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1.
胶东是目前中国最大的金矿集中区,矿床位于花岗岩与老地层之间的区域剪切断裂带,围岩是在花岗岩区段的断裂破碎蚀变岩带,成矿作用与岩浆期后热液交代直接相关。区域构造流体研究的一个难题是:如何选择既能保证流体包裹体分析质量,又可以观测交代蚀变阶段构造应力应变的岩石样品。文中选择断裂蚀变带中钾长石化和绢英岩化两个蚀变岩带采集样品,试图解决区域流体研究中的问题。研究发现,胶东区域断裂蚀变岩带构造与热液的物理化学条件变化具有规律性:在钾长石化蚀变阶段,西部构造强度更强,而在绢英岩化蚀变阶段,东部构造应变值相对更大;钾长石化阶段的流体温度西部低东部高,绢英岩化阶段西部高东部低,显示了热力来源东部更强。胶东区域主要断裂蚀变岩带的构造附加静水压力从西到东逐渐降低,表明区域成矿热液的流动方向为自西向东。绢英岩化蚀变岩流体成分的区域变化显示:Na+/K+变化预示,胶东西部K+富集,有利于金的富集成矿,而胶东东部Na+富集,利于成矿流体的迁移;CH4和CO2等流体成分的含量自西向东逐渐降低,与金元素富集正相关。胶东区域断裂蚀变岩带的构造流体特征揭示了成矿热液在胶东地区自西向东运移的趋势。这种趋势影响了这一地区金矿床的规模、矿床类型和分布规律。 相似文献
2.
胶东是目前中国最大的金矿集中区,矿床位于花岗岩与老地层之间的区域剪切断裂带,围岩是在花岗岩区段的断裂破碎蚀变岩带,成矿作用与岩浆期后热液交代直接有关。区域构造-流体研究的一个难题是:如何选择既能保证流体包裹体分析质量,又可以观测交代蚀变阶段构造应力应变的岩石样品。本文选择断裂蚀变带中钾长石化和绢英化两个蚀变岩带采集样品,试图解决区域流体研究中的问题。研究发现,胶东区域断裂蚀变岩带构造与热液的物理化学条件变化具有规律性:在钾长石化蚀变阶段,西部构造强度更强,而在绢英岩化蚀变阶段,东部构造应变值相对更大;钾长石化阶段的流体温度西部低东部高,绢英岩化阶段西部高东部低,显示了热力来源东部更强。胶东区域主要断裂蚀变岩带的构造附加静水压力从西到东逐渐降低,表明区域成矿热液的流动方向为自西向东。绢英化蚀变岩流体成分的区域变化显示:Na+/K+变化预示,胶东西部K+富集,有利于金的富集成矿,而胶东东部Na+富集,利于成矿流体的迁移;CH4和CO2等流体成分的含量自西向东逐渐降低,与金元素富集正相关。胶东区域断裂蚀变岩带的构造-流体特征揭示了成矿热液在胶东地区自西向东运移的趋势。这种趋势影响了这一地区金矿床的规模、矿床类型和分布规律。 相似文献
3.
胶东大尹格庄金矿床热液蚀变作用 总被引:5,自引:2,他引:3
胶东是我国最重要的金矿集区。其中,破碎带蚀变岩型———"焦家式"金矿床是区内最重要的金矿床类型,占胶东已探明金矿资源量的90%以上。大尹格庄金矿床位于胶西北招平断裂带中段,是典型的破碎带蚀变岩型金矿床,区内发育有大规模的绢英岩化蚀变带(宽20~200m)和钾化/红化蚀变带(宽50~300m),蚀变岩型金矿体主要发育在招-平断裂带下盘的绢英岩化蚀变带中。本文在详细的野外地质观测基础上,查清了大尹格庄金矿床蚀变类型及矿物组合特征,针对大尹格庄金矿床Ⅱ号矿体系统采集了不同蚀变类型的岩石样品,进行了岩石元素地球化学分析,运用质量平衡方法讨论了热液蚀变过程中元素迁移规律,初步探讨了大尹格庄金矿床热液蚀变作用过程和金沉淀机制。通过本研究得出:大尹格庄金矿床内主要矿石类型为黄铁绢英岩,以浸染状、细脉状为主要矿化形式。大尹格庄金矿床热液蚀变期在时间上可以划分为:钾化/红化→绢英岩化→黄铁绢英岩化→碳酸盐化。钾化/红化蚀变为成矿前蚀变,在此过程中有少量热液钾长石的形成。在地球化学方面表现为Fe、Cu、Pb和Rb元素带入,Si、Al、Na、Ca、Ba、Sr、Cr等元素带出。同时流体-围岩通过交代反应使金从围岩中释放出来成为高价态离子活化进入成矿流体。绢英岩化和黄铁绢英岩化蚀变为成矿期蚀变,蚀变过程中与矿化有关的Fe、Cu、Pb元素表现为迁入状态,流体运移过程中,热液中的HS~-等组分损失,导致Au(HS)~(2-)络合物失稳分解,Fe~(2+)、Fe~(3+)被消耗形成黄铁矿,同时金大量聚集沉淀,此时完成了金由活化→迁移→沉淀富集成矿过程。 相似文献
4.
