地球科学与环境学报
地毬科學與環境學報
지구과학여배경학보
JOURNAL OF EARTH SCIENCES AND ENVIRONMENT
2014年
1期
218-229
,共12页
时毓%于津海%杨启军%刘希军%冯佐海%朱昱桦
時毓%于津海%楊啟軍%劉希軍%馮佐海%硃昱樺
시육%우진해%양계군%류희군%풍좌해%주욱화
地球化学%锆石U-Pb年龄%Hf同位素%太古代%地壳演化%太华群%华北克拉通%小秦岭地区
地毬化學%鋯石U-Pb年齡%Hf同位素%太古代%地殼縯化%太華群%華北剋拉通%小秦嶺地區
지구화학%고석U-Pb년령%Hf동위소%태고대%지각연화%태화군%화북극랍통%소진령지구
geochemistry%zircon U-Pb age%Hf isotope%Archean%crustal evolution%Taihua Group%North China Craton%Xiaoqinling area
以小秦岭地区太华群二长片麻岩为研究对象,分析其地球化学、锆石U-Pb年龄和 Hf同位素特征。地球化学分析显示其原岩为高钾钙碱性花岗质岩石,稀土元素总含量较高(229×10-6),轻、重稀土元素分馏明显(w(La)N/w(Yb)N=45.39),有明显的 Eu负异常(0.43)。原始地幔标准化微量元素蛛网图显示其富集Rb、Ba、Th、U等大离子亲石元素和亏损Nb、Ta、Sr、P、Ti等高场强元素。锆石U-Pb定年结果显示,其原岩的形成时代为古元古代早期(2.47 Ga)。锆石 Hf同位素分析结果显示:初始N(176 Hf)/N(177 Hf)值变化范围很小,为0.281284~0.281328,εHf(t)值均为正值(0.93~5.18);二阶段 Hf模式年龄为2.70~2.89 Ga,新生地壳(现代岛弧火山)Hf模式年龄为2.54~2.73 Ga,接近于锆石结晶年龄(2.47 Ga),指示华北克拉通南缘在这一时期有明显的新生地壳生长。华北克拉通南缘在新太古代早期(2.7~2.9 Ga)、新太古代晚期-古元古代早期(2.2~2.5 Ga)和古元古代中期(1.8~2.1 Ga)有3期重要的构造热事件。新太古代早期及晚期有明显的新生地壳生长(εHf(t)>0),新太古代晚期-古元古代早期和古元古代中期的岩浆活动有明显的新生地壳生长,同时还伴随有古老地壳物质的再循环和改造(εHf(t)>0或εHf(t)<0)。
以小秦嶺地區太華群二長片痳巖為研究對象,分析其地毬化學、鋯石U-Pb年齡和 Hf同位素特徵。地毬化學分析顯示其原巖為高鉀鈣堿性花崗質巖石,稀土元素總含量較高(229×10-6),輕、重稀土元素分餾明顯(w(La)N/w(Yb)N=45.39),有明顯的 Eu負異常(0.43)。原始地幔標準化微量元素蛛網圖顯示其富集Rb、Ba、Th、U等大離子親石元素和虧損Nb、Ta、Sr、P、Ti等高場彊元素。鋯石U-Pb定年結果顯示,其原巖的形成時代為古元古代早期(2.47 Ga)。鋯石 Hf同位素分析結果顯示:初始N(176 Hf)/N(177 Hf)值變化範圍很小,為0.281284~0.281328,εHf(t)值均為正值(0.93~5.18);二階段 Hf模式年齡為2.70~2.89 Ga,新生地殼(現代島弧火山)Hf模式年齡為2.54~2.73 Ga,接近于鋯石結晶年齡(2.47 Ga),指示華北剋拉通南緣在這一時期有明顯的新生地殼生長。華北剋拉通南緣在新太古代早期(2.7~2.9 Ga)、新太古代晚期-古元古代早期(2.2~2.5 Ga)和古元古代中期(1.8~2.1 Ga)有3期重要的構造熱事件。新太古代早期及晚期有明顯的新生地殼生長(εHf(t)>0),新太古代晚期-古元古代早期和古元古代中期的巖漿活動有明顯的新生地殼生長,同時還伴隨有古老地殼物質的再循環和改造(εHf(t)>0或εHf(t)<0)。
이소진령지구태화군이장편마암위연구대상,분석기지구화학、고석U-Pb년령화 Hf동위소특정。지구화학분석현시기원암위고갑개감성화강질암석,희토원소총함량교고(229×10-6),경、중희토원소분류명현(w(La)N/w(Yb)N=45.39),유명현적 Eu부이상(0.43)。원시지만표준화미량원소주망도현시기부집Rb、Ba、Th、U등대리자친석원소화우손Nb、Ta、Sr、P、Ti등고장강원소。고석U-Pb정년결과현시,기원암적형성시대위고원고대조기(2.47 Ga)。고석 Hf동위소분석결과현시:초시N(176 Hf)/N(177 Hf)치변화범위흔소,위0.281284~0.281328,εHf(t)치균위정치(0.93~5.18);이계단 Hf모식년령위2.70~2.89 Ga,신생지각(현대도호화산)Hf모식년령위2.54~2.73 Ga,접근우고석결정년령(2.47 Ga),지시화북극랍통남연재저일시기유명현적신생지각생장。화북극랍통남연재신태고대조기(2.7~2.9 Ga)、신태고대만기-고원고대조기(2.2~2.5 Ga)화고원고대중기(1.8~2.1 Ga)유3기중요적구조열사건。신태고대조기급만기유명현적신생지각생장(εHf(t)>0),신태고대만기-고원고대조기화고원고대중기적암장활동유명현적신생지각생장,동시환반수유고로지각물질적재순배화개조(εHf(t)>0혹εHf(t)<0)。
Geochemical,zircon U-Pb ages and Hf isotopic characteristics of two-feldspar gneiss from Taihua Group in Xiaoqinling area were analyzed.Geochemical results indicate that the protolith is high K calc-alkaline granitic rock with high REE content (229 × 10-6 ),obvious fractionation (w(La)N/w(Yb)N=45.39)of LREE and HREE and obvious negative Eu anomaly (0.43).The primitive mantle-normalized trace element spider diagram shows that it is enriched in LILE (e.g.Rb,Ba,Th and U)and relatively depleted in HFSE (e.g.Nb,Ta,Sr,P and Ti). The results of zircon U-Pb dating indicate that the forming age of protolith is early Paleoproterozoic (2.47 Ga).The results of zircon Hf isotope indicate that the range of initial N(176 Hf)/N(177 Hf)is small (0.281 284-0.281 328),εHf(t)values are positive (0.93-5.18);the two-stage Hf model ages are 2.70-2.89 Ga,and new continental crust (modern island arc volcano)Hf model ages are 2.54-2.73 Ga,which are close to the crystal age of zircon (2.47 Ga), so that new crustal growth is obvious in this period in the southern North China Craton.There are three important tectono-thermal events in early Neoarchean (2.7-2.9 Ga),late Neoarchean-early Paleoproterozoic (2.2-2.5 Ga)and middle Palaeoproterozoic (1.8-2.1 Ga)in the southern North China Craton.New crustal growth is obvious in early and late Neoarchean (εHf (t)>0), and new crustal growth is obvious for magmation in late Neoarchean-early Paleoproterozoic and middle Palaeoproterozoic,accompanying with recirculation and transformation of ancient crustal material (εHf (t)>0 orεHf(t)<0).