三维地质构造综合调查在辽宁瓦房店金刚石矿深部找矿中的应用

辽宁省瓦房店地区金刚石成矿带是我国非常重要的金伯利岩型原生金刚石矿产区,该区已发现100多个金伯利岩体,探明的金刚石矿资源储量占全国的一半以上。区内影响金伯利岩体形态的主要因素是断裂构造,岩浆侵位时断裂构造控制了岩体形态,成矿后断裂构造对岩体形态进行了改造。逆冲推覆构造是影响区内金伯利岩体形态的最主要断裂构造。本文运用三维地质构造综合调查方法,以三维地质构造填图为基础,以研究区重点构造(逆冲推覆构造)为框架,以物探资料、钻孔资料为深部约束条件,以50号金伯利岩管为重点研究对象,基于3D Mine矿业工程软件平台,利用数字化地学信息建立工作区三维地质模型的工作过程和取得的成果。通过此次工作,证实了区内存在逆冲推覆构造,解释了部分金伯利岩体向下延深不大或突然消失的原因,提出了50号金伯利岩管SEE方向推覆构造面下盘可作为重点勘查区的认识,为瓦房店地区下一步金刚石找矿工作部署提供了依据。     

辽宁瓦房店金刚石矿田金伯利岩地质特征

辽宁瓦房店金刚石矿田位于华北陆块辽东新元古代—古生代坳陷带.矿田内金刚石矿均为金伯利岩型,目前已发现100多个金伯利岩体,提交了4个大型原生金刚石矿床和3个近源小型金刚石砂矿床,资源量占全国的一半以上.矿田内金伯利岩体成群、成带分布,有岩管也有岩脉,大小不等、形态各异.由于金伯利岩既是金刚石矿的载体,也是研究地球深部信息的重要对象,在金刚石矿勘查过程中对岩体地质特征进行了研究.本文认为,矿田内不同区域金伯利岩体受围岩成分混染的程度不同,西南部的岩群区金伯利岩体更适合用于研究深部信息;本区影响岩体形态的主要因素是断裂构造,其提供了岩浆上侵通道和就位空间,成岩后的逆冲推覆构造改造了岩体的形态.同时认为,区内控制金伯利岩浆上侵的深大断裂为古郯庐断裂.     

辽宁瓦房店金刚石矿集区区域成矿控制条件及资源潜力预测

瓦房店地区是我国金刚石矿主要矿集区.金伯利岩浆侵入活动主要受超岩石圈郯庐深断裂控制.有利于岩体赋存的部位是基底东西向构造发生继承性活动形成的北东东向断裂.该两组断裂联合控制了区内金伯利岩体群沿北北东方向成排、沿北东东方向呈带的空间分布规律.由于北东东向断裂活动强度的差异,Ⅰ、Ⅱ、Ⅲ号金伯利岩带由北向南呈现了岩体数量渐少、规模渐小、含矿性渐弱的规律性变化.基于此,认为在矿集区以北瓦窝-松树镇一带应具有对称性的1~2条金伯利岩带存在,并预测该区原生金刚石具有较大的资源潜力.另据区内已勘探矿床中含矿岩体剥蚀程度,推测约有3000万克拉金刚石被剥蚀形成砂矿.因此,区内侏罗纪-第四纪地层和第四系松散堆积物中金刚石也具有较丰富的资源潜力.     

