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1.
K. K. Sinha Pradeep Pandey C. L. Bhairam P. S. Parihar 《Journal of the Geological Society of India》2011,77(2):183-189
In the western part of Bundelkhand massif, a caldera with intra-caldera sediments, known as Dhala Formation, occurs as an
outlier in and around Mohar village of Shivpuri district, Madhya Pradesh. For the first time, occurrence of peperite is being
reported from the basal part of the Dhala sediment. Two types of peperites have been recognized: blocky and fluidal or globular
with variable morphology. In peperitic zones, features like soft sediment deformations, presence of sediment into the rhyolite
along cracks, vesiculation of the sediments and other evidences suggestive of sediment fluidization are some definite characteristics
of interaction of hot magma with wet sediments forming peperite. The occurrence of peperites reflects the contemporaniety
of deposition of the Dhala sediments and volcanism, which is well in accordance to the volcanic origin of Dhala structure.
Further, the nature of unconformity between the Dhala and overlying Kaimur which is characterized by merely a few centimeter
thick pebbly/conglomeratic bed does not appear to represent a large hiatus as expected between the Semri and Kaimur of Vindhyan
Supergroup. So, the contemporaniety of the Dhala Formation (at least the lower part) as reflected by occurrence of peperites,
coupled with the available age of the rhyolite and the nature of the unconformity between the Dhala and overlying Kaimur provide
convincing evidence to correlate the Dhala Formation with the Lower part of the Kaimur and unlikely with the Semri Group or
Bijawar as proposed earlier. 相似文献
2.
豫西地区秦岭造山带武当群Nd-Hf同位素组成及其物源特征 总被引:1,自引:0,他引:1
武当群变质沉积-火山岩组合是南秦岭地体中重要的基底岩石,其形成时代和地球化学特征可以为理解秦岭造山带的构造演化提供重要的证据.本文报道豫西地区武当群上部沉积岩和下部中-酸性火山岩Sm-Nd同位素和锆石Lu-Hf同位素组成,探讨火山岩成因和沉积岩物源的同位素特征.上部沉积岩的碎屑锆石初始ε_(Hf)值变化在-30~+10之间,对应的模式年龄值t_(DM2)在1.0Ga至3.2Ga之间,初始ε_(Nd)值在-4.0至-6.0之间.沉积物源表现为主要与扬子陆块有亲缘关系的地壳物质和近源的下部火山岩混合的特征.火山岩的锆石初始εHf值变化在-35~+15之间,对应的模式年龄值t_(DM2)在0.8Ga至3.5Ga之间,集中于1.5~1.8Ga和2.2~2.4Ga两个峰值.2个变质石英角斑岩样品初始ε_(Nd)值分别为-9.2和-10.7,而报道的湖北武当群的玄武-安山质熔岩的初始ε_(Nd)值以正值为主.因此,武当群不同类型的火山岩可能存在着成因差异.具有低初始ε_(Nd)值和ε_(Hf)值特征的火山岩可能由地壳物质的重熔而形成的;有些火山岩具有初始ε_(Hf)值变化范围较大(-35~+15)或正初始ε_(Nd)值的特点,可能是壳、幔物质混合成因,有显著的幔源或新生地壳物质的贡献.武当群Nd-Hf同位素组成和碎屑锆石年龄分布特征表明,与扬子陆块有亲缘关系的南秦岭地体在元古代期间可能经历多期地壳增生和再造作用. 相似文献
3.
Zircons from mafic and felsic volcanic rocks in the type area of the Warrawoona Group, the basal Archaean greenstone succession of the eastern Pilbara Block, have been dated precisely using the ion-microprobe SHRIMP. The results allow two alternative time-frames for the duration of the Warrawoona Group, dependent on how the dated zircons are considered to relate to the volcanic rocks. Our favoured interpretation requires a hiatus of 135±5 Ma between the Duffer Formation at 3.46 Ga and the overlying felsic volcanic rocks of the Wyman Formation, and a hydrothermal or later magmatic origin for zircons of age 3.33 Ga within one Duffer Formation sample and the underlying metabasalts. The alternative time-frame requires a short time for deposition of the entire Group, less than 15 Ma at 3.33 Ga, and a xenocrystic origin for the 3.46 Ga zircons of the Duffer Formation. Outside the type area of the Warrawoona Group, the age of an intrusive granodiorite requires that greenstones be older than 3.43 Ga and the Group formed over an interval of > 120 Ma.Visibly different zircons within one of the Duffer Formation samples were found to be Palaeozoic in age and presumably constitute hydrothermal growth of new zircon within the rock at low temperature. Similar zircons were found within samples from other rock units but with a spread of Proterozoic ages. 相似文献
4.
