帮助 关于我们

返回检索结果

“三江”地区中甸弧普朗成矿斑岩地球化学特征及其成因
Geochemistry and petrogenesis of Pulang porphyries in Sanjiang region

查看参考文献48篇

任江波 1   许继峰 1 *   陈建林 1   张世权 2   梁华英 1  
文摘 普朗斑岩铜矿床是中国西南“三江”地区新发现的具超大规模的印支期斑岩铜矿床,其成矿岩体的斑岩具有高的Sr含量(289×10-6~1 200×10-6,平均值为820×10-6)、Sr/Y(23~92)和La/Yb(平均值为16.4)比值和相对较高的MgO和Mg#值(>59),并富集大离子亲石元素和亏损高场强元素(Nb、Ta、Ti)等成分特征,这与形成于俯冲岛弧环境埃达克岩的地球化学组成相似,表明可能存在一个板片熔体在成岩和成矿过程中的贡献。同时高Th/Y、 Ba/La、Rb/Sr和Ba/Sr比值,以及相对较高的(87Sr/86Sr)i同位素比值(0.705 60~0.705 74)和较低的εNd(t)(-2.85~-2.20),指示有一个富集组分参与了成矿斑岩的形成过程,这个富集组分可能是普朗地区的岛弧地壳基底物质,也可能是俯冲沉积物。岛弧地壳物质或俯冲沉积物、或两者与板片熔融的埃达克质熔体进行了一定程度的相互作用,导致成矿斑岩“混合”型地球化学的组成。初步提出,普朗斑岩铜矿床可能是在东侧的甘孜-理塘洋晚三叠世俯冲过程中形成的,俯冲作用在早期形成了具有岛弧成分特征的石英闪长玢岩,其后板片熔融形成的埃达克质熔体增加,并混合了一定数量的上覆地壳物质或沉积物,产生了更酸性的、并具有较高氧逸度的埃达克岩岩浆,上侵到普朗地区的地壳中形成成矿斑岩和相关的斑岩铜矿床。
其他语种文摘 Located in Zhongdian island arc belt in northwestern Yunnan Province,the Pulang superlarge porphyry copper deposit was formed in late Triassic during the westward subduction of the Ganzi-Litang ocean plate below Zhongdian microplate.The mineralized rocks of the Pulang porphyry copper deposit mainly include quartz dioritic porphyries and quartz monzonitic porphyries in a complex pluton,and economic ores are mainly preserved in the quartz monzonitic porphyries.The quartz dioritic porphyrites were intruded by later quartz monzonitic porphyries,but the two kinds of rocks display similar geochemical characteristics,such as similar REE patterns,incompatible trace element patterns and initial 87Sr/86Sr and 143Nd/144Nd ratios,suggesting that they were cogenetic products or were derived from similar sources.Geochemically,both kinds of rocks are akin to adakite,as evidenced by such characteristics as high Sr content (289 x 10-6 ~ 1 200 x 10-6),high La/Yb and Sr/Yb ratios,relatively high MgO and Mg (>59),depleted Y and Yb,slightly negative Eu anomalies and positive Sr anomalies.Moreover,the radiogenic Sr [0.705 60 < (87 Sr/86 Sr)i < 0.705 74] and less radiogenic Nd [-2.85 <Nd(t)< -2.20]isotopic characteristics,together with high Th/Y,Ba/La,Rb/Sr,and Ba/Sr trace elements ratios,imply that enriched source components were involved during the formation of the porphyries.This enriched source was probably derived from the basement of arc crust or subducted sediments,and then some mixing processes possibility occurred between adakitic magmas and melts from sediments and/or arc crustal materials.A comparison between the quartz dioritic porphyrites and quartz monzonitic porphyries suggests that the former have low SiO2(>61.0%)and K20 (2.2% -4.4%),while the latter have high SiO2(> 65.9 %)and K2O (3.5 % 8.1% ).Therefore,the authors hold that the Pulang porphyry copper deposit was probably related to the westward subduction of Ganzhi-Litang oceanic plate during late Triassic.At the early stage of subduction,the quartz dioritic porphyries with subduction-related origin were formed firstly,then increasing adakitic magmas of slab melting were mixed with melts from subducted sediments or arc materials,producing more acid and high oxygen fugacity adakitic magmas,which finally intruded the upper crust below Pulang and promoted the mineralization of the Pulang porphyry copper deposit at the shallow level.
来源 岩石矿物学杂志 ,2011,30(4):581-592 【核心库】
关键词 斑岩铜矿Sr-Nd同位素 ; 印支期 ; 普朗 ; 中甸弧
地址