金伯利岩型金刚石矿床研究及其成矿模式探讨——以辽宁瓦房店地区金刚石原生矿矿床为例

辽宁南部瓦房店金刚石矿是国内最大的金刚石矿产区,现已发现4处金刚石成矿带、120个岩体。其中金伯利岩岩管24个、岩脉89个、可疑岩体7个,累计提交1221万克拉储量,占全国金刚石储量52%。本文主要对该矿床的金刚石母岩—金伯利岩的岩石地球化学特征进行了全面系统分析,发现金伯利岩中MgO、NiO、Cr 2O 3的含量与TiO 2、Al 2O 3、Na 2O、K 2O、CaO、P 2O 5等偏碱性组分呈正相关关系;Ni、Cr、Co含量与金刚石含量呈正相关,而Ti、Zr、Ba元素含量与金刚石含量呈负相关。通过对瓦房店矿区金刚石中石榴石及单斜辉石包裹体、橄榄石- 石榴石矿物对、石榴石微量元素、尖晶石- 橄榄石等多种地质温、压计归纳得出金刚石矿的来源深度为150~210 km,压力5~7 GPa,温度1083~1261℃,在上述温、压条件下,结合岩浆化学组成,估算金伯利岩具有低氧逸度(fO 2=2. 913×1. 01325×10-6Pa)的特点。结合野外勘查工作,总结了该矿床的地质特征、控矿构造、矿体空间分布规律等要素,认为NEE向和NE向断裂控制着金伯利岩体的展布方向和矿体形态。脉状金伯利岩体一般呈NEE 70°~80°方向展布,严格受NEE至近EW向的密集节理或裂隙控制。提出了金刚石母岩—金伯利岩是由源于上地幔岩浆,在一定的封闭条件下,受构造与岩性双重控制,多期性的爆发与侵入交替作用所形成,并建立了具有较高氧逸度和较高密度的流变性软流圈,通过渗滤熔体浸蚀岩石圈形成金刚石的理想成因模式,希望为下一步找矿工作提供参考。     

辽宁金刚石矿找矿与勘查

辽宁省是我国金刚石重要的产区之一,探明储量占全国第一,辽宁金刚石发现于１９７１年,主要产于辽东半岛南部瓦房店一带,以金伯利岩管（脉）产出。金伯利岩体多分布于凹陷与凸起的交接带,受近东西断裂控制,与北东向（北北东向）构造交汇部位多控制岩管产出。目前发现三个矿带。根据成矿地质条件分析,辽宁省可划出五个Ⅲ级成矿远景区带,即大连－铁岭带,大连－丹东带,鞍山－宽甸－新宾带,山海关－北镇带,建平－旧庙带。目前     

华北板块东缘金刚石成矿区域地质背景分析与成矿预测

对分布于华北板块东缘的辽宁铁岭、瓦房店及山东蒙阴等3个金伯利岩区的地质构造特征进行了研究,利用地层时代、构造行迹、古地磁以及同位素资料,对该区域金伯利岩的侵位时间进行了综合约束,认为该区域金伯利岩的侵位时间应该在250-300 Ma 之间。在此基础上,结合华北板块与扬子板块在古生代时的相互运移特征,对华北板块东缘金刚石的成矿区域地质背景进行了分析,并结合构造形迹的研究,对该区域金刚石原生矿进行了成矿预测。     

川西可尔因矿集区稀有金属矿床成矿规律与 找矿方向

为了解可尔因矿集区地质特征和成矿规律,查明矿集区地质找矿方向,对矿集区内成矿地质条件进行了系统分析和总结。研究表明稀有金属成矿主要与印支晚期—燕山早期的中-酸性花岗岩有关,岩浆侵位与成矿伟晶岩脉之间具有结晶分异演化关系。含矿岩浆不均一的结晶分异作用,导致了稀有金属矿化多分布在可尔因岩体东部和南部。在过铝质高挥发分的钙碱性-高钾钙碱性岩浆侵位和结晶分异演化过程中,在岩体与地层的接触带构造发育地段,形成了伟晶岩型稀有金属矿体,具有"岩浆岩-地层-构造"控制成矿的特征。据此提出了矿集区内的找矿标志和岩体与地层接触部位为今后找矿重点区域。     

基于三维模型的西峪金伯利岩管与断裂构造关系探讨

山东蒙阴金刚石矿床是中国著名的金伯利岩型金刚石矿床,西峪金伯利岩管是山东蒙阴地区的典型代表。三维建模技术于近些年来被广泛应用于地学研究领域。本文选择山东蒙阴地区西峪金伯利岩管为研究对象,借助于三维建模技术构建金伯利岩管和断裂构造的三维实体模型,在岩管成矿地质背景分析基础上,开展断裂构造三维空间特征定量分析和三维模型叠合讨论,探讨西峪金伯利岩管与断裂构造特征的关系。结果表明:金伯利岩管呈现出连续的上大下小“放射状”空间形态特征,岩管赋存部位往往断裂构造密集;金伯利岩岩浆上涌的通道可能为F1、F2、F10等深大断裂,岩管分布于断裂交点旁侧,岩管形态与构造交点形态相似。     