扬子地块东南缘沉积岩的Nd同位素研究 总被引:16,自引:1,他引:15
扬子地块东南缘上溪群分布区及其周边沉积岩的Nd同位素研究结果,支持存在一条苏浙皖古生代裂陷槽(或江南深断裂)的观点。上溪群以北直至长江边所分布的震旦系-古生代的盖层沉积岩,其Nd模式年龄有两组,表明物源区不同。裂陷槽以北,沉积岩的物源区为Nd模式年龄约2.0~2.1Ga的扬子物源区;以南的沉积岩表现出明显的幔源物质混染,显示出元古代岩浆活动的影响,而上溪群分布区以南直到江绍断裂附近主要表现上溪物源区的影响,华夏地块古老基底岩石则无显著贡献。 相似文献
5.
内蒙古苏尼特右旗白乃庙地区徐尼乌苏组的形成时代及其地质意义 总被引:1,自引:1,他引:0
本文对白乃庙地区徐尼乌苏组沉积特征、原岩建造、变质火山岩及变质碎屑岩的年代学和地球化学进行了研究,探讨了白乃庙地区早古生代构造演化。本次研究采集了徐尼乌苏组中具有代表性的变质含砾粗粒杂砂岩、变质英安质晶屑凝灰岩和变质长石石英细砂岩样品,进行了锆石LA-ICP-MS U-Pb年代学和岩石地球化学分析。结果显示,2个变质英安质晶屑凝灰岩锆石的加权平均年龄分别为440.9±1.8Ma(MSWD=0.10)和440.9±1.7Ma(MSWD=0.15),锆石Th/U比值为0.46~1.59,自形程度较好,发育有典型的岩浆锆石振荡环带结构,显示为岩浆成因锆石的特点,表明徐尼乌苏组的形成时代为早志留世。变质含砾粗粒杂砂岩的碎屑锆石年龄在452.0±1.3Ma~535.0±1.0Ma之间,最高峰值年龄为490Ma左右;变质长石石英细砂岩碎屑锆石年龄则在440.1±5.7Ma~3268.9±57.7Ma之间,最小谐和年龄为440.1±5.7Ma,峰值年龄为490Ma左右,另有1.0Ga、1.6Ga、1.8Ga和2.5Ga四个明显的峰值年龄。根据研究区徐尼乌苏组岩性组合与结构构造,可将该组划分为3个不同的沉积旋回。结合白乃庙地区徐尼乌苏组测年结果、岩石地球化学特征、原岩建造及区域岩浆岩资料,白乃庙弧后盆地沉积可划分为三个演化阶段:早期快速堆积阶段(452.3~440.9Ma),形成了一套成熟度较低的粗碎屑岩建造,物源主要来源于白乃庙岩浆弧中的岩浆岩;中期火山喷发阶段(440.9~440.1Ma),以火山沉积作用为主,为火山碎屑岩建造夹有碳酸盐建造和少量碎屑岩建造,碎屑物质主要来源于该时期的火山活动;晚期稳定沉积阶段(440.1Ma),形成一套细碎屑岩建造和碳酸盐建造,为浅海相稳定沉积,此时物源广泛,分别来源于华北克拉通基底、兴蒙造山带和白乃庙早古生代火山弧。根据徐尼乌苏组的沉积建造和火山建造特征,结合白乃庙火山弧岩浆活动特征,认为徐尼乌苏组形成于早古生代弧后盆地中,此时华北板块北缘属于安第斯型活动大陆边缘。 相似文献
6.
昆阳群的形成时代、沉积环境、源岩性质等一直存在较大争议,为了查明滇中地区昆阳群的物源及其形成的构造环境,文章在分析昆阳群沉积组合和沉积相的基础上,对昆阳群3件变质砂岩样品中的碎屑锆石进行LA-ICPMS锆石U-Pb年龄测定,对昆阳群20件极低级变质碎屑岩进行地球化学分析。从昆阳群黄草岭组、黑山头组和美党组中分别获得了最年轻的谐和年龄为984.0 Ma、945.0 Ma和954.0 Ma;碎屑锆石年龄峰谱显示,在1.0 Ga、1.35Ga、1.73 Ga和2.44 Ga出现了统计峰值,其年龄主要集中在1.73 Ga和1.35 Ga。表明昆阳群源区主要经历了1.0 Ga、1.35 Ga、1.73 Ga和2.44 Ga的构造热事件,资料显示扬子地块西南缘出露的大红山群形成时代为1.7 Ga,格林威尔期的构造热事件时期为1.0~1.3 Ga。此外,地球化学分析结果表明昆阳群源岩主要是形成于大陆岛弧—活动大陆边缘的石英质旋回沉积、长英质岩石和少量镁铁质岩石。在中元古代晚期—新元古代早期(0.95~1.0 Ga),Rodinia超大陆形成阶段,在扬子地块西南缘的弧后前陆盆地中形成昆阳群的沉积组合,物源主要来自扬子地块西南缘的大红山群和格林威尔期岛弧的岩石。 相似文献
7.
