地质论评
地質論評
지질론평
GEOLOGICAL REVIEW
2009年
5期
673-684
,共12页
李艳军%魏俊浩%姚春亮%鄢云飞%谭俊%付乐兵%潘锦勃%李伟
李豔軍%魏俊浩%姚春亮%鄢雲飛%譚俊%付樂兵%潘錦勃%李偉
리염군%위준호%요춘량%언운비%담준%부악병%반금발%리위
LA-ICPMS锆石U-Pb年代%高演化I型花岗岩%弧后伸展%石平川花岗岩%浙江
LA-ICPMS鋯石U-Pb年代%高縯化I型花崗巖%弧後伸展%石平川花崗巖%浙江
LA-ICPMS고석U-Pb년대%고연화I형화강암%호후신전%석평천화강암%절강
LA-ICP-MS zircon U-Pb dating%highly fractionated I-type granite%back-arc extension%the Shipingchuan granite%Zhejiang province
石平川钾长花岗岩体位于浙江沿海火山岩带的中南部,LA-ICP-MS锆石U-Pb定年结果为102.5±1.2 Ma(MSDW=2.1),形成于早白垩世末期.岩相学及化学成分显示其属高钾钙碱性岩系,具有高硅富钾和铝低铁、镁、磷和钛特征,SiO_2含量为74.79%~77.79%,K_2O为4.26%~7.97%,铝指数A/CNK=0.98~1.10,属准铝质-弱过铝质岩石.富集Rb、Th、U和K,亏损Sr、Ba、Nb、P和Ti,REE具有中等负Eu异常(Eu/Eu~*=0.33~0.50),总体呈现LREE富集的右倾"V"型配分模式.岩石[n(~(87)Sr)/n(~(86)Sr)]i值为0.70801~0.71012(t=102.5Ma),ε_(Nd)(t)值为-8.63~-8.76,显示壳-幔混合成因特征.矿物组成及地球化学特征显示石平川岩体为高演化I型花岗岩.微量元素显示石平川岩体具有后碰撞花岗岩的特征,侵位于早白垩世末期的张性构造环境,其形成可能与印度板块北向漂移所导致的古太平洋板块碰撞弧后引张构造有关.
石平川鉀長花崗巖體位于浙江沿海火山巖帶的中南部,LA-ICP-MS鋯石U-Pb定年結果為102.5±1.2 Ma(MSDW=2.1),形成于早白堊世末期.巖相學及化學成分顯示其屬高鉀鈣堿性巖繫,具有高硅富鉀和鋁低鐵、鎂、燐和鈦特徵,SiO_2含量為74.79%~77.79%,K_2O為4.26%~7.97%,鋁指數A/CNK=0.98~1.10,屬準鋁質-弱過鋁質巖石.富集Rb、Th、U和K,虧損Sr、Ba、Nb、P和Ti,REE具有中等負Eu異常(Eu/Eu~*=0.33~0.50),總體呈現LREE富集的右傾"V"型配分模式.巖石[n(~(87)Sr)/n(~(86)Sr)]i值為0.70801~0.71012(t=102.5Ma),ε_(Nd)(t)值為-8.63~-8.76,顯示殼-幔混閤成因特徵.礦物組成及地毬化學特徵顯示石平川巖體為高縯化I型花崗巖.微量元素顯示石平川巖體具有後踫撞花崗巖的特徵,侵位于早白堊世末期的張性構造環境,其形成可能與印度闆塊北嚮漂移所導緻的古太平洋闆塊踫撞弧後引張構造有關.
석평천갑장화강암체위우절강연해화산암대적중남부,LA-ICP-MS고석U-Pb정년결과위102.5±1.2 Ma(MSDW=2.1),형성우조백성세말기.암상학급화학성분현시기속고갑개감성암계,구유고규부갑화려저철、미、린화태특정,SiO_2함량위74.79%~77.79%,K_2O위4.26%~7.97%,려지수A/CNK=0.98~1.10,속준려질-약과려질암석.부집Rb、Th、U화K,우손Sr、Ba、Nb、P화Ti,REE구유중등부Eu이상(Eu/Eu~*=0.33~0.50),총체정현LREE부집적우경"V"형배분모식.암석[n(~(87)Sr)/n(~(86)Sr)]i치위0.70801~0.71012(t=102.5Ma),ε_(Nd)(t)치위-8.63~-8.76,현시각-만혼합성인특정.광물조성급지구화학특정현시석평천암체위고연화I형화강암.미량원소현시석평천암체구유후팽당화강암적특정,침위우조백성세말기적장성구조배경,기형성가능여인도판괴북향표이소도치적고태평양판괴팽당호후인장구조유관.
The Shipingchuan K-feldspar granite is situated in south-central volcanic belt of southeastern Zhejiang Province. LA-ICP-MS zircon U-Pb dating yields a weighted mean ~(206)Pb/~(238)U age of 102.5±1.2 Ma (MSDW=2.1)for the Shipingchuan granite intrusion,implying its end of early Cretaceous crystallization time. Petrography and chemical compositions show that it belongs to high-K calc-alkaline series characterized by high silicon,enriched in kalium and aluminum but depleted in iron,magnesium,phosphorus and titanium.SiO_2 and K_2O contents range from 74.79% to 77.79% and 4.26% to 7.97% respectively. A/CNK values vary from 0.98 to 1.10,indicating a metaluminous to weakly peraluminous character. The rocks are enriched in Rb,Th,U and K,but depleted in Sr,Ba,Nb,P and Ti. REEs are characterized by intermediate negative Eu anomalies with Eu/Eu* =0.33~0.50 and exhibit right-dipping "V" patterns with LREE enrichment. [n(~(87)Sr)/n(~(86)Sr)]I and ε_(Nd)(t) values (t=102.5Ma)of the Shipingchuan intrusion range from 0.70801 to 0.71012 and -8.76 to -8.63 respectively,showing the intrusion is the result of mixing by crustal and mantle materials.Mineralogy and geochemistry suggest that the Shipingchuan K-feldspar granite intrusion is a highly fractionated I-type granite. Trace elements features display that the pluton was a post-collisional granite and formed in an extensional tectonic setting in the end of early Cretaceous. These results indicate the Shipingchuan granite is related to back-arc extension due to high angle subduction of the paleo-Pacific plate,caused by northward movement of Indian plate.