辽宁瓦房店地区50号金伯利岩管及其周边构造特征

辽宁瓦房店地区的3个金伯利岩带内的典型金伯利岩管产于NE向、NNE向与近EW向3组构造薄弱带中,并严格受其控制;3组构造交汇部位是今后找寻金伯利岩管的有利部位。构造期次对该区50号岩管具有明显控制作用:早期近EW向挤压破碎带为金伯利岩管的导矿构造;中期NE向断裂为控矿构造;晚期NNE向断裂、NW向断裂,对金伯利岩体起破坏作用。50号岩管及其周边金伯利岩体与构造盆地具有较明确的关联性;野外调查表明,50号岩管周边也曾发生过由E向W方向(或由SE向NW方向)的水平运动,且三维建模显示现在50号岩管不是岩体的根部,应在其东部或东南部寻找可能的剩余部分。     

华北克拉通金伯利岩型金刚石矿床含矿性判别

金伯利岩型金刚石原生矿床含矿性评价是了解金刚石成矿规律和指导区域性找矿的重要依据。华北克拉通是我国重要的金刚石成矿远景区,目前已发现了两个重要的含金刚石金伯利岩岩区（山东蒙阴和辽宁瓦房店）。近年来,对岩区内不同品位金刚石典型矿床的研究表明金伯利岩中的金刚石品位取决于以下两个重要的地质过程：金伯利岩岩浆对金刚石的捕获作用和金伯利岩岩浆对金刚石的熔蚀作用。在华北克拉通下方存在一个金刚石稳定区,温度为950~1200 ℃,压力为4. 4~6. 1 GPa。山东蒙阴和辽宁瓦房店金伯利岩岩浆在上升过程中穿过该区域并捕获其中的金刚石,成为含矿岩浆;而铁岭和鹤县等金伯利岩岩浆在上升过程中不穿过该区域,成为不含矿岩浆。在穿过金刚石稳定区时,富矿的金伯利岩捕获了更多的金刚石以及金刚石的伴生指示矿物（如镁铝榴石,镁铬铁矿）;而贫矿的金伯利岩则相对捕获了少量的金刚石和指示矿物。这些指示矿物往往参加了金刚石的形成过程,有些作为缓冲剂控制了反应（岩浆或熔体）的氧化还原状态,有些则作为反应物或者生成物参与到反应中。部分指示矿物（如镁铝榴石）还进一步地记录了金刚石形成后金伯利岩岩浆对金刚石的交代作用。金伯利岩岩浆温度（T）,氧逸度（fO2）和挥发份(H2O和CO2)均会对金刚石的熔蚀作用产生影响,其中氧逸度作用最大,温度次之,而挥发份作用最弱。在华北克拉通,金伯利岩中指示矿物（镁铝榴石、镁铬铁矿）和金伯利岩岩浆特征（温度,氧逸度和挥发份）共同组成了金伯利岩型金刚石原生矿的评价指标。     

江苏徐州西村金伯利岩管地质特征及其找矿意义

西村岩管是在苏北地区发现的第一个金伯利岩管,颠覆了苏北地区无金伯利岩的历史。从岩石学、地球化学和伴生矿物等方面分析了西村岩管的地质特征,并进一步探讨其金刚石找矿意义。从区域背景和金刚石形成条件看,西村地区具备了金伯利岩侵位和金刚石矿形成的基本地质条件,而西村岩管为金刚石矿就位提供了母岩条件;西村金伯利岩与山东、辽宁金伯利岩具有相似的地球化学特征,是幔源岩浆低程度部分熔融的产物,且在岩浆上升过程中普遍遭受了壳源物质的混染,后期碳酸盐化现象普遍发育;其相容元素含量与山东金伯利角砾岩相似,均为典型的金伯利岩型配分模式,稀土元素表现为轻、重稀土元素强烈分馏的特征;伴生指示矿物主要为榴辉岩型含铬镁铝榴石、富铬透辉石和富镁铬尖晶石,其特征均表现出含矿金伯利岩的特点。     