Madhuparna Roy Shailendra Kumar Pradeep Pandey C. L. Bhairam P. S. Parihar 《Journal of the Geological Society of India》2014,84(4):377-384
The circular structure at Mohar (Dhala structure) in the western part of Bundelkhand Gneissic Complex, is marked by a prominent outlier of Kaimur sediments surrounded by low lying concentric sequence of sediments of Dhala Formation and basement granite breccia. This has been interpreted as a volcanic eruption related cauldron structure and meteoritic impact crater structure by various authors, on the basis of absence or presence of shock indicators in the clasts of a rhyolite-like rock that crops out scantily in the north western part of the structure. During the course of extensive sub-surface uranium exploration in this structure, the geoscientists of Atomic Minerals Directorate for Exploration and Research observed unequivocal and rampant evidences of shock metamorphic features for the first time in drill core samples of basement granitoids which constitute the bed rock for the rhyolite-like melt breccia, which overlies it. Published data of shock metamorphic features from this area are largely confined to the surface samples of the rhyolite-like melt rock, exposed in sparse outcrops. The shock metamorphic features recorded in the sub-surface granitoid bed rock samples during the present study, comprise planar deformation features (PDF) in quartz, feldspar, apatite and zircon, toasted, diaplectic, ladder-textured feldspars, selectively shock-melted feldspars and melt-veined quartz. The shock metamorphic features recorded in surface and sub-surface samples of the melt rock include ballen quartz, PDF in quartz clasts, toasted and diaplectic feldspar clasts shocked basic rock fragments with isotropised feldspars. Both the shocked bedrock granitoid and the melt rock bear uncharacteristic geochemical signatures with elevated K2O, MgO and depleted CaO. The study also observes that the melt breccia overlying the granitoid bedrock also occurs as pocket-like patches at various depths within the granitoids. Thus, the present findings have helped in understanding the attributes of the basement granitoid and associated melt breccia, thereby linking the genesis of the latter by selective melting of the former, due to the process of impact. It reinforces the already propounded theory of impact as the likely cause for the development of the structure in the basement Bundelkhand granitoid that was later filled by sediments standing out presently as a mesa. 相似文献
8.
Shailendra Kumar Madhupurna Roy Pradeep Pandey C. L. Bhairam P. S. Parihar 《Journal of the Geological Society of India》2013,81(3):369-376
In the westernmost part of the Bundelkhand Granitoid Complex (BGC), a mesa structure represents a unique outlier, surrounded by brecciated granite and filled with Vindhyan sedimentary rocks locally known as the Dhala Formation near Mohar village of Shivpuri district, Madhya Pradesh. Uranium mineralisation located in the area is mostly associated with rhyolite of peralkaline to peraluminous in nature, that has a high average uranium concentration (30 ppm). The mineralization is in or adjacent to caldera and is hydrothermal vein-type. Radioactivity is mainly due to coffinite with limited radioactivity due to U-Ti complex, uranium adsorbed in clay and labile uranium along fracture. Coffinite occurs in association with pyrite and chalcopyrite or chlorite with presence of fluorite. Features such as chloritisation, clay formation and sulfide mineralisation manifest hydrothermal alteration. Chemical analysis indicates the aluminous nature of the rock and their high K2O/Na2O (3.81–12.84) ratios are suggestive of predominance of potash feldspar over sodic. The alteration index varies from 49.88–92.40, which, reflects high intensity of hydrothermal alteration. Chlorite-carbonatepyrite index (CCPI), a measure of the intensity of replacement of sodic feldspars and glass by sericite, chlorite, carbonate, and pyrite associated with hydrothermal alteration proximal to the ore bodies varies from 3.84–49.66. On the basis of core study, geochemistry and mineralogy, it is envisaged that epigenetic hydrothermal solutions were responsible for concentration of uranium as coffinite, radioactive carbonaceous matter and adsorbed uranium phases in rhyolite with sulfide confined to weak planes. 相似文献
9.
