하는 경향을 나타내는데, 이는 장석, 흑운모, 인회석 저어콘의 분별경정작용에 기인한 것으로 해석된다. 거정질 암맥에는 SiO$_2$and P$_2$O$_{5}$ 는 높게, 그 외의 주원소는 결핍되어 나타난다. Manaslu, Hercynian 복운모 우백질화강암, Lachlan습곡대의 S-형 화강암과 비교해 보면, 육십령 복운모 우백질화강암은 낮은 Rb, 높은 Ba, Sr을 나타낸다. 거정질 암맥의 지화학적 특징은 육십령 복운모화강암을 형성했던 멜트로부터 일부 원소들의 제거 혹은 유동성에 의해 높은 Rb, Nb와, 낮은 Ba, Sr, Zr, Th, Pb 함유를 나타낸다. 육십령 복운모 우백질화강암은 총 휘토류 함량이 95.7∼123.3ppm 범위를 나타내며, 운석에 대해 표준해보면, 저 내지 중정도의 Eu 이상(Eu/Eu*= 0.7∼0.9)을 가지면서 경희토류원소가 풍부하고 중희토류원소가 결핍된 매우 경사가 져 있는((La/Yb)$_{N}$ = 6.9∼24.8) 변화를 보여준다. 반면에 페그마틱 암맥은 총 휘토류원소의 함량이 7.0ppm으로 운석에 대해 표준화하면, 강한 부의 Eu 이상(Eu/Eu*= 0.2)을 가진 편평한 양상을 나타낸다. 복운모 우백질화강암을 형성했던 멜트의 성분은 기원암 뿐만 아니라 기원암이 녹은 후의 잔류물질의 양에도 의존한다. 특히 CaO/$Na_2$O의 비와 Rb/Sr-Rb/Ba의 비들은 강한 과알루미나질 화강암에서는 기원암의 성분에, 즉, 기원암의 사장석과 점토 함량 비에 주로 의존한다. 육십령 복운모 우백질화강암은 사장석 성분보다 점토 성분이 풍부한 암석에서 기원한 Manaslu와 Hercynian 복운모 우백질화강암들(예를 들면 Millevaches와 Gueret)보다는 더 높은 CaO/$Na_2$O의 비와 더 낮은 Rb/Sr-Rb/Ba 비를 나타내고 있는데, 이러한 지화학적 특징은 점토 성분보다는 사장석이 풍부한 석영장석질 암석으로부터 기원했던 것으로 사료된다.

Keywords

References

  1. Chemical Geology v.139 REE fractionation and Nd-isotope disequilibrium during crustal anatexis: constraints from Himalayan leucogranites Ayres,M.;Harris,N.
  2. The Journal of Geology v.107 Mafic precursors, peraluminous granitoids, and late lamprophyres in the Avila batholith: a model for the generation of Variscan batholiths in Iberia Bea,F.;Montero,P.;Molina,J.F.
  3. Contributions to Mineralogy and Petrology v.135 Origin of peraluminous granites and granodiorites, Iberian massif, Spain: an experimental test of granite petrogenesis Castro,A.;Patino Douce,A.E.;Corretge,L.G.;de la Rosa,J.D.;El-Biad,M.;El-Hmidi,H.
  4. Pacific Geology 8 (Extended abstract) Two contrasting granite types Chappell,B.W.;White,A.J.R.
  5. Transactions of the Royal Society of Edinburgh: Earth Science, Special paper v.83 I- and S-type granites in the Lachlan Fold Belt Chappell,B.W.;White,A.J.R.
  6. Granitoid rocks Clark,D.B.
  7. Chemical Geology v.104 Chemical composition and evolution of the upper continental crust: contrasting results from surface sample and shales Condie,K.C.
  8. Contributions to Mineralogy and Petrology v.96 Isotopic study of the Manaslu granite (Himalaya, Nepal) : inferences of the age and source of the Himalayan leucogranites Deniel,C.;Vidal,P.;Fernandez,A.;Le Fort, P.;Peucat,J.J.