《地质通报》2020,(8)
谢家沟金矿床位于胶西北焦家断裂带和招平断裂带之间。通过详细的野外地质观测与室内研究,查明了谢家沟金矿床的蚀变类型及空间分带,系统采集不同蚀变类型的岩石样品,进行岩石元素地球化学分析,运用Isocon方法分析探讨了热液蚀变过程中的元素迁移规律及其对成矿流体性质、矿质沉淀的制约。蚀变从中心到两侧分别为含陡立石英脉的黄铁绢英岩化、黄铁绢英岩化、钾长石化;从早到晚依次为钾长石化、黄铁绢英岩化、含陡立石英脉的黄铁绢英岩化。钾长石化蚀变表现为钾长石和黑云母分别交代玲珑黑云母花岗岩中的斜长石和角闪石,K明显的迁入,Si轻微迁入,Ca、Mg为迁出,Fe轻微迁出。黄铁绢英岩化蚀变叠加于钾长石化蚀变之上,主要表现为斜长石、钾长石、黑云母等矿物在含H+、HS-溶液中失稳,被绢云母、石英替代,Fe、Mg、Ca为迁入,K、Na、Si表现为元素迁出。从钾长石化阶段到黄铁绢英岩化阶段,流体从碱性转变为酸性; Au迁移形式也逐渐由氯的络合物转化为硫氢络合物。随着成矿流体的不断演化,成矿流体与围岩不断反应,含矿热液化学性质不断变化促进了金的沉淀。 相似文献
5.
胶东焦家金矿床热液蚀变作用 总被引:12,自引:7,他引:5
胶东作为中国最重要的金矿集区,区内大型-超大型金矿床集中产出,已探明金矿资源量占全国近1/3。其中,破碎带蚀变岩型金矿床是最重要的金矿床类型,占胶东已探明金矿资源量的90%以上,焦家金矿床是著名的"焦家式"破碎带蚀变岩型金矿的命名地,内发育大规模的绢英岩化蚀变带(宽20~200m)和钾化蚀变带(50~300m),蚀变岩型金矿体主要发育在焦家断裂带下盘的绢英岩化蚀变带中。本文通过详细的野外地质观测,查清了焦家金矿床蚀变类型及矿物组合特征,系统采集了不同蚀变类型的岩石样品,进行了岩石元素地球化学分析,运用质量平衡方法讨论了热液蚀变过程中元素迁移规律,初步探讨了焦家金矿床热液蚀变机理。其中,钾化蚀变是成矿前蚀变,钾化花岗岩常以团块状或角砾状残留于黄铁绢英岩和绢英岩内;黄铁绢英岩化和绢英岩化蚀变受焦家断裂及其下盘的次级断裂控制,其规模大小受断裂的规模控制;其中焦家主断裂下盘的绢英岩化蚀变带规模最大,一般宽10~200m;而次级断裂控制的绢英岩化蚀变带规模相对较小,一般以0.1~1m宽的脉状发育在钾化花岗岩内,指示绢英岩化蚀变晚于钾化蚀变。相对于黑云母花岗岩,不同蚀变带岩石普遍表现出高K2O、低Al2O3、CaO和Na2O,而不同蚀变岩石Si、Fe、Mg等元素各表现出不同特征。钾化带岩石表现为K2O的富集,而绢英岩带和黄铁绢英岩带岩石表现为MgO、Fe2O3增加的趋势。黑云母花岗岩发生钾化蚀变过程中,SiO2、K2O表现为明显的带入,指示在钾长石化过程中,流体为富硅的碱性氧化流体。在钾化花岗岩→黄铁绢英岩过程中,Fe2O3表现为明显的带入,可能是由于黑云母等暗色矿物的分解造成的;此外,亲硫元素(Au、Ag、As、Pb、Zn)均表现为带入,特别是成矿元素Au表现为明显的带入。结合本区金的来源可能部分为玲珑黑云母花岗岩,本研究认为钾化过程中的富硅碱性氧化流体通过交代蚀变反应使金从围岩中释放、成为高价态离子活化进入成矿流体,即分散还原态的金(Au0)被活化为氧化态(Au+、Au3+)以AuH3SiO4形式随热液迁移。在绢英岩化过程中,热液中的SiO2等组分损失,引起热液中的AuH3SiO4稳定性降低,造成AuH3SiO4分解,Fe2+、Fe3+被消耗形成黄铁矿,导致金大量沉淀和聚集沉淀,此时完成了金由活化→迁移→沉淀富集成矿。 相似文献
6.
