Genetic Environment of the Intrusion-related Yuryang Au-Te Deposit in the Cheonan Metallogenic Province, Korea     

Sang Joon Pak    Seon-Gyu Choi    Chang-Whan Oh  Chul-Ho  Heo  Sang-Hoon Choi  Sung-Won Kim 《Resource Geology》2006,56(2):117-132

Abstract. The Yuryang gold deposit, comprising a Te‐bearing Au‐Ag vein mineralization, is located in the Cheonan area of the Republic of Korea. The deposit is hosted in Precambrian gneiss and closely related to pegmatite. The mineralized veins display massive quartz textures, with weak alteration adjacent to the veins. The ore mineralization is simple, with a low Ag/Au ratio of 1.5:1, due to the paucity of Ag‐phases. Ore mineralization took place in two different mineral assemblages with paragenetic time; early Fe‐sulfide mineralization and late Fe‐sulfide and Au‐Te mineralization. The early Fe‐sulfide mineralization (pyrite + sphalerite) occurred typically along the vein margins, and the subsequent Au‐Te mineralization is characterized by fracture fillings of galena, sphalerite, pyrrhotite, Te‐bearing minerals (petzite, altaite, hessite and Bi‐Te mineral) and electrum. Fluid inclusions characteristically contain CO₂ and can be classified into four types (Ia, Ib, IIa and IIb) according to the phase behavior. The pressure corrected temperatures (≥500d?C) indicate that the deposit was formed at a distinctively high temperature from fluids with moderate to low salinity (<12 wt% equiv. NaCl) and CH₄ (1?22 mole %). The sphalerite geo‐barometry yield an estimated pressure about 3.5 ?2.1 kbar. The dominant ore‐deposition mechanisms were CO₂ effervescence and concomitant H₂S volatilization, which triggered sulfidation and gold mineralization. The measured and calculated isotopic compositions of fluids (δ¹⁸O_H2^O = 10.3 to 12.4 %o; δD_H2^O = ‐52 to ‐77 %o) may indicate that the gold deposition originated from S‐type magmatic waters. The physicochemical conditions observed in the Yuryang gold deposit indicate that the Jurassic gold deposits in the Cheonan area, including the Yuryang gold deposit are compatible with deposition of the intrusion‐related Au‐Te veins from deeply sourced fluids generated by the late Jurassic Daebo magmatism.  相似文献   

Polymetallic and Au-Ag Mineralizations at the Mutnovskoe Deposit in South Kamchatka, Russia     

Ryohei Takahashi    Hiroharu Matsueda  Victor M. Okrugin  Shuji Ono 《Resource Geology》2006,56(2):141-156

Abstract. The Mutnovskoe deposit located in the Porozhisto‐Asachinskaya metallogenic province of South Kamchatka, Russia, is a polymetallic vein and Au‐Ag quartz vein associated type of hydrothermal deposit. The Mutnovskoe deposit is located inside a paleo‐caldera structure at the center of the Mutnovsko‐Asachinskaya geothermal field of Pliocene ‐ Quaternary age, where active gold deposition is identified in hot spring precipitate. The Mutnovskoe deposit is subdivided into the north flank, the central flank and the south flank based on the vein distributions and mineral parageneses. The mineralized vein system is oriented N‐S hosted in diorite ‐ gabbroic diorite stock, volcanic rocks and sedimentary rocks of Miocene ‐ Pleistocene age. The mineralization stage I (polymetallic vein) mainly in the central and the south flanks is Zn‐Pb‐Cu‐Au‐Ag contained in sphalerite, galena and tetrahedrite‐tennantite group mineral. The stage II (Au‐Ag quartz vein) occurs in the north and the central flanks. The stage III (Mn‐sulfide and Mn‐Ca‐carbonate vein) occurs in the whole deposit area. Stage II is the typical Au‐Ag quartz‐adularia vein of low‐sulfidation type. Stage III is alabandite‐rhodochrosite‐quartz‐calcite vein. The K‐Ar ages are 1.3±0.1 Ma for stage I sericite in alteration zone, and 0.7±0.1 Ma for the stage II adularia in mineralized vein. Based on the fluid inclusion study, range of ore forming temperature of the Mutnovskoe deposit is 200 to 260d?C (av. 230d?C). Salinities of fluid inclusions indicate 2.2 to 5.7 wt% NaCl in sphalerite and 0.8 to 3.3 wt% NaCl in quartz for the stage I. Mineral paragenesis of the polymetallic vein (stage I) is characterized by a district zoning of tennantite and Cd‐rich sphalerite in the south flank and tetrahedrite and Mn‐rich sphalerite in the central flank, which is due to the fractional crystallizations of ore‐forming fluid. Depositional condition of the low sulfidation state is inferred for the Mutnovskoe deposit, where the polymetallic vein of the south flank is in relatively higher sulfidation state than the central flank.  相似文献   