  9. Chemical Geology v.136 Hercynian granodiorite and monzogranites, Massif Central, France Downes,H.;Shaw,A.;Williamson,B.J.;Thirlwall,M.F.
  10. Journal of Geophysical Research v.100 Experimental melting of biotite+plagioclase±muscovite assemblages and implications for crustal melting Gardin,V.;Thompson,A.B.;Grujic,D.;Ulmer,P.
  11. Earth and Planetary Science Letter v.38 The application of trace elements to the petrogenesis of igneous rocks of granitic composition Hanson,G.N.
  12. Collision Tectonics v.19 Harris,N.B.W.;Pearce,J.A.;Tindle,A.G.
  13. Contributions to Mineralogy and Petrology v.110 Trace element modeling of pelite-derived granites Harris,N.B.W.;Inger,S.
  14. Journal of Petrology v.40 Origin and Episodic emplacement of the Manaslu intrusive complex, central Himalaya Harrison,T.M.;Grove,M.;Mckeegan,K.D.;Coath,C.D.;Lovera,O.M.;Le Fort, P.
  15. Journal of the Society of Australia v.25 Constraints between I- and S-type granitoids of the Kosciusko batholith Hine,R.;Williams,I.S.;Chappell,B.W.;White,A.J.R.
  16. Lithos v.24 Importance of melt fraction and source rock composition in crustal genesis-the example of two granitic suites of northern Portugal Holtz,F.
  17. The Journal of the Petrological Society of Korea v.6 Petrological characteristics of two-micas granites: Example from Cheongsan, Inje-Hongcheon, Yeongju and Namwon areas Jwa,Y.J.
  18. The Journal of the Korean Institute of Mining Geology v.23 Gochronology and petrochemistry of foliated granites between Damyang and Jinan Kim,C.B.;Kim,Y.J.
  19. The Journal of the Korean Institute of Mining Geology v.2 K-Ar ages and major mineral compositions of the Mesozoic igneous rocks in the vicinity of the Geochang area Kim,Y.J.;Cho,D.L.;Park,Y.S.
  20. The Journal of the Korean Institute of Mining Geology v.22 The study in the igneous activity in the southeastern zone of the Ogchen geosynclinal belt, Korea(I): with the igneous activity in Namweon-Geochang-Sangju area Kim,Y.J.;Park,Y.S.;Choo,S.H.;Oh,M.S.
  21. The Journal of the Korean Earth Science society v.12 Petrochemistry on intermediated-basic plutons in Jirisan area of the Ryeongnam Massif Kim,Y.J.;Lee,C.S.;Kang,S.W.
  22. Journal of the Korean Institute of Mining Geology v.26 Petrochemical study on the Kwangju granite body Kim,Y.J.;Oh,M.S.;Park,J.B.
  23. The Journal of the Petrological Society of Korea v.1 Contrasting TiO₂/MgO ratio in the Namwon granitic complex Kwon,S.T.;Hong,S.S.
  24. 36th Annual Meeting of the Korea Society of Economic and Environmental Geology (Abstract) Petrological study on the Yuksipryeong two-mica granite Koh,J.S.;Yun,S.H.
  25. Geosciences Journal v.3 The compositions of biotite an muscovite in the Yuksipryeong two-mica granite and its petrological meaning Koh,J.S.;Yun,S.H.
  26. Journal of Geophysical Research v.86 Manaslu Leucogranite: a collision signature of the Himalaya, A model for its genesis and experiment Le Fort, P.
  27. Journal of Geology v.93 Are strongly peraluminous magmas derived from pelitic sedimentary sources? Miller,C.F.
  28. Ph.D. thesis, Tsukuba University Genesis of granitoid batholiths of Okchon zone, Korea and its implications for crustal evolution Na,C.K.
  29. Geochimica et Cosmochimica Acta v.49 Partition coefficients for trace elements in silicic magmas Nash,W.P.;Crecraft,H.R.