金青顶金矿是胶东东部一个特大型石英脉型金矿床,其探测深度已达约1 340 m,含矿石英脉的围岩主要为黑云二长花岗岩。文中对蚀变围岩中钾长石、斜长石和石英等主要矿物的结构与形态特征进行了详细观察及成因分析,发现热液成因钾长石大量存在于近矿围岩中,且深部钾长石化强度和范围都有加大的趋势,并大量出现由正长石和石英组成的团块状似伟晶岩。关于热液钾长石的形成温度,目前尚无可靠的测试数据。文中运用二长石温度计对蚀变岩中条纹长石平衡温度进行了估算,获得似伟晶岩中条纹长石平衡温度为433~482 ℃,而钾长石化叠加弱黄铁矿化花岗岩中条纹长石平衡温度为362~419 ℃。从似伟晶岩到钾长石化花岗岩、钾长石化叠加黄铁绢英岩化花岗岩中条纹长石平衡温度的渐次降低,反映了成矿流体与围岩反应逐渐弱化的特征。 相似文献
7.
《地学前缘》2017,(2):140-150
胶东金矿是中生代构造岩浆活化区岩浆期后中温热液蚀变脉状矿床。前人曾认为该类金矿属于壳源深融花岗岩-热液石英脉-蚀变岩型金矿。近期研究表明,胶东金矿围岩蚀变年龄的测定,对于矿床成因的研究有重要意义。为解决胶东区域断裂热液蚀变年龄问题,对胶东半岛主要断裂矿化蚀变带开展如下相关研究:(1)选择胶东地区各蚀变岩带普遍发育的黄铁绢英岩化蚀变岩带和强钾长石化蚀变岩带作为取样目标,进行区域对比;(2)该两类岩石中的蚀变矿物受到脆性断裂影响较小,能够得到蚀变阶段的稳定化学成分;(3)该两类岩石中的蚀变矿物发育有与蚀变同期的韧性变形,能够揭示蚀变阶段的构造应力应变状态。对样品中的钾长石和斜长石颗粒进行K-Ar法同位素年龄测试,获得蚀变岩同位素年龄数据。测试结果显示,胶东区域构造热液蚀变作用时期为(148.3±4.3)~(52.03±0.70)Ma,即早白垩世燕山晚期;同位素年龄自西向东逐渐变小,证明胶东西部地区的热液蚀变作用早于东部地区。通过分析已有的构造、热液成分和成矿物理化学参数等资料,结合本研究的最新成果,总结出区域成矿时代与成矿规律:胶东区域断裂蚀变系统中的构造附加静水压力、流体温度压力条件和成矿元素的分布与变化控制了热液蚀变成矿规律。上述地质特征显示,胶东金矿床是复成构造热液作用下的一种新型矿床类型。 相似文献
8.
本文主要研究了胶东金青顶和邓格庄金矿床蚀变体系的氧、硅同位素组成、硫化物矿物的硫同位素组成,方解石的碳、氧、锶、钐、钕同位素组成,结果表明金矿床早阶段成矿热液中水以非大气降水为主,晚阶段成矿热液中大气降水增加;成矿物质来源于地壳。推断金矿床由地壳物质在燕山期大规模低程度熔融出的富K、Na的流体交代改造岩石并汲取成矿元素形成的矿化热液和岩浆热液共同作用形成。 相似文献
9.
胶西北寺庄金矿床热液蚀变作用 总被引:5,自引:3,他引:2
胶东是我国最重要的金矿集区,其中"焦家式"破碎带蚀变岩型金矿是区内最重要的金矿床类型。寺庄金矿床位于胶东金矿集区焦家金矿田南部,是典型的"焦家式"金矿,沿NE向焦家断裂发育大规模的热液蚀变带,金矿体均产于这些蚀变带内。热液蚀变空间分带明显,距离焦家断裂由近到远向下盘依次发育黄铁绢英岩化、绢英岩化、钾长石化蚀变带。时间上,钾长石化为成矿前蚀变,绢英岩化和黄铁绢英岩化叠加在钾长石化蚀变之上,为成矿期蚀变,伴随金矿化。质量平衡计算表明:钾长石化过程,主量元素SiO_2、Al_2O_3、Fe_2O_3、FeO、MgO、CaO、Na_2O、P_2O_5,成矿元素Au、Ag,亲铜元素As、Hg、Sb、Bi和稀土元素均从玲珑黑云母花岗岩中迁出;而K_2O、MnO和Cu从流体中迁入玲珑黑云母花岗岩。绢英岩化和黄铁绢英岩化过程元素迁移行为高度相似,主量元素SiO_2、Fe_2O_3、FeO、MgO、CaO、K_2O、MnO,成矿元素Au、Ag,亲铜元素As、Hg、Cu、Sb、Bi和轻稀土元素均从流体中迁入钾长石化花岗岩,而主量元素Al_2O_3、Na_2O和重稀土元素均从钾长石化花岗岩中迁出。二长石温度计估算钾长石化蚀变形成的温度约为392~449℃。玲珑黑云母花岗岩(δEu=1.45)和钾长石化花岗岩(δEu=1.38)具有明显的Eu正异常,绢英岩(δEu=0.97)和黄铁绢英岩(δEu=0.93)具有轻微的Eu负异常,指示钾长石化发生于相对氧化环境下,而绢英岩化和黄铁绢英岩化发生于相对还原环境下。综合分析表明,成矿前高温、氧化、碱性流体作用于玲珑黑云母花岗岩形成大范围面状钾长石化蚀变;成矿期中低温、还原、弱酸性的流体与钾长石化花岗岩发生水岩反应,形成绢英岩化和黄铁绢英岩化,在此过程中硫化作用引起金硫络合物分解,导致金沉淀富集成矿。 相似文献
10.
