西藏西南部达巴—休古嘎布绿岩带铬铁矿的找矿前景   总被引：2，自引：2，他引：2       下载免费PDF全文

黄圭成徐德明  雷义均李丽娟 《中国地质》2007,34(4):668-674

雅鲁藏布江蛇绿岩带长1500km以上,分为东段(曲水—墨脱)、中段(昂仁—仁布)和西段(萨嘎以西至中印边境)3部分。西段又进一步分为北亚带(达机翁—萨嘎蛇绿岩带)和南亚带(达巴—休古嘎布蛇绿岩带),以往的研究程度很低。达巴—休古嘎布蛇绿岩带的蛇绿岩体(块)由地幔橄榄岩组成,主要岩石类型是方辉橄榄岩和纯橄榄岩,极少量二辉橄榄岩,缺少典型蛇绿岩剖面中的洋壳单元。带内岩体规模大,岩相分带明显,出现较大面积的纯橄榄岩相。拉昂错、东坡、当穷岩体和休古嘎布岩体群发现有较多的铬铁矿化点,矿体呈透镜状(豆荚状)、短脉状、不规则状,矿石以致密块状为主,少部分为浸染状,Cr2O3含量一般达40%以上。矿化类型属于豆荚状铬铁矿。对比研究显示,该岩带的岩体在构造环境,蛇绿岩的类型,岩体规模,岩石组成,保存部位,部分熔融程度,岩石、矿物地球化学特征,铬铁矿化特征等许多方面与国内外大型豆荚状铬铁矿床的含矿岩体相似,成矿条件好,找矿前景较大。提出区内找矿前景最好的地段是拉昂错岩体西北部的纯橄榄岩相,其次是东坡岩体的纯橄榄岩相、纯橄榄岩-方辉橄榄岩相,以及当穷岩体的方辉橄榄岩-纯橄榄岩相。  相似文献   

铙钹寨岩体是蛇绿岩吗？——评“也谈铙钹寨超镁铁岩体的成因和构造类型的归属问题”   总被引：1，自引：2，他引：1  

张旗 《岩石学报》2006,22(12):3079-3084

王希斌等根据铙钹寨岩体恢复的原岩由亏损强烈的方辉橄榄岩、纯橄岩和弱亏损的二辉橄榄岩组成以及有豆荚状铬铁矿存在,认为铙钹寨岩体属于大洋岩石圈地幔,是蛇绿岩的成员;并且还根据岩体存在两种地幔橄榄岩组合进一步推断铙钹寨岩体"可能经历了洋内扩张(形成 MOR 型的地幔残余)和洋内俯冲两个阶段的演化过程"。我们认为,铙钹寨岩体是交代的地幔橄榄岩,它不大可能是蛇绿岩;铙钹寨岩体的特征比较接近大陆岩石圈地慢而非大洋岩石圈地幔;铬铁矿不是判别蛇绿岩的标志;不能根据岩体存在强烈亏损和弱亏损的两种橄榄岩而推断其形成于两种环境。  相似文献   

遵化豆荚状铬铁矿岩浆流变学性质     

陈征  李江海  程素华  黄雄南 《地球学报》2006,27(4):310-314

对遵化豆荚状铬铁矿中250个铬铁矿豆体的形态、大小、向椭球体转变的程度等统计分析表明,豆体在上升期间与岩浆作用的过程中伴有由等轴体(近似为球体)向椭球体转变的过程。其主要原因是豆体在相对岩浆运动的过程中,豆体的表面与岩浆之间的粘滞摩擦造成的。粘滞摩擦力的大小、作用于豆体表面的时间又取决于岩浆的粘度、豆体相对于岩浆的沉降速度、豆体半径的大小及岩浆上升的速度,所以这些因素将决定豆体变形(磨蚀、椭球化)的程度。因此,可用豆体与岩浆相互作用的物理过程来模拟豆体的变形特点,而反过来据实测的豆体变形程度数据又可推算岩浆真实的上升速度。  相似文献   

Role of water in the origin of podiform chromitite deposits   总被引：2，自引：0，他引：2  

Sergey Matveev  Chris Ballhaus 《Earth and Planetary Science Letters》2002,203(1):235-243

We report experiments in basalt oversaturated with water to duplicate the nodular ore textures of podiform chromitite ores. In immiscible basalt-water systems saturated with olivine and chromite, olivine will reside in the melt while chromite will collect in the fluid phase. Fractionation is physical and is driven by differential wetting properties of melt and fluid against silicate and oxide surfaces. There is no need to suppress olivine from the liquidus of a primitive basaltic melt as suggested by Irvine [Irvine, T.N., Geology 5 (1977) 273-277], to achieve chromite accumulations as observed in natural podiform ore deposits. The results imply that podiform chromitite ores will form where a primitive olivine-chromite-saturated mantle melt is sufficiently water-rich to exsolve a fluid phase during passage through the uppermost mantle. The most likely geodynamic environment for podiform chromite mineralization to take place is a supra-subduction zone setting.  相似文献   

Unusual Mantle Mineral Group from Chromitite Orebody Cr-11 in Luobusa Ophiolite of Yarlung-Zangbo Suture Zone, Tibet     