1. 中国科学院广州地球化学研究所, 广东, 广州, 510640  

2. 云南省地质调查院, 云南, 大理, 671000

语种 中文
文献类型 研究性论文
ISSN 1000-6524
学科 地质学
基金 国家973计划
文献收藏号 CSCD:4261169

参考文献 共 48 共3页

1.  Bedard J H. Petrogenesis of boninites from the Betts Cove Ophiolite,Newfoundland,Canada:Identification of subducted source components. Journal of Petrology,1999,40(12):1853-1889 CSCD被引 37    
2.  Chen Jianlin. Origin of Cenozoic alkaline potassic volcanic rocks at KonglongXiang,Lhasa terrane,Tibetan Plateau:Products of partial melting of a mafic lower-crustal source. Chemical Geology,2010,273:286-299 CSCD被引 61    
3.  Hou Zengqian. The Miocene Gangdese porphyry copper belt generated during post-collisional extension in the Tibetan Orogen. Ore Geology Reviews,2009,36(1/3):25-51 CSCD被引 165    
4.  Kay S. Evidence in Cerro Pampa volcanic rocks for slab-melting prior to ridge-trench collision in southern South America. The Journal of Geology,1993,101(6):703-714 CSCD被引 102    
5.  Le Bas M J. A chemical classification of volcanic rocks based on the total alkali-silica diagram. Journal of Petrology,1986,27(3):745-750 CSCD被引 675    
6.  Ling Mingxin. Cretaceous ridge subduction along the Lower Yangtse River Belt,Eastern China. Economic Geology,2009,104(2):303-321 CSCD被引 156    
7.  Liu Shuwen. Indosinian tectonic setting of the Southern Yidun Arc:Constraints from SHRIMP zircon chronology and geochemistry of dioritic porphyries and granites. Acta Geologica Sinica-English Edition,2006,80(3):387-399 CSCD被引 7    
8.  Martin H. An overview of adakite,tonalite-trondhjemite-granodiorite(TTG),and sanukitoid:relationships and some implications for crustal evolution. Lithos,2005,79(1/2):1-24 CSCD被引 506    
9.  Mungall J E. Roasting the mantle:Slab melting and the genesis of majorAu and Au-rich Cu deposits. Geology,2002,30(10):915-918 CSCD被引 231    
10.  Qu Xiaoming. Geochemical and Nd,Sr Isotopic Study of the Post-Orogenic Granites in the Yidun Arc Belt of Northern Sanjiang Region,Southwestern China. Resource Geology,2002,52(2):163-172 CSCD被引 23    
11.  Rapp R P. Reaction between slab-derived melts and peridotite in the mantle wedge:experimental constraints at 3.8 GPa. Chemical Geology,1999,160(4):335-356 CSCD被引 494    
12.  Richards J P. Tectono-magmatic precursors for porphyry Cu(Mo-Au)deposit formation. Economic Geology,2003,98:1515-1533 CSCD被引 282    
13.  Sillitoe R. Volcanic landforms and ore deposits. Economic Geology,1984,79(6):1286-1298 CSCD被引 1    
14.  Sillitoe R H. A plate tectonic model for the origin of porphyry copper deposits. Economic Geology,1972,67(2):184-197 CSCD被引 164    
15.  Sun S. Chenical and isotopic systernatics of oceanic basalts:implications for mantle composition and processes. Geological Society London Special Publications,1989,42(1):313-345 CSCD被引 4217    
16.  Sun Weidong. Release of gold-bearing fluids in convergent margin magmas prompted by magnetite crystallization. Nature,2004,431(7011):975-978 CSCD被引 139    
17.  Ulrich T. Geology and alteration geochemistry of the porphyry Cu-Au deposit at Bajo de la Alumbrera,Argentina. Economic Geology,2002,97(8):1865-1888 CSCD被引 10    
18.  Wang Qiang. Partial melting of thickened or delaminated lower crust in the middle of eastern China:Implications for Cu-Au mineralization. Journal of Geology,2007,115(2):149-161 CSCD被引 75    
19.  Wilson M. Igneous Petrogenesis,1989 CSCD被引 163    
20.  Xu Jifeng. Origin of Mesozoic adakitic intrusive rocks in the Ningzhen area of east China:Partial melting of delaminated lower continental crust. Geology,2002,30(12):1111-1114 CSCD被引 393    
引证文献 32

1 任江波 中甸岛弧成矿斑岩的锆石年代学及其意义 岩石学报,2011,27(9):2591-2599
CSCD被引 28

2 黄肖潇 中甸岛弧红山地区两期中酸性侵入岩的年代学、地球化学特征及其成因 岩石学报,2012,28(5):1493-1506
CSCD被引 32

显示所有32篇文献

论文科学数据集
PlumX Metrics
相关文献

 作者相关
 关键词相关
 参考文献相关

版权所有 ©2008 中国科学院文献情报中心 制作维护:中国科学院文献情报中心
地址:北京中关村北四环西路33号 邮政编码:100190 联系电话:(010)82627496 E-mail:cscd@mail.las.ac.cn 京ICP备05002861号-4 | 京公网安备11010802043238号