《矿产与地质》2015,(6)
326铀矿床是我国重要的四大类型铀矿床之一花岗岩型铀矿床,位于南华活动带华夏褶皱带西侧。通过测定该矿床岩矿石矿物成分、研究围岩蚀变及其与铀矿化的关系,确认碱交代、赤铁矿化、绿泥石化、硅化和粘土化(高岭土化、伊利石化)与铀矿化关系密切。矿石中赋存的铀矿物主要有沥青铀矿、硅钙铀矿、硅铀矿、硅铅铀矿、铀黑、铜铀云母;伴生的金属矿物有闪锌矿、黄铁矿、白铁矿等,脉石矿物主要为石英、钾长石、斜长石、白云母、黑云母、白云石、方解石、磷灰石。在此基础上,探讨了该矿床成因机制:矿源岩为富铀黑云母二长花岗岩,岩浆、构造作用及围岩蚀变提供了热源并使铀活化、迁移、富集;由于成矿期围岩蚀变特别是碱交代和赤铁矿化,使储矿空间pH、Eh下降;同时,构造交汇开放空间发生减压降温作用,当富铀的氧化热液运移至该空间时使铀矿还原沉淀,从而形成铀矿床。 相似文献
11.
胶东新立构造蚀变岩型金矿床元素地球化学行为 总被引:5,自引:3,他引:2
新立金矿位于华北克拉通东部胶东金矿省内,是一个典型的蚀变岩型(焦家型)金矿床,矿床受区域三山岛-仓上断裂带控制,产出于蚀变的玲珑花岗岩中。在主断裂带下盘蚀变矿化发育,可以划分为五个阶段:钾长石化阶段、绢英岩化阶段、黄铁绢英岩矿化阶段、多金属硫化物矿化阶段和碳酸盐化阶段。不同的蚀变矿化过程导致各阶段样品具有不同的矿物组合和地球化学特征。钾长石化花岗岩以高钾钠含量为特征,因为样品中含有新生成的二次钾长石及残留的钠长石;绢英岩的钙钠含量明显低于钾长石化花岗岩,是绢英岩化阶段斜长石蚀变分解所致;黄铁绢英岩FeT2O3含量普遍较高且SiO 2含量波动明显,与该阶段样品中大量黄铁矿的产出及部分样品中包含石英团块或石英脉相一致;多金属硫化物矿化样品的元素含量与黄铁绢英岩基本类似;碳酸盐化蚀变样品以高CaO含量为特征,与该阶段大量沉淀析出的方解石相符。在原始地幔标准化微量元素配分图上,不同阶段矿化蚀变样品,大离子亲石元素Rb、Ba、K、Sr差异性明显,而高场强元素Zr、Hf、Nb、Ta、P差异性较小,表明热液蚀变过程中大离子亲石元素活动性较强,高场强元素相对稳定。在稀土元素球粒陨石标准化图中,不同阶段样品均呈明显的右倾性,蚀变早期(钾长石化阶段)样品铕异常不明显,蚀变矿化主期(绢英岩化阶段至多金属硫化物矿化阶段)样品普遍具有负铕异常,而蚀变晚期(碳酸盐化阶段)样品普遍具有正铕异常。元素相关性分析表明,金与银、砷、铋和硫具明显正相关,与铜、铅具有一定的相关性。成矿元素因子分析也显示出金与砷、硫、铁、钴在矿化过程中具有类似的地球化学行为。实测剖面上不同位置样品元素地球化学特征的差异性主要受构造及蚀变矿化类型、强度控制,成矿元素在主断裂附近达到峰值,在远离主断裂方向上,其含量整体呈下降趋势,但在次级矿化断裂发育地段,含量又明显回升;另外在断裂附近由于微裂隙及节理相对发育,有利于热液的渗透,蚀变较强,对成矿元素的空间分布亦具有控制作用。 相似文献
12.