Xu Xiangzhen  Yang Jingsui  Chen Songyong  Fang Qingsong  Bai Wenji  Ba Dengzhu 《中国地质大学学报(英文版)》2009,20(2)

A wide variety of unusual mantle has been reported from podiform chromitite orebodies Cr-31 and Cr-74 in the Luobusa (罗布莎) ophiolite, Tibet. A detailed investigation of chromitite ore-body Cr-11, located in the Kangjinla (康金拉) district at the eastern end of the ophiolite, has revealed many of the same minerals, including diamond, moissanite, and some native elements, alloys, oxides, sulphides, silicates, carbonates, and tungstates. This orebody is particularly rich in diamonds, with over 1 000 grains recovered from about 1 100 kg sample of chromitite. More detailed studies and experi-ments are needed to understand the origin and significance of these unusual minerals because they have not been found in situ. It is a great breakthrough in mineralogical research that we have picked up more than 40 kinds of minerals from the Kangjinla chromite deposit in Luobusa. It is notable that a large amount of diamonds were firstly discovered from the Kangjinla chromite deposit as well as many other unusual minerals, such as moissanites, rutiles, native irons, and metal alloys. Especially, that diamond was found again in different chromitites In the same ophiolite belt provided new key evidence for discussing the origin of the diamond and the hosted ehromitite and ophiolite. The mantle mineral group in Tibet has great significance in mineralogy and geodynamics.  相似文献   

Geology, Geochemistry and Chromite Mineralization Potential of the Amnay Ophiolitic Complex, Mindoro, Philippines     

Graciano P. Yumul Jr  Ferdinand T. Jumawan    Carla B. Dimalanta 《Resource Geology》2009,59(3):263-281

The Amnay Ophiolitic Complex in Mindoro, the Philippines, is considered an emplaced Cenozoic South China Sea oceanic lithosphere as a result of the collision between the Palawan microcontinental block and the Philippine mobile belt. Middle Oligocene sedimentary rocks intercalated with dominantly MORB-like pillow lavas and volcanic flows suggest the generation of this ophiolite complex in an intermediate spreading ridge within a back-arc basin setting. The volcanic rock suite geochemistry also manifests a slab component suggesting that it is a supra-subduction zone ophiolite. Petrography of the gabbros shows a plagioclase-clinopyroxene crystallization order consistent with a back-arc basin setting. Spinel and pyroxene geochemistry shows that the lherzolites and aluminous-spinel harzburgites are products of low degrees of partial melting. The chromitites hosted by the harzburgites could have not been associated with the MORB-like volcanic suites, gabbros, lherzolites and aluminous-spinel harzburgites. The chromitites are products of mantle sources that have undergone higher degrees of partial melting that would have involved the presence of water. The study of this ophiolitic complex gives us a glimpse of the characteristics of the South China Sea.  相似文献   

Chromitite and peridotite from Rayat, northeastern Iraq, as fragments of a Tethyan ophiolite     

Sabah A.  Ismail  Shoji  Arai  Ahmed H.  Ahmed  Yohei  Shimizu 《Island Arc》2009,18(1):175-183

Ophiolitic rocks (chromitites and serpentinized peridotites) were petrologically examined in detail for the first time from Rayat, in the Iraqi part of the Zagros thrust zone, an ophiolitic belt. Almost all the primary silicates have been altered out, but chromian spinel has survived from alteration and gives information about the primary petrological characteristics. The protolith of the serpentinite was clinopyroxene-free harzburgite with chromian spinel of intermediate Cr# (= Cr/[Cr + Al] atomic ratio) of 0.5 to 0.6. The harzburgite with that signature is the most common in the mantle section of the Tethyan ophiolites such as the Oman ophiolite, and is the most suitable host for chromitite genesis. Except for one sample, which has Cr# = 0.6 for spinel, the Cr# of spinel is high, around 0.7, in chromitite. The variation in Cr# of spinel in chromitite observed here has been also reported in the Oman ophiolite. The peridotite with chromitite pods exposed at Rayat was derived from an ophiolite similar in petrological character to the Oman ophiolite, one of the typical Tethyan ophiolites (fragments of Tethyan oceanic lithosphere). This result is consistent with the previous interpretation based on geological analysis.  相似文献   

Mineral chemistry and petrogenesis of chromitites from the Khoy ophiolite complex,Northwestern Iran: Implications for aggregation of two ophiolites          下载免费PDF全文

Fatemeh Zaeimnia  Ali Kananian  Shoji Arai  Mirsaleh Mirmohammadi  Ali Imamalipour  Mohamed Zaki Khedr  Makoto Miura  Khadidja Abbou‐Kebir 《Island Arc》2017,26(6)