E. B. Sal’nikova A. B. Kotov V. P. Kovach S. D. Velikoslavinskii B. -M. Jahn A. A. Sorokin A. P. Sorokin K. -L. Wang S. -L. Chan H. -Ya. Li E. V. Tolmacheva 《Doklady Earth Sciences》2013,453(2):1181-1184
U-Pb (LA-ICPMS) geochronological studies established the minimum age of detrital zircons from metasedimentary rocks of the Uril Formation of the Amur Group of ~240 Ma, which approximately corresponds to the lower age boundary of formation of their protoliths. The upper boundary of accumulation of sedimentary rocks of this formation is governed by the age of superimposed structural-metamorphic transformations (220–210 Ma). It follows that the age of protoliths of metasedimentary rocks of the Uril Formation is Triassic in contrast to the previously suggested Early Precambrian age. At the same time, previous estimations of the Nd model age of metasedimentary rocks of the Tulovchikha Formation of the Amur Group and intruding gabbroic rocks are 1.7 and 0.5 Ga, respectively. In other words, the age of this formation is 1.7–0.5 Ga. All of this indicates a combination of sedimentary and volcanic rocks of different ages in the section of the Amur Group. Judging from the Lu-Hf isotopic-geochemical studies of zircons, the major sources of protoliths for metasedimentary rocks of the Uril Formation are Neoproterozoic igneous rocks and also Early and Late Paleozoic and Early Mesozoic igneous rocks, the formation of which was related to the reworking of the Neo- and Mesoproterozoic continental crust. 相似文献
10.
处于龙岗地块和狼林地块之间的古元古代辽吉构造带内分布有大量的变质沉积-火山地层,在辽宁地区称为辽河群.对于辽河群沉积时限及其内部各岩组之间关系的认识一直存在分歧.为了限制古元古代变沉积岩(辽河群)的沉积时限及其内部各层位间关系,选择辽东地区高家峪组火山岩进行锆石U-Pb LA-ICP-MS年代学研究.测年结果显示高家峪组代表岩石成岩年龄的岩浆活动有4期2 179~2 145 Ma、2 079 Ma、1 985 Ma、1 928 Ma.结合前人已发表辽河群火山岩年代学数据显示,辽河群火山活动主要集中在3期:第1期(2 210~2 140 Ma)早期岩浆活动主要为酸性火山岩,在末期显示双峰式火山岩组合;第2期(2 100~2 050 Ma)岩浆活动以基性岩浆活动为主;第3期(2 000~1 960 Ma)岩浆活动也显示双峰式火山岩组合.辽河群火山岩的形成年龄将其沉积时限限制于2 229~1 928 Ma,沉积作用至少持续了300 Ma.火山岩年代学结果显示,辽河群浪子山组、里尔峪组、高家峪组和大石桥组火山岩形成时代呈现互相交替穿插关系,没有显示规律性的上下有序关系.结合野外辽河群各岩组之间多以韧性剪切带形式接触,认为辽河群各岩组之间不是从底到顶的有序沉积,而是“整体无序,局部有序”. 相似文献
11.
云南武定迤纳厂Fe-Cu-REE矿床的锆石U-Pb和黄铜 矿Re-Os年代学、稀土元素地球化学及其地质意义 总被引:7,自引:2,他引:5
迤纳厂矿床是康滇地区典型的铁-铜-稀土矿床之一.因为其特殊的矿物组合(磁铁矿与黄铜矿共生)以及富含稀土矿物,这类矿床一直是矿床学家研究的热点.然而由于其围岩遭受不同程度的变质和蚀变作用,这类矿床的成矿时代与矿床成因一直存在争议.本文通过对迤纳厂组中层状凝灰岩和火山角砾岩所含锆石进行LA-ICP-MS U-Pb定年来揭示迤纳厂组的最大沉积年龄.大多数锆石具有明显的震荡环带和较高的Th/U比值(>0.4)表明它们均是岩浆锆石,近200粒碎屑锆石的207 pb/206 Pb年龄大致可以分为四组:1.75 ~ 1.88Ga,1.90 ~2.00Ga,2.02~2.20Ga和2.30 ~2.40Ga,且最老年龄在3.0Ga左右,而最年轻年龄在1750Ma左右.这一定年结果反映了迤纳厂组的沉积上限大约为1.7Ga,并且在康滇地区可能还有更老的基底存在.通过对矿石矿物黄铜矿的Re-Os同位素定年测试,直接限定了矿床的成矿时代.6个黄铜矿样品的Re-Os同位素等时线年龄为1690±99Ma(MSWD =9.0),模式年龄的加权平均值为1685±37Ma(MSWD=3.0),表明该矿床形成于距今约1.7Ga.另外,主要类型矿石具显著的正铕异常和轻稀土富集的特点,与现代海底热液极其相似.年代学研究显示矿床的形成时代和地层的沉积时代大致相同,而REE揭示的流体特征反映其成矿作用与海底热液活动有关.这些结果暗示了该矿床为海底火山喷发-同生沉积形成.近来的较多研究证实,康滇地区存在1.7Ga左右较大范围的岩浆活动和较多同期铁-铜矿床,表明该期岩浆活动可能是制约该区铁-铜矿床形成的关键因素,且岩浆活动可能与约1.7Ga的Columbia超大陆的裂解事件有关. 相似文献
12.