胶东中生代金成矿系统 总被引:74,自引:50,他引:24
胶东是我国最重要的金矿集区,其内已发现金矿床150余处,探明金资源储量4000余吨。虽然其金矿床数量众多、资源储量巨大、分布地域广泛、产出空间各异、矿化类型多样,但它们的成矿地球动力学背景、赋矿围岩环境与产出条件及其成矿作用特征总体一致:(1)胶东是一个主要由前寒武纪基底岩石和超高压变质岩块组成、中生代构造-岩浆作用发育的内生热液金矿集区,约130~110Ma的金成矿事件比区域变质作用晚约2000Myr;(2)区域金成矿系统形成于早白垩世的陆缘伸展构造背景,大规模金成矿事件发生在区域NW向伸展转换为NE向伸展后的NEE向挤压变形作用过程中,对应于中国东部岩石圈大规模减薄、华北克拉通破坏和大陆裂谷作用的高峰;(3)金矿床群聚于NNE向玲珑、鹊山和昆嵛山变质核杂岩周边,主要沿前寒武纪变质岩与中生代花岗岩体接触带形成的区域NE-NNE向拆离断层带分布;(4)控矿断裂带经历了早期的韧-脆性变形和晚期的脆性变形构造叠加,在三维空间上呈舒缓波状延展,控制了金矿体的侧伏和分段富集;(5)矿化样式以破碎带蚀变(砾)岩型、(硫化物-)石英脉型和复合脉带型为主,矿石普遍发育压碎、晶粒状和填隙结构,浸染状、细脉浸染状、网脉状、脉状、团块状和块状构造,反映其形成于韧-脆性→脆性变形环境;(6)矿石中金属矿物以黄铁矿、黄铜矿、方铅矿和闪锌矿为主,非金属矿物以石英、绢云母、钾长石、斜长石和方解石为主;金矿物以银金矿和自然金为主、含少量金银矿,主要以可见金的形式赋存于黄铁矿和石英裂隙中、含少量晶隙金和包体金;热液蚀变主要为黄铁矿化、硅化、钾长石化、绢云母化和碳酸盐化;成矿元素为Au-Ag(-Cu-Pb-Zn);呈现出中-低温蚀变矿化组合特征;(7)成矿流体为壳-幔混合来源,以壳源变质流体为主;成矿物质总体来源于中生代活化再造的前寒武纪变质基底岩石,并混入了少量浅部地壳和地幔组分。这种区域成矿特征的一致性,表明胶东金矿集区早白垩世大规模金成矿作用受控于统一的地质事件,属于后生的中-低温热液脉金成矿系统。这些金矿床具有明显的时空群聚分布特征,主要沿三个变质核杂岩周边的岩相接触带产出,且自西向东,金成矿作用年龄由老变新。据此,可划分为胶北隆起蚀变岩-石英脉型、苏鲁超高压变质带硫化物-石英脉型和胶莱盆地北缘蚀变砾岩型三个金成矿子系统。其矿化样式由浸染-细脉、细脉-网脉型和石英脉型→硫化物-石英脉型→蚀变(角)砾岩型变化,矿石结构、构造以细脉浸染状构造为主→环带结构与梳状构造→角砾状构造为特色,反映其成矿作用分别发生于脆-韧性转换带(约15km)→脆性张剪性断裂带→脆性角砾岩带(约5km)环境;矿化、蚀变规模和强度逐渐减弱,成矿物质中浅部壳源组分逐渐增多,可能与其矿床定位空间越来越远离源区有关;成矿温度和压力依次降低、成矿流体中大气降水和/或盆地卤水贡献逐渐增大,与其成矿深度越来越浅、成矿构造环境越来越偏张性的变化趋势一致。这种成矿特征的区域规律性变化反映至少在拆离断层韧-脆性转换带附近→脆性角砾岩带之间的地壳剖面中、在不同的垂向深度上连续成矿。胶东中生代金成矿系统的上述特征明显区别于典型的"与侵入岩有关的金矿"和"造山型金矿",也不同于全球其它已知的金矿床类型,不能被已有成矿模式所涵盖。为合理解释胶东中生代金成矿系统独特的地质与成矿特征,我们提出新的"胶东型金矿"成矿模式,指出古太平洋Izanagi俯冲板片的回转作用可能是引起区域前寒武纪变质基底岩石中成矿物质大规模活化再造的主要驱动机制,成矿流体主体来源于俯冲板片变质脱水,金可能主要以Au(HS)2-络合物的形式在流体中沿拆离断层系输运,在韧-脆性转换带附近→脆性角砾岩带,由于构造空间急剧增大、成矿流体的温度和压力突然降低,CO2、H2S逸出和硫化作用导致Au(HS)2-等金络合物失稳分解,金大规模沉淀富集成矿。 相似文献
13.