The Khoy ophiolitic complex in Northwestern Iran is a part of the Tethyan ophiolite belt, and is divided into two sections: the Eastern ophiolite in Qeshlaq and Kalavanes (Jurassic–Cretaceous) and the Western ophiolite in Barajouk, Chuchak and Hessar (Late Cretaceous). Our chromitites can be clearly classified into two groups: high‐Al chromitites (Cr# = 0.38–0.44) from the Eastern ophiolite, and high‐Cr chromitites (Cr# = 0.54–0.72) from the Western ophiolite. The chromian spinels in high‐Al chromitite include primary mineral inclusions mainly as Na‐bearing diopside and pargasite with subordinate rutile and their formation was probably related to reaction between a MORB (mid‐ocean‐ridge basalt)‐like melt with depleted harzburgite, possibly in a back‐arc setting. Their host harzburgites contain clinopyroxene with higher contents of Al₂O₃, Na₂O, Cr₂O₃, and TiO₂ relative to Western harzburgites and are possibly residue after moderate partial melting (~15 %) whereas the Western harzburgite is residue after high partial melting (~25 %). The chromian spinel in the Western Khoy chromitites contains inclusions such as clinopyroxene, olivine and platinum group mineral‐bearing sulfides. These Western chromitites were possibly formed at two stages during arc growth and are divided into the moderately high‐Cr# chromitites (Barajouk and Hessar) and the high‐Cr# chromitites (Chuchak A and C). The former crystallized from island‐arc‐tholeiite (IAT) melts during reaction with the host depleted harzburgites, whereas the latter crystallized from boninitic melts (second stage melt) during reaction with highly depleted harzburgite in a supra‐subduction‐zone environment. Based on the mineral chemistry of chromian spinels, pyroxenes, and mineral inclusions, the chromitites and the host peridotites from the Eastern and Western Khoy ophiolites were formed in a back‐arc basin and arc‐related setting, respectively. The Khoy ophiolitic complex is a tectonic aggregate of the two different ophiolites formed in two different tectonic settings at different ages.  相似文献   

豆荚状铬铁矿中微米级新矿物的发现及指示意义     

闫金禹  熊发挥  徐向珍  杨经绥 《地质学报》2023,97(11):3802-3824

向着地球深部进军是未来地质科学研究的战略目标之一,微区则是探寻深部地幔元素迁移和物质循环的关键。分子、原子级矿物的分析研究将在解密深部地幔物理化学条件、物质组成中扮演重要角色。蛇绿岩中豆荚状铬铁矿是微米级矿物的主要载体之一。近年来,随着单晶衍射仪、微区衍射和透射电镜等实验技术的发展和应用,在豆荚状铬铁矿中发现了一系列微米级矿物,为揭示地幔物质组成和演化历史提供重要信息。铬铁矿中发现新矿物的矿床包括中国西藏的罗布莎铬铁矿矿床和希腊中部Othrys矿床。其中,罗布莎铬铁矿矿床中发现包括罗布莎矿、林芝矿、那曲矿、藏布矿、雅鲁矿、曲松矿、自然钛、青松矿、巴登珠矿、志琴矿、经绥矿、康金拉矿及文吉矿在内的13种新矿物;Othrys蛇绿岩的Agios Stefanos矿床发现的新矿物有arsenotu? ekite、eliopoulosite、tsikourasite和grammatikopoulosite。这些新矿物以过渡族元素(Fe、Cr、Ni、Mo、V等)、钛的硅化物、碳化物、镍的磷化物等自然元素及金属化合物为主。它们多以矿物发现地或为地学研究做过卓越贡献的科学家名字命名。微米级矿物的发现拓展...  相似文献   

Mineralogy and Geochemistry of the High-Cr Podiform Chromitite from the Cuobuzha Ophiolite, Yarlung Zangbo Suture Zone, Western Tibet, China: Implication for its Origin     

ZHAO Hui  YANG Jingsui  LIU Fei  XIONG Fahui  LIAN Dongyang  YAO Hu 《《地质学报》英文版》2020,94(1):75-89

The Cuobuzha high-Cr chromitites in the western segment of Yarlung Zangbo Suture Zone of Tibet are mainly hosted in the harzburgites as massive type, which are characterized by high concentrations of platinum group elements (PGE) ranging from 380 to 577 ppb, and low Pd/Ir ratios (<0.1). In mid-ocean ridge basalts (MORB)-normalized spidergrams, chromites of the Cuobuzha chromitites are depleted in Al, Ga, V, Mg and Zn, and enriched in Mn and Cr, sharing similar patterns with those of ophiolitic boninites in the Bonin and Thetford Mines. Approximately 20 platinum group mineral (PGM) grains were discovered from the samples, including laurite, erlichmanite, Os-Fe alloy, cuproiridsite, and irarsite. The PGM assemblages indicate that sulfur fugacity was initially low enough to allow the precipitation of Os-Fe alloy and increased thereafter, with the fall in temperature. Primary Fe-Ni and Fe-Cr alloys, which are stable in a highly reduced environment, occur as inclusions within chromites or clinopyroxenes. Calculated results show that the parental magma has an intimate affinity with boninites. Based on our observations, a model is proposed wherein the Cuobuzha chromitites contain high-pressure and low-pressure chromites. Low-pressure chromites were formed via reaction between boninitic melts and peridotites, during which the high-pressure chromites hosting highly reduced minerals were mobilized by melts and were reallocated to podiform chromitites.  相似文献