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81.
82.
含铍条纹状蚀变岩在发现界牌岭锡多金属隐伏矿床中的找矿意义 总被引:1,自引:0,他引:1
界牌岭锡多金属矿床是一个大型隐伏矿床,找矿工作采用了化探次生晕、原生晕、地质调查等多种方法和手段。含敛条纹状蚀变岩的发现在找矿预测中起到了致关重要的作用,为找矿工作开拓了新的思路. 相似文献
83.
在厚覆盖区,目前的勘查技术在探测深度和精度方面已不能满足深部资源勘查的需求,地震方法可用来弥补目前勘查技术在寻找深部隐伏矿方面的某些不足。由于金属矿区的地质构造十分复杂,金属矿勘查中的地震方法技术是一个十分复杂的课题。这里结合在甘肃金昌铜镍多金属矿区的试验研究,讨论了地震方法技术在厚覆盖区探测隐伏超基性岩体和控矿构造的试验应用效果。 相似文献
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内蒙古黄岗梁锡铁多金属矿床层状夕卡岩的喷流沉积成因 总被引:6,自引:1,他引:6
内蒙古自治区黄岗梁矿床是大兴安岭中南段的一个大型Sn-Fe多金属矿床,燕山期火山侵入岩广泛出露,通过对矿床地球化学特征的系统研究,并结合矿床地质特征,得出的主要研究成果为:①与含微细浸染胶状锡的磁铁矿层共生的层状夕卡岩与海底火山活动关系密切,是一种很具特色的喷流岩;②REE地球化学特征表明,该矿床层状夕卡岩与典型岩浆热液接触交代夕卡岩存在较大差异,而与现代海底热流体和喷流型矿床及其共生的热水沉积岩有较大的相似性,应属热水喷流成因;③层状夕卡岩的碳、氧同位素组成关系可与许多沉积喷流型块状硫化物矿石及其共生的喷流岩相对比,暗示了两者具有相似的形成机理。 相似文献
86.
87.
滇东南芦柴冲大型银多金属矿床的海底喷流成矿作用沉积旋回划分 总被引:4,自引:1,他引:3
芦柴冲矿床位于滇东南砚山县境内,属南岭地区西南端--滇东南早泥盆世的层控矿带。经野外调研和室内系统研究,发现矿床为典型非火山成因的、严格受沉积相(台盆相区)控制的海底喷流沉积成因矿床。矿床中发育的南北向同生扩张断裂是重要的控盆和控矿构造,是海底喷流成矿的含矿流体运移的通道,它具周期性的振荡运动的特点,导致海底喷流成矿具周期性的沉积旋回。 相似文献
88.
A polymetallic zone dominated by U-W mineralization was found in Northeast Guangxi. Distributed along the east contact zone
of a complex granite mass, it extends for about 100 km in length, with more than fifty deposits and prospects embraced. The
deposits show a wide range of genetic types, related to the granite, from magmatic (including pegmatite and skarn deposits)
through hydrothermal mineralizations (hypo-, meso- and epithermal) all the way to tin placers, constituting a very intact
metallogenetic series of granites. The epithermal U-W deposits are considered as a new type for their unique geological and
geochemical characters, such as the paragenesis of U and W and the large time gap (> 40 Ma) between ore and granite.
This project was financially supported by the Open Lab. of Ore Deposit Geochemistry, Chinese Academy of Sciences. 相似文献
89.
Abstract: From the southernmost part of Jiangsu province to the northeastern part of Jiangxi province, China, the Northeast Jiangxi Deep Fault runs for about 400 km length with a width of 30 to 40 km. This fault marks the suture zone of two ter-ranes of Proterozoic age. At the both sides of the fault, Yanshanian granitic activity is recognized. That is, the Dexing-Wuyuan porphyry belt on the NW side of the fault, and the Damaoshan-Lingshan granite belt on the SE side. The former activity is characterized by the occurrence of small stocks of granodioritic composition, rich in siderophile elements but poor in LIL elements. No distinct Eu anomaly is recognized in the REE pattern, and a low initial 87Sr/86Sr ratio is reported. Magnetite, sphene and apatite are observed as accessory minerals. On the contrary, granitic activity on the SE side of the fault is characterized by the occurrence of composite batholiths, in general of granitic to monzogranitic composition, rich in LIL and alkali elements but poor in siderophile and alkali earth elements. A strong Eu anamaly is recognized in the REE pattern, and initial 87Sr/86Sr ratios are as high as 0. 716. Fluorite, zircon and REE minerals are observed as accessory minerals. These two contrasting granitic activities are refered to as syntexis– and transformation–types, respectively, following the classification commonly used in China, and have similar petrochemical characteristics to those defined for the magnetite– and ilmenite–series, and I– and S-type granitoids. Considering that the above igneous activity occurred far from the supposed subduction zone along the East Coast of China, intracontinental A-type (continent to continent) subduction is proposed to have occurred northwestwards along the NE Jiangxi Deep Fault during Yanshanian time due to a strong compressional stress from SE to NW. A-type subduction introduced the continental slab to some depth, and resulted in the production of the paired granitic activity observed on both sides of the fault. Many mineral deposits are associated with both granitic belts. In the Dexing-Wuyuan porphyry belt, the Dexing porphyry Cu and Yinshan polymetallic deposits are representative, whereas in the Damaoshan-Lingshan granite belt, several tens of rare metal deposits are known such as the Geyuan Nb–Ta–W–Sn deposits. Metal assemblages of those deposits reflect the source materials of magmas in both granitic belts. 相似文献
90.