The Sanshandao gold deposit (reserves of more than 200 t Au and average grade of 3.96 g/t), located at northwestern edge of the Jiaodong Peninsula, eastern North China Craton, is one of the largest gold deposits in the Jiaodong gold province. In this deposit, disseminated- and stockwork-style ores are hosted in Mesozoic granitoids; mineralization and alteration are largely controlled by the regional Sanshandao–Cangshang fault. Host granitic rocks for the deposit display a complex paragenetic sequence of alteration and mineralization. Activities of the Sanshandao–Cangshang fault created structurally controlled permeability allowing for infiltration of hydrothermal fluids, leading to diffusive K-feldspar alteration on the two fault planes. Later, large scale diffusive sericitization symmetrically developed across the main fault, and partially overprinted the earlier K-feldspar alteration. Following the sericitization, relatively small scale silicification occurred, but now it is only retained in the hanging wall of the main fault. Subsequently, the fault gouge formed as a “barrier layer”, which is impermeable for later fluids to move upward. After that, strong pyrite–sericite–quartz alteration occurred only in the footwall of the main fault, and was accompanied by gold precipitation. The last stage carbonation and quartz-carbonate veins marked the waning of gold-related hydrothermal activity. Mass-balance calculations indicate complex behaviors of different types of elements during fluid–rock interaction. Most major elements were affected by intensive mineral replacement reactions. As expected, the fluid-mobile elements, LILE and LREE, generally show moderate to high mobility. It is notable that even the commonly assumed fluid-immobile elements, such as HREE and HFSE, tend to be changed to various degrees. In addition, Y–Ho, Zr–Hf and Nb–Ta fractionations are observed in altered domains. Studies on alteration assemblages and fluid inclusions suggest that the ore-forming fluids were characterized by low salinity (≤ 8.4 wt.% NaCl equiv.), moderate temperature (300–400 °C), weakly acidic (pH: 3–5), and relatively reducing (log fO2: ~–28) characteristics. In this type of fluids, gold was most likely transported as Au(HS)2− complex. With alteration going on, log (aK+/aH+) of fluids generally decreased due to significant formation of secondary K-bearing minerals. In addition, there might be a decrease of fO2 from pre-gold alteration stage to the main gold mineralization stage, and decrease of fO2 was probably one of the factors controlling gold precipitation. The Sr and Nd isotopic compositions of hydrothermal minerals, combined with previous H–O and He–Ar isotopic studies, indicate that the hydrothermal fluids were mainly derived from crustal sources (e.g., degassing of felsic magmas and meteoric water), but with involvement of mantle derived components. The gold mineralization event just coincided with reactivation of the North China Craton, as marked by asthenosphere upwelling, voluminous igneous rocks, and high crustal heat flow, which may have provided sufficient heat energy and fluid input required for the formation of the gold deposits. 相似文献
14.
Lithogeochemistry of Carlin-type gold mineralization in the Gold Bar district, Battle Mountain-Eureka trend, Nevada 总被引:3,自引:0,他引:3
The Gold Bar district contains five Carlin-type gold deposits and four resources for a combined gold endowment of 1.6 M oz [50 t]. The gold deposits are hosted in Devonian carbonate rocks below parautochthonous and allochthonous Paleozoic siliciclastic rocks emplaced during the Early Mississippian Antler orogeny. The district is in the Battle Mountain-Eureka trend, a long-lived structural feature that localized intrusions and ore deposits of different types and ages.The whole-rock geochemistry of four different mineralized and unmineralized Devonian carbonate rock units (two favorable and two unfavorable) were determined and interpreted in the context of the regional geology. A combination of basic statistics, R-mode factor analysis, isocon plots, and alteration diagrams were utilized to (1) identify favorable geochemical attributes of the host rocks, (2) characterize alteration and associated element enrichments and depletions, and (3) identify the mechanism of gold precipitation. This approach also led to the recognition of other types of alteration and mineralization in host rocks previously thought to be solely affected by Carlin-type mineralization.Unit 2 of the Upper Member of the Denay Formation, with the highest Al2O3, Fe2O3 and SiO2 contents and the lowest CaO content, is the most favorable host rock. Based on the high regression coefficients of data arrays on X–Y plots that project toward the origin, Al2O3 and TiO2 were immobile and K2O and Fe2O3 were relatively immobile during alteration and mineralization. Specific element associations identified by factor analysis are also prominent on isocon diagrams that compare the composition of fresh and altered equivalents of the same rock units. The most prominent associations are: Au, As, Sb, SiO2, Tl, –CaO and –LOI, the main gold mineralizing event and related silicification and decalcification; Cd, Zn, Ag, P, Ni and Tl, an early base metal event; and MgO, early dolomitization. Alteration diagrams, consisting of X–Y plots of SiO2/Al2O3, K2O/Al2O3, CO2/Al2O3, [S/Al2O3]/[Fe2O3/Al2O3], provide evidence for progressive silicification, decarbonation (decalcification and dedolomitization), argillization (illite), and sulfidation as a function of gold mineralization. The latter process is identified as the principal mechanism of gold precipitation.The lithogeochemistry of the ores in the Gold Bar district is typical of that documented in classic Carlin-type gold deposits in the region, but the size of the deposits and the intensity of alteration and mineralization are less. The presence of other types of mineralization in the Gold Bar district is also common to most of the other Carlin-type districts located in major mineral belts. The approach used in this study is well suited to the interpretation of multi-element geochemical data from other study areas with superimposed alteration and mineralization. 相似文献
15.
