大地构造与成矿学
大地構造與成礦學
대지구조여성광학
Geotectonica et Metallogenia
2015年
5期
903-918
,共16页
周云%梁新权%梁细荣%蒋英%蔡运花%邹水长%王策%付建刚%董超阁
週雲%樑新權%樑細榮%蔣英%蔡運花%鄒水長%王策%付建剛%董超閣
주운%량신권%량세영%장영%채운화%추수장%왕책%부건강%동초각
白垩纪%火山岩%锆石U-Pb定年%Sr-Nd同位素%海南岛
白堊紀%火山巖%鋯石U-Pb定年%Sr-Nd同位素%海南島
백성기%화산암%고석U-Pb정년%Sr-Nd동위소%해남도
Cretaceous%volcanic rocks%zircon U-Pb dating%Sr-Nd isotopes%Hainan Island
琼南分布有大量白垩纪火山岩,目前对这些火山岩的研究程度仍然较低。本文对出露在三亚六罗地区六罗村组的白垩纪火山岩进行了精细的年代学和元素地球化学分析。LA-ICP-MS 锆石 U-Pb 定年表明,六罗村组上部的流纹岩和下部的玄武安山岩具有一致的形成年龄,均为102±1 Ma。其中流纹岩样品富硅高钾, SiO2含量73.77%~74.79%, K2O含量5.09%~6.77%, K2O/Na2O 比值1.71~2.80;属强过铝质(A/CNK=1.17~1.22)、高钾钙碱性岩系。样品具中等负 Eu 异常(δEu=0.51~0.61),亏损 Nb、Ta,富集 Rb、Ba 等大离子亲石元素(LILE);轻、重稀土元素分馏程度较强,(La/Yb)CN值为15.05~16.97。玄武岩?安山岩样品的SiO2含量在49.82%~57.93%之间,其K2O/Na2O比值(0.32~1.11)明显低于流纹岩样品, Mg#(46~58)明显高于流纹岩样品。样品的轻、重稀土元素分馏程度相对流纹岩样品要弱,其(La/Yb)CN值为9.42~12.24;Eu异常不明显(δEu=0.86~0.94),亏损Nb、Ta,富集LILE, P、Ti元素的负异常相对流纹岩样品要弱。Sr-Nd同位素研究结果显示,流纹岩和玄武岩–安山岩样品的(87Sr/86Sr)i 值分别为0.708222~0.708965和0.707532~0.708401;εNd(t)值分别为–2.49~–2.69和–2.35~–4.09,二者具有一致的Sr-Nd同位素组成。综合分析认为这套火山岩的源区可能来自受俯冲组分交代的大陆岩石圈地幔,形成于伸展环境,可能与古太平洋板块俯冲引起的岩石圈伸展有关。
瓊南分佈有大量白堊紀火山巖,目前對這些火山巖的研究程度仍然較低。本文對齣露在三亞六囉地區六囉村組的白堊紀火山巖進行瞭精細的年代學和元素地毬化學分析。LA-ICP-MS 鋯石 U-Pb 定年錶明,六囉村組上部的流紋巖和下部的玄武安山巖具有一緻的形成年齡,均為102±1 Ma。其中流紋巖樣品富硅高鉀, SiO2含量73.77%~74.79%, K2O含量5.09%~6.77%, K2O/Na2O 比值1.71~2.80;屬彊過鋁質(A/CNK=1.17~1.22)、高鉀鈣堿性巖繫。樣品具中等負 Eu 異常(δEu=0.51~0.61),虧損 Nb、Ta,富集 Rb、Ba 等大離子親石元素(LILE);輕、重稀土元素分餾程度較彊,(La/Yb)CN值為15.05~16.97。玄武巖?安山巖樣品的SiO2含量在49.82%~57.93%之間,其K2O/Na2O比值(0.32~1.11)明顯低于流紋巖樣品, Mg#(46~58)明顯高于流紋巖樣品。樣品的輕、重稀土元素分餾程度相對流紋巖樣品要弱,其(La/Yb)CN值為9.42~12.24;Eu異常不明顯(δEu=0.86~0.94),虧損Nb、Ta,富集LILE, P、Ti元素的負異常相對流紋巖樣品要弱。Sr-Nd同位素研究結果顯示,流紋巖和玄武巖–安山巖樣品的(87Sr/86Sr)i 值分彆為0.708222~0.708965和0.707532~0.708401;εNd(t)值分彆為–2.49~–2.69和–2.35~–4.09,二者具有一緻的Sr-Nd同位素組成。綜閤分析認為這套火山巖的源區可能來自受俯遲組分交代的大陸巖石圈地幔,形成于伸展環境,可能與古太平洋闆塊俯遲引起的巖石圈伸展有關。
경남분포유대량백성기화산암,목전대저사화산암적연구정도잉연교저。본문대출로재삼아륙라지구륙라촌조적백성기화산암진행료정세적년대학화원소지구화학분석。LA-ICP-MS 고석 U-Pb 정년표명,륙라촌조상부적류문암화하부적현무안산암구유일치적형성년령,균위102±1 Ma。기중류문암양품부규고갑, SiO2함량73.77%~74.79%, K2O함량5.09%~6.77%, K2O/Na2O 비치1.71~2.80;속강과려질(A/CNK=1.17~1.22)、고갑개감성암계。양품구중등부 Eu 이상(δEu=0.51~0.61),우손 Nb、Ta,부집 Rb、Ba 등대리자친석원소(LILE);경、중희토원소분류정도교강,(La/Yb)CN치위15.05~16.97。현무암?안산암양품적SiO2함량재49.82%~57.93%지간,기K2O/Na2O비치(0.32~1.11)명현저우류문암양품, Mg#(46~58)명현고우류문암양품。양품적경、중희토원소분류정도상대류문암양품요약,기(La/Yb)CN치위9.42~12.24;Eu이상불명현(δEu=0.86~0.94),우손Nb、Ta,부집LILE, P、Ti원소적부이상상대류문암양품요약。Sr-Nd동위소연구결과현시,류문암화현무암–안산암양품적(87Sr/86Sr)i 치분별위0.708222~0.708965화0.707532~0.708401;εNd(t)치분별위–2.49~–2.69화–2.35~–4.09,이자구유일치적Sr-Nd동위소조성。종합분석인위저투화산암적원구가능래자수부충조분교대적대륙암석권지만,형성우신전배경,가능여고태평양판괴부충인기적암석권신전유관。