  30. The Journal of Geology v.98 The genesis of late Hercynian granitoids from Galicia (northwestern Spain): Inferences from REE studies Ortega,L.A.;Gil Ibarguchi,J.I.
  31. Contribution to Mineralogy and Petrology v.107 Phase equilibria and melt productivity in the pelite system; implications for the origin of peraluminous granitoids and aluminous granulites Patino Douce,A.E.;Johnston,A.D.
  32. Journal of Petrology v.36 Dehydration-melting of biotite gneiss and quartz amphibolite from 3 to 15 kbar Patino Douce,A.E.;Beard,J.S.
  33. Journal of Petrology v.39 Experimental constraints on Himalayan Anatexis Patino Douce,A.E.;Harris,N.
  34. Contributions to Mineralogy and Petrology v.100 The Miocene-Pliocene Macusani volcanics, SE Peru. I. Mineralogy and magmatic evolution of a twomica aluminosilicate-bearing ignimbrite suite Pichavant,M.;Kontak,D.J.;Herrera,J.V.;Clark,A.H.
  35. Lithos v.24 Petrogenesis of contrasting Hercynian granitoids from the Calabrian Arc, southern Italy Rottura,A.;Bargossi,G.M.;Caironi,V.;Del Moro, A.;Maccarrone,E.;Macera,P.;Paglionico,A.;Petrini,R.;Piccarreta,G.;Poli,G.
  36. Journal of Petrology v.36 Experimental crystallization of leucogranite magmas Scaillet,B.;Pichavant,M.;Roux,J.
  37. Earth and Planetary Science Letters v.77 U-(Th)-Pb systematics and ages of Himalayan leucogranites, South Tibet Scharer,U.;Xu,R.H.;Allegre,C.J.
  38. The Journal of Geology v.105 Shisha Pangma leucogranite, South Tibetan Himalaya: field relations, geochemistry, age, origin, and emplacement Searle,M.P.;Parrish,R.R.;Hodges,K.V.;Hurford,A.;Ayres,M.W.;Whitehouse,M.J.
  39. Journal of Petrology v.37 Vapor-absent melting from 10 to 20 kbar of crustal rocks that contain multiple hydrous phases; implications for anatexis in the deep to very deep continental crust and active continental margin Skjerlie,K.P.;Johnston,A.D.
  40. Lithos v.45 Post-collisional strongly peraluminous granites Sylvester,P.J.
  41. The continental crust: its composition and evolution Taylor,S.R.;McLennan,S.M.
  42. Contributions to Mineralogy and Petrology v.104 Meta-igneous origin of Hercynian peraluminous granites in N.W. French Massif Central: implications for crustal history reconstructions Turpin,L.;Cuney,M.;Friedrich,M.;Bouchez,J.L.;Aubertin,M.
  43. Geochimica et Cosmochimica Acta v.46 Geochemical investigations of the origin o fthe Manaslu leucogranite 9Himalaya, Nepal) Vidal,P.;Cocherie,A.;Le Fort, P.
  44. Lithos v.43 Crustal origin of Hercynian peraluminous granitic batholiths of Central Spain: petrological, geochemical and isotopic (Sr, Nd) constraints Villaseca,C.;Barbero,L.;Rogers,G.
  45. The Journal of Geology v.107 Metamorphism, melting, and extension: age constraints from the High Himalayan Slab of Southeast Zanskar and Northwest Lahaul Walker,J.D.;Martin,S.A.;Bowring,S.A.;Searle,M.P.;Waters,D.J.;Hodges,K.V.
  46. Chemical Geology v.127 Geochemical constraints on the genesis of Hercynian two-mica leucogranites from the Massif Central, France Williamson,B.J.;Shaw,A.;Downes,H.;Thirlwall,M.F.
  47. Journal of Petrology v.27 Aluminum enrichment in silicate melts by fractional crystallization: Some mineralogic and petrographic constraints Zen-E-an