采用世界上最先进的SHRIMP锆石U-Pb测年技术,对招掖地区郭家岭型花岗岩及成矿后花岗斑岩脉进行了年代学研究,精确地测定了郭家岭型花岗岩的年龄为130-126Ma,成矿后花岗斑岩脉的年龄为120±2Ma,金矿化被限定在126-120Ma之间。结合岩体年龄和与金矿化密切的空间关系及地球化学上的亲缘关系,认为郭家岭型花岗岩属造山晚期花岗岩,金矿化主要与郭家岭型花岗岩有关。该花岗岩异常高的Ba、Sr含量可作为太古宙绿岩地体环境下判别与金矿化有关花岗岩的地球化学标志。 相似文献
16.
The Hutti gold mine is located in a high-angle, NNW–SSE-trending shear zone system, which hosts nine discrete auriferous shear zones (reefs). On a clockwise, retrograde PT path two separate stages of deformation/metamorphism (D2/M2 and D3/M3) occurred synchronous with two distinct stages of gold mineralization, both of which were associated with different fluid types. Stage 1 mineralization developed during D2/M2, where the amphibolite host rocks were altered by a metamorphic fluid with a $ {{\delta }^{{18}}}{{O}_{{{{H}_2}O}}} $ of 7.5–10.1?‰, rich in K, S, As, and Au at pressure and temperature conditions of around 3 kbar and 530?+?20/?30°C, respectively. The stage 1 auriferous shear zones are enveloped by a zoned alteration consisting of a distal biotite–chlorite and proximal biotite–plagioclase assemblage. Subsequently, D2/M2 was overprinted by D3/M3 deformation and metamorphism at 300–400°C and <2 kbar that formed the stage 2 mineralization. The stage 2 mineralizing fluid which originated from outside the greenstone belt (δ18Ofluid of 3.2–6.8?‰) was rich in Si, Au, and W. This mineralization stage is distinct by the emplacement of laminated quartz veins central to the shear zone, containing locally visible gold at concentrations of up to 1 kg Au/t. The laminated quartz veins are surrounded by a millimeter-scale chlorite2–K-feldspar alteration halo, which replaced the stage 1 biotite–plagioclase assemblage. The oxygen isotopic composition of the stage 2 fluid suggests a mixture of a magmatic fluid with an oxygen isotopic composition in the range of 6 to 10?‰ and an isotopically light formation fluid that resulted from fluid–rock interaction in the greenstone pile. The two fluid fluxes at stages 1 and 2 both contributed to the overall gold mineralization; however, it was the second fluid pulse, which gave the Hutti mine its status as the largest gold mine in India. The metamorphic evolution was thereby important for the first stage, whereas the second stage was controlled by tectonism and intrusion of the high-heat production Yellagatti granite that re-established the fluid plumbing and mineralizing system. 相似文献
17.
Orogenic gold mineralization at the Damang deposit, Ghana, is associated with hydrothermal alteration haloes around gold‐bearing quartz veins, produced by the infiltration of a H2O–CO2–K2O–H2S fluid following regional metamorphism. Alteration assemblages are controlled by the protoliths with sedimentary rocks developing a typical assemblage of muscovite, ankerite and pyrite, while intrusive dolerite bodies contain biotite, ankerite and pyrrhotite, accompanied by the destruction of hornblende. Mineral equilibria modelling was undertaken with the computer program thermocalc , in subsets of the model system MnO–Na2O–CaO–K2O–FeO–MgO–Al2O3–SiO2–CO2–H2O–TiO2–Fe2O3, to constrain conditions of regional metamorphism and the subsequent gold mineralization event. Metapelites with well‐developed amphibolite facies assemblages reliably constrain peak regional metamorphism at ~595 °C and 5.5 kbar. Observed hydrothermal alteration assemblages associated with gold mineralization in a wide compositional range of lithologies are typically calculated to be stable within P–T–X(CO2) arrays that trend towards lower temperatures and pressures with increasing equilibrium fluid X(CO2). These independent P–T–X(CO2) arrays converge and the region of overlap at ~375–425 °C and 1–2 kbar is taken to represent the conditions of alteration approaching equilibrium with a common infiltrating fluid with an X(CO2) of ~0.7. Fluid‐rock interaction calculations with M–X(CO2) diagrams indicate that the observed alteration assemblages are consistent with the addition of a single fluid phase requiring minimum fluid/rock ratios on the order of 1. 相似文献
18.