洛阳地震台依法保护地震观测环境的实践与分析     

王世昌 《国际地震动态》2006,(1):24-29

分析了洛阳地震台依法保护地震观测环境的实践,认为这是一项长期性、复杂性的重要工作,需要建立一支地震观测和法律相结合的专业队伍,提出了保护工作要坚持的5项原则。保护工作,一方面要提高地震监测设施的抗干扰能力,另一方面,要敢于执法、善于执法,发挥政府机关对保护工作的积极作用。  相似文献   

内蒙古大井锡多金属矿床锡矿物特征   总被引：3，自引：0，他引：3  

王玉往  王京彬  王莉娟 《地质与勘探》2006,42(4):51-56

大井锡多金属矿床含锡矿物为锡石和黄锡矿,产于3个成矿阶段和5种矿石类型中.从早到晚,即韧性变形阶段→锡石-毒砂-石英阶段→锡石-硫化物阶段(或黄铜矿-黄铁矿阶段),主要含锡矿物锡石的化学成分,表现出SnO2逐渐升高而FeO、TiO2、Nb2O5、Ta2O5和In2O5依次跳跃式递减的特征,同时NiO和Ga2O5趋于升高.与一般脉状锡矿床相比,早阶段锡石富Ta而晚阶段锡石富Ti、Fe,表明早期的锡石更接近花岗质岩浆源特征而晚期锡石则明显具层控性质.锡石的组分变化特征与各阶段(内)从早到晚成矿温度递减有关.另一含锡矿物黄锡矿含As、Zn较高,仅出现于锡石-硫化物阶段,并在温度为220℃～320℃、硫逸度为10-10.04×105～10-13.44×105Pa的特定区间内淀出.两个阶段锡石的稀土元素特征分别与矿区次火山岩和林西组地层一致,表明早期锡石-毒砂-石英阶段中的锡主要来自次火山岩(如英安斑岩),而晚期锡石-硫化物阶段中的锡可能主要来自林西组围岩(如粉砂岩).  相似文献   

湘西北锰矿床成矿模式研究——以湖南花垣民乐锰矿床为例   总被引：9，自引：0，他引：9       下载免费PDF全文

杨绍祥  劳可通 《沉积与特提斯地质》2006,26(2):72-80

本文以湖南花垣民乐锰矿床为例,研究了矿床中火山碎屑物质的分布及特征,用硫同位素氧、碳同位素等成因地球化学特征阐明该区裂陷盆槽盆或地堑盆地中海底火山喷发对锰矿形成的重要意义,并提出了成矿模式,认为湘西北锰矿床属离火山喷发中心较远的海底火山喷发-沉积锰矿床。  相似文献   