博茨瓦纳和中国含金刚石金伯利岩的地质特征及对寻找类似岩体的启示

金刚石及其寄主岩石是人类认识地球深部物质组成和性质、壳幔和核幔物质循环重要研究对象。本文总结了中国不同金刚石类型的分布,着重对比了博茨瓦纳和中国含金刚石金伯利岩的地质特征,取得如下认识:(1)博茨瓦纳含矿原生岩石仅为金伯利岩,而中国含矿岩石成分复杂,金伯利岩主要出露在华北克拉通,展布于郯庐、华北中央和华北北缘金伯利岩带,具有工业价值的蒙阴和瓦房店矿床分布于郯庐金伯利岩带中;钾镁煌斑岩主要出露在华南克拉通,重点分布在江南和华南北缘钾镁煌斑岩带中;(2)钙钛矿原位U-Pb年龄和Sr、Nd同位素显示,86～97 Ma奥拉帕金伯利岩群和456～470 Ma蒙阴和瓦房店金伯利岩均具有低87Sr/86Sr(0.703～0.705)和中等εNd(t)(-0.09～+5)特征,指示金伯利岩浆源自弱亏损地幔或初始地幔源区;(3)博茨瓦纳金伯利岩体绝大多数以岩筒产出,而中国以脉状为主岩筒次之;博茨瓦纳岩筒绝大部分为火山口相,中国均为根部相,岩筒地表面积普遍小于前者;(4)奥拉帕A/K1和朱瓦能金伯利岩体是世界上为数不多的主要产出榴辉岩捕虏体和E型金刚石的岩筒之一,而同位于奥拉帕岩群的莱特拉卡内、丹姆沙和卡罗韦岩体与我国郯庐带的金伯利岩体类似,均主要产出地幔橄榄岩捕虏体以及P型和E型金刚石;(5)寻找含矿金伯利岩重点注意以下几点:克拉通内部和周缘深大断裂带是重要的控岩构造;镁铝榴石、镁钛铁矿、铬透辉石、铬尖晶石和铬金红石等是寻找含金刚石金伯利岩重要的指示矿物;航磁等地球物理测量需与土壤取样找矿方法相结合才能取得更好效果;(6)郯庐金伯利岩带、江南钾镁煌斑岩带和塔里木地块是中国重要含矿岩石的找矿靶区,冲积型金刚石成矿潜力巨大。     

Distinct kimberlite pipe classes with contrasting eruption processes

Field and Scott Smith [Field, M., Scott Smith, B.H., 1999. Contrasting geology and near-surface emplacement of kimberlite pipes in southern Africa and Canada. Proc. 7th Int. Kimb. Conf. (Eds. Gurney et al.) 1, 214–237.] propose that kimberlite pipes can be grouped into three types or classes. Classical or Class 1 pipes are the only class with characteristic low temperature, diatreme-facies kimberlite in addition to hypabyssal- and crater-facies kimberlite. Class 2 and 3 pipes are characterized only by hypabyssal-and crater-facies kimberlite. In an increasing number of Class 1 pipes a new kimberlite facies, transitional-facies kimberlite, is being found. In most cases this facies forms a zone several metres wide at the interface between the hypabyssal- and diatreme-facies. The transitional-facies exhibits textural and mineralogical features, which are continuously gradational between the hypabyssal and the diatreme types. The textural gradations are from a coherent magmatic texture to one where the rock becomes increasingly magmaclastic and this is accompanied by concomitant mineralogical gradations involving the decline and eventual elimination of primary calcite at the expense of microlitic diopside. Both transitional- and diatreme-facies kimberlites are considered to have formed in situ from intruding hypabyssal kimberlite magma as a consequence of exsolution of initially CO₂-rich volatiles from the volatile-rich kimberlite magma. The transitional-facies is initiated by volatile exsolution at depths of about 3 km below the original surface. With subsequent cracking through to the surface and resultant rapid decompression, the further catastrophic exsolution of volatiles and their expansion leads to the formation of the diatreme facies. Thus diatreme-facies kimberlite and Class 1 pipes are emplaced by essentially magmatic processes rather than by phreatomagmatism.