The devolatilization model of the metasomatized lithospheric mantle without pre-enriched gold has been proposed to account for the giant gold mineralization. An excellent example is the world-class Jiaodong gold province with >5000 tonnes Au resources in the eastern North China Craton. The auriferous fluid transport and gold enrichment during wallrock alterations are two vital processes to determine the giant gold mineralization formation in this province. However, the effects of the fluid-rock interaction with alterations on the auriferous fluid transport and gold enrichment still keep poor understanding, which leads the above model to be imperfect. The giant Jiaojia goldfield in this province recorded a wallrock alteration evolution from K-feldspar alteration to pyrite-sericite-quartz alteration, and some parts of the latter can become gold orebodies when the gold grade is >1 ppm. This study conducts thermodynamic fluid-rock interaction modeling to reveal auriferous fluid transport and coupled relationship between gold enrichment and alteration mineral assemblage based on the alteration-mineralization and ore fluid characteristics of the goldfield. The modeling of fluid-rock interaction with cooling indicates the transformation of Au-Cl complexes to Au-S complexes combined with the total sulfur concentration decrease by pyrite precipitation when cooling from ∼460 °C can trigger the dispersive gold precipitation, which should hinder the gold long-range transport to lower ambient temperature. The high oxygen fugacity at >400 °C can enhance Au-Cl complexes stability, and the low pH can maintain high total sulfur concentration in the auriferous fluid, both of which facilitate the long-range gold transport to a lower-temperature environment. The auriferous fluid would acquire higher pH by the buffering of feldspars or sericite, which was beneficial for the high-efficiency precipitations of pyrite and gold. The ankerite-siderite assemblage without pyrophyllite in the pyrite-sericite-quartz alteration zone indicates that a cumulative fluid to rock mass ratio (f/r) of 3.8–4.8 should be needed for the transformation from K-feldspar alteration to pyrite-sericite-quartz alteration according to the fluid-rock interaction modeling at 300 °C and 2000 bar. In the case of auriferous fluids with ≤200 ppb Au concentration, the single fluid-rock interaction can only elevate the gold grade to ≤0.69–0.87 ppm in the pyrite-sericite-quartz alteration zone at f/r 3.8–4.8. Therefore, the fracture-induced fluid flow coupled with fluid-rock interaction is proposed to the prerequisite to elevate the gold grade to >1 ppm in the pyrite-sericite-quartz alteration zone. The metasomatized lithospheric mantle volume for the required ore fluid and Au in the Jiaodong province is estimated according to the modeling results and alteration-mineralization characteristics, which provides a link between the mantle without abnormal Au enrichment and the alteration-mineralization processes. 相似文献
19.
Geological and Fluid Inclusion Constraints on Gold Deposition Processes of the Dayingezhuang Gold Deposit,Jiaodong Peninsula,China 总被引:1,自引:0,他引:1
The Dayingezhuang gold deposit, hosted mainly by Late Jurassic granitoids on Jiaodong Peninsula in eastern China, contains an estimated 170 t of gold and is one of the largest deposits within the Zhaoping fracture zone. The orebodies consist of auriferous altered pyrite–sericite–quartz granites that show Jiaojia-type (i.e., disseminated and veinlet) mineralization. Mineralization and alteration are structurally controlled by the NE- to NNE-striking Linglong detachment fault. The mineralization can be divided into four stages: (K-feldspar)–pyrite–sericite–quartz, quartz–gold–pyrite, quartz–gold–polymetallic sulfide, and quartz–carbonate, with the majority of the gold being produced in the second and third stages. Based on a combination of petrography, microthermometry, and laser Raman spectroscopy, three types of fluid inclusion were identified in the vein minerals: NaCl–H2O (A-type), CO2–H2O–NaCl (AC-type), and pure CO2 (PC-type). Quartz crystals in veinlets that formed during the first stage contain mainly AC-type fluid inclusions, with rare PC-type inclusions. These fluid inclusions homogenize at temperatures of 251°C–403°C and have low salinities of 2.2–9.4 wt% NaCl equivalent. Quartz crystals that formed in the second and third stages contain all three types of fluid inclusions, with total homogenization temperatures of 216°C–339°C and salinities of 1.8–13.8 wt% NaCl equivalent for the second stage and homogenization temperatures of 195°C–321°C and salinities of 1.4–13.3 wt% NaCl equivalent for the third stage. In contrast, quartz crystals that formed in the fourth stage contains mainly A-type fluid inclusions, with minor occurrences of AC-type inclusions; these inclusions have homogenization temperatures of 106°C–287°C and salinities of 0.5–7.7 wt% NaCl equivalent. Gold in the ore-forming fluids may have changed from Au(HS)0 as the dominant species under acidic conditions and at relatively high temperatures and fO2 in the early stages, to Au(HS)2– under neutral-pH conditions at lower temperatures and fO2 in the later stages. The precipitation of gold and other metals is inferred to be caused by a combination of fluid immiscibility and water–rock interaction. 相似文献