北祁连山东段银硐粱早古生代高镁埃达克岩：地球动力学及成矿意义   总被引：16，自引：3，他引：16  

王金荣吴春俊  蔡郑红郭原生吴继承  刘晓煌 《岩石学报》2006,22(11):2655-2664

银硐粱早古生代花岗闪长岩分布在北祁连造山带东段屈吴山地区,侵入于原阴沟群和前寒武纪变质岩系中。它与米家山、扁强沟、清凹山以及南华山花岗岩类共同构成长约220千米的构造—花岗岩带,沿 NW-NWW 向展布。地球化学研究结果表明,银硐粱花岗闪长岩具有典型的高镁埃达克岩的地球化学特征,它们具有富 Na 贫 K,SiO_2>56%,Al_2O_3>15%,Na_2O>4.0%(4.51%～4.92%),K_2O(1.96～2.77%),Na_2O/K_2O=1.63～2.40,属钙碱性侵入岩;高 Sr(599～691×10~(-6)),低 Y(6.3～8.1×10~(-6)),Sr/Y>40(81～94),Y/Yb>10(Yb<1.9×10~(-6)),La/Yh>20(22～45)以及相对于典型的埃达克岩,具有更高的 Mg~#(58～64,平均59)和相容元素 Ni(31～38×10~(-6))和 Cr(35～43×10~(-6))含量;富集轻稀土元素(LREE),亏损重稀土元素(HREE),(La/Yb)_N>10(16～32),轻微负 Eu 异常(Eu/Eu*平均为0.94),∑REE(85～112)×10~(-6);微量元素蛛网图显示,岩石富集大离子亲石元素(Rb、Ba、Sr),Nb-Ta 和 Ti 负异常,相对于 Ce 和 Nd,Sr 为正异常。由于银硐粱高镁埃达克岩是俯冲洋壳部分熔融的产物,因此,它的存在表明,老虎山弧后洋盆在早古生代早期发生了向北的俯冲作用。银硐粱 Cu-Au 成矿作用与高镁埃达克岩关系密切,表明在北祁连构造带东段寻找与埃达克岩有关的 Cu-Au 矿床是一个新的找矿思路。  相似文献   

新疆东天山红山金矿成矿时代研究   总被引：4，自引：1，他引：4       下载免费PDF全文

陈文张彦  赵海滨  韩丹  王成玉 《中国地质》2006,33(3):632-640

红山金矿区位于秋格明塔什—黄山韧性剪切带东段北缘,矿床成因研究表明,红山金矿的形成严格受该韧性剪切带控制,属于与韧性剪切带有关的糜棱岩型、超糜棱岩型矿床。花岗质糜棱岩中角闪石276.3Ma的Ar-Ar坪年龄给出了红山金矿床成矿事件的时代上限。金矿石样品中绢云母246.9Ma和246.5Ma的Ar-Ar坪年龄记录了金矿床主成矿期的时代。糜棱岩中新生白云母246.5Ma的Ar-Ar坪年龄,在误差范围内和金矿石样品中绢云母的Ar-Ar坪年龄完全一致,不仅为红山金矿床的剪切带型成因提供了进一步的佐证,也对金成矿时代给予了进一步的限定。  相似文献   

赣南崇义地区淘锡坑钨矿的地质特征与成矿时代   总被引：55，自引：0，他引：55  

陈郑辉  王登红  屈文俊  陈毓川  王平安  许建祥  张家菁  许敏林 《地质通报》2006,25(4):496-501

江西省崇义县淘锡坑钨矿区位于南岭东西向构造带东段与武夷山北东-北北东向构造带南段的复合部位,是九龙脑-淘锡坑矿田的一个重要矿区,属于以石英脉型黑钨矿为主的钨多金属矿床.矿脉穿切于震旦系中,成矿主要受北西向断裂控制,成因与燕山期岩浆作用有关.选取含矿石英脉中与黑钨矿共生的辉钼矿进行Re-Os等时线年龄的测定,得到辉钼矿的等时线年龄为154 4Ma±3.8Ma,黑钨矿的模式年龄为164.0Ma±2.7Ma,表明该矿床形成于燕山早期.  相似文献   

水文行政执法初探     

詹晓安  李仁卿 《水文》1998,(3):5-7

为完善水文行政执法共作,规范水行政执法行为,就目前水文在行政执法中存在的这一些问题及应采取的措施谈点体会,以便更好地贯彻落实水法律的法规,加强水文行业管理工作。  相似文献   

岩石钾质变化及钾交代与成矿关系   总被引：8，自引：0，他引：8  

谢荣举  彭省临 《大地构造与成矿学》1998,22(3):274-279

钾质高低及变化可反映岩石演化程度和钾交代作用。发生钾交代的岩石为成矿有利岩石和找矿标志。岩石钾交代与钾质升高归根于富碱的地幔流体活动。上升的地幔流体交代上地幔和地壳岩石形成富碱岩石和碱交代岩,并活化迁移不同围岩中成矿元素形成各种矿床。大地构造单元边缘与陆内张裂活动带是地幔流体交代活动场所和大型矿床形成地。许多矿床包括金矿床和钾交代关系密切。  相似文献