Distinctly different petrographic features characterize crater-facies kimberlite in each of the three pipe classes. In crater-facies kimberlites of Class 1 pipes, small pelletal magmaclasts and abundant microlitic diopside are characteristic. These features appear to reflect the derivation of the crater-facies material from the underlying diatreme zone. Most Class 2 pipes have shallow craters and the crater-facies rocks are predominantly pyroclastic kimberlites with diagnostic amoeboid lapilli, which are sometimes welded and have vesicles as well as glass. Possible kimberlite lava also occurs at two Class 2 pipes in N Angola. The possible presence of lava as well as the features of the pyroclastic kimberlite is indicative of hot kimberlite magma being able to rise to levels close to the surface to form Class 2 pipes. Most Class 3 kimberlites have very steep craters and crater-facies rocks are predominantly resedimented volcaniclastic kimberlites, in some cases characterized by the presence of abundant angular magmaclasts, which are petrographically very similar to typical hypabyssal-facies kimberlite found in Class 1 pipes. The differences in crater-facies kimberlite of the three classes of pipe reflect different formation and depositional processes as well as differences in kimberlite composition, specifically volatile composition. Kimberlite forming pipe Classes 1 and 3 is thought to be relatively water-rich and is emplaced by processes involving magmatic exsolution of volatiles. The kimberlite magma forming Class 2 pipes is CO₂-rich, can rise to shallow levels, and can initiate phreatomagmatic emplacement processes.     

辽宁瓦房店首次发现50号金伯利岩管深部隐伏矿体

金刚石俗称钻石,以其高硬度和稀缺性成为世界上最珍贵的矿物之一.金刚石矿床按成因可分为原生矿床与次生矿床两大类,原生矿床又可分为金伯利岩和钾镁煌斑岩型,蛇绿岩地幔橄榄岩和铬铁矿、碱性辉长辉绿岩、超高压变质岩、火山岩、陨石及其冲积相关的岩石中均有金刚石产出,但未形成矿床(路凤香等,1998;Cartigny,2005;Gurney et al.,2010).次生矿床主要为砂矿床.其中原生金伯利岩型金刚石是世界上金刚石矿产的主要来源(Mitchell,1991;Gurney et al.,2005).辽宁省瓦房店地区以盛产金伯利岩型原生金刚石闻名世界,尤以50号金伯利岩管金刚石品质最好,宝石级约占70％,质量属于世界一流(任厚民,1992;宋瑞祥,2013).     

Geology of the Gahcho Kué kimberlite pipes, NWT, Canada: root to diatreme magmatic transition zones

The Cambrian Gahcho Kué kimberlite cluster includes four main pipes that have been emplaced into the Archaean basement granitoids of the Slave Craton. Each of the steep-sided pipes were formed by the intrusion of several distinct phases of kimberlite in which the textures vary from hypabyssal kimberlite (HK) to diatreme-facies tuffisitic kimberlite breccia (TKB). The TKB displays many diagnostic features including abundant unaltered country rock xenoliths, pelletal lapilli, serpentinised olivines and a matrix composed of microlitic phlogopite and serpentine without carbonate. The HK contains common fresh olivine set in a groundmass composed of monticellite, phlogopite, perovskite, serpentine and carbonate. A number of separate phases of kimberlite display a magmatic textural gradation from TKB to HK, which is characterised by a decrease in the proportion of pelletal lapilli and country rock xenoliths and an increase in groundmass crystallinity, proportion of fresh olivine and the degree of xenolith digestion.

The pipe shapes and infills of the Gahcho Kué kimberlites are similar to those of the classic South African pipes, particularly those of the Kimberley area. Similar intrusive magmatic emplacement processes are proposed in which the diatreme-zone results from the degassing, after breakthrough, of the intruding magma column. The transition zones represent ‘frozen’ degassing fronts. The style of emplacement of the Gahcho Kué kimberlites is very different from that of many other pipes in Canada such as at Lac de Gras, Fort à la Corne or Attawapiskat.     

金伯利质岩管的认识及其找矿意义

金伯利岩是世界上分布较少和较难寻找的岩石。因其含有金刚石, 具经济价值,含有地幔捕虏体,给科学界带来地壳深部和上地幔信息,一直为地学界所关注。金伯利岩多呈管状产出,岩管中含有来自上地幔的同源包体以及上升通道周边各种岩石的捕虏体,火山爆发所形成的火山碎屑的复杂性造成其岩石命名有多种不同的认识,有关术语及其用法非常多。在研究国内外关于金伯利岩成果的基础之上,本文将术语用法和岩石命名原则进行分析和总结,解剖三种类型金伯利质岩管在纵向上的变化,分析在中国所发现的含金刚石的金伯利质岩管的特征和分析可能存在的金刚石砂矿。     