A large number of volcanic rocks outcrops have been reported in the southern Hainan Island, but their geochronology, petrogenesis and tectonic implications are still unclear. In this study, we present detailed zircon U-Pb dating results and major and trace elemental compositions of the Liuluocun Formation volcanic rocks in the Liuluo area of Sanya, Hainan Island. LA-ICP-MS zircon U-Pb dating of the rhyolite from the upper Liuluocun Formation yields an age of 102±1 Ma, basaltic andesite from the lower Liuluocun Formation also shows an age of 102±1 Ma, indicating late stage of the Early Cretaceous volcanic activity occurred in southern Hainan Island. The rhyolites are characterized by high contents of silicon (SiO2=73.77%?74.79%) and potassium (K2O=5.09%?6.77%) and K2O/Na2O ratios (1.71?2.80), and low Mg# (22?28). They show negative Ti, P, Nb and Ta anomalies, obvious depletion of Eu (δEu=0.51?0.61), enrichment in Rb, Ba and LILE and strong fractionation between LREE and HREE (La/YbCN=15.05?16.97). The basalts-andesites have SiO2 ranging from 49.82%to 57.93%and lower value of K2O/Na2O (0.32?1.11) and higher value of Mg# (46?58) than those of the rhyolites. They show slight Eu anomalies (δEu=0.86~0.94), depletion of Nb and Ta, and enrichment of LILE. They have lower degree fractionation between LREE and HREE (La/YbCN=9.42?12.24) and weaker negative P, Ti anomalies than those of the rhyolites. Besides, rhyolite and basalt-andesite samples show similar (87Sr/86Sr)i (0.708222?0.708965 and 0.707532?0.708401, respectively) andεNd(t) values (?2.49??2.69 and?2.35??4.09, respectively), indicating that they may have derived mainly from the same source. Combining with the regional geological data, we propose that these volcanic rocks are most likely generated from continental lithospheric mantle which had been modified by subduction component, and their formation was closely related to the regional lithospheric extension in the South China Craton during the Early Cretaceous, most likely caused by subduction of the Paleo-Pacific plate beneath the continental plate of China.