Geology of the Victor Kimberlite, Attawapiskat, Northern Ontario, Canada: cross-cutting and nested craters

The pipe shapes, infill and emplacement processes of the Attawapiskat kimberlites, including Victor, contrast with most of the southern African kimberlite pipes. The Attawapiskat kimberlite pipes are formed by an overall two-stage process of (1) pipe excavation without the development of a diatreme (sensu stricto) and (2) subsequent pipe infilling. The Victor kimberlite comprises two adjacent but separate pipes, Victor South and Victor North. The pipes are infilled with two contrasting textural types of kimberlite: pyroclastic and hypabyssal-like kimberlite. Victor South and much of Victor North are composed of pyroclastic spinel carbonate kimberlites, the main features of which are similar: clast-supported, discrete macrocrystal and phenocrystal olivine grains, pyroclastic juvenile lapilli, mantle-derived xenocrysts and minor country rock xenoliths are set in serpentine and carbonate matrices. These partly bedded, juvenile lapilli-bearing olivine tuffs appear to have been formed by subaerial fire-fountaining airfall processes.

The Victor South pipe has a simple bowl-like shape that flares from just below the basal sandstone of the sediments that overlie the basement. The sandstone is a known aquifer, suggesting that the crater excavation process was possibly phreatomagmatic. In contrast, the pipe shape and internal geology of Victor North are more complex. The northwestern part of the pipe is dominated by dark competent rocks, which resemble fresh hypabyssal kimberlite, but have unusual textures and are closely associated with pyroclastic juvenile lapilli tuffs and country rock breccias±volcaniclastic kimberlite. Current evidence suggests that the hypabyssal-like kimberlite is, in fact, not intrusive and that the northwestern part of Victor North represents an early-formed crater infilled with contrasting extrusive kimberlites and associated breccias. The remaining, main part of Victor North consists of two macroscopically similar, but petrographically distinct, pyroclastic kimberlites that have contrasting macrodiamond sample grades. The juvenile lapilli of each pyroclastic kimberlite can be distinguished only microscopically. The nature and relative modal proportion of primary olivine phenocrysts in the juvenile lapilli are different, indicating that they derive from different magma pulses, or phases of kimberlite, and thus represent separate eruptions. The initial excavation of a crater cross-cutting the earlier northwestern crater was followed by emplacement of phase (i), a low-grade olivine phenocryst-rich pyroclastic kimberlite, and the subsequent eruption of phase (ii), a high-grade olivine phenocryst-poor pyroclastic kimberlite, as two separate vents nested within the original phase (i) crater. The second eruption was accompanied by the formation of an intermediate mixed zone with moderate grade. Thus, the final pyroclastic pipe infill of the main part of the Victor North pipe appears to consist of at least three geological/macrodiamond grade zones.

In conclusion, the Victor kimberlite was formed by several eruptive events resulting in adjacent and cross-cutting craters that were infilled with either pyroclastic kimberlite or hypabyssal-like kimberlite, which is now interpreted to be of probable extrusive origin. Within the pyroclastic kimberlites of Victor North, there are two nested vents, a feature seldom documented in kimberlites elsewhere. This study highlights the meaningful role of kimberlite petrography in the evaluation of diamond deposits and provides further insight into kimberlite emplacement and volcanism.     

辽南斑状金伯利岩岩相学特征及其成因研究

辽南金伯利岩岩区是我国最大的原生金刚石矿产区,该区金刚石主要寄主岩石类型为斑状金伯利岩。橄榄石是金伯利岩中最重要的造岩矿物,根据其结构特征可以分为橄榄石粗晶、橄榄石斑晶以及基质中微细粒三个世代。本文将岩相学特征和前人研究成果相结合,构建辽南斑状金伯利岩岩浆起源、上升、喷发和成岩模型,探讨各世代矿物的形成过程。具体包括：深部交代地幔部分熔融,形成初始碳酸盐岩浆;初始岩浆上升过程中捕获的岩石圈地幔橄榄岩不断溶解(形成橄榄石粗晶),岩浆成分发生改变,成为金伯利岩岩浆;金伯利岩岩浆迅速上升侵位,至地表处爆破喷发,最后冷却固结形成包含粗晶及其他两个世代橄榄石的斑状金伯利岩。