扬子西缘广泛出露的新元古代澄江组是一套与晋宁运动密切相关的沉积岩夹火山岩系,其形成时限对华南新元古代区域地层格架、地层划分对比及古大陆再造具有重要意义。出露于滇中易门地区的新元古代澄江组底部发育有厚数米的凝灰岩夹层,本次采集凝灰岩进行LA-ICP-MS锆石U-Pb定年研究,结果表明,锆石206Pb/238U年龄加权平均值为812±5. 5Ma(n=17,MSWD=0.46),可以代表滇中澄江组的底界年龄,从而进一步确定澄江组底界年龄为812Ma左右。此外,凝灰岩中捕获的锆石年龄信息指示扬子西缘可能存在2. 5Ga、1. 8~1. 6Ga、1. 5Ga、1. 3Ga及1.0Ga等数期重要的区域构造-热事件。 相似文献
13.
华北克拉通古/中元古代界线和相关地质问题讨论 总被引:21,自引:15,他引:6
从18到16亿年,全球构造格局、古地理环境及生物演化发生重要变革。就全球地质演化历史而言,结晶基底的形成标志着古元古代的结束,而稳定盖层的发育标志着中元古代的开始。在国际地层年表上,古元古代末期(18~16亿年)被称之为"固结纪",古/中元古代的界线被划定在16亿年。在华北克拉通,一般认为"吕梁运动"是结晶基底最终形成的标志性构造-热事件,此后发育以长城系为代表的地台型沉积盖层。长期以来,我国地质界一直以长城系的沉积代表中元古代的开始,并将古/中元古代的界限置于18亿年,与国际地层年表相差2亿年,以至于在中外文献中对中国18~16亿年间的地质记录的表述方式混乱。究其原因,主要有:1华北克拉通基底的形成或最终克拉通化是以"吕梁运动"的结束为标志,结晶基底最晚期的变质年龄不晚于18亿年;2长城系的底界年龄(18亿年)一直缺乏可靠的数据,目前对华北克拉通范围内稳定盖层发育的起始时间及代表性沉积记录,尚无统一的认识;3对华北克拉通由基底形成到盖层的演化及构造体制转折的动力学过程等见解不一,也缺少精细的年代学制约。本文综述了华北克拉通尤其是南部地区18~16亿年岩浆-沉积记录的研究进展,就古/中元古代界线及相关地层对比和划分方案进行了讨论,并指出了亟需解决的重要科学问题。作者认为:1华北克拉通18~16亿年的火山-沉积记录在其南部地区最广泛、最完整。其中,熊耳群火山岩系(18~17.5亿年),包括底部发育的河湖相砂岩-泥岩沉积——大古石组,早于蓟县剖面的长城群,是华北陆块结晶基底形成后最早的盖层沉积。2华北克拉通古/中元古代的分界年龄目前有2种选择:一是18亿年,即熊耳群火山岩系底部大古石组的起始沉积年龄;二是16亿年,将蓟县剖面长城系的高于庄组划归蓟县系,长城系的大红峪组及以下地层归为古元古代,18~16亿年的火山-沉积岩系均归为古元古代末期的固结纪。3华北克拉通18~16亿年的地质记录包括早期的熊耳群和晚期的长城群火山-沉积岩系,以及多期次的基性岩墙、斜长岩杂岩体、A-型花岗岩(包括环斑花岗岩)等的发育。目前对它们的成因和产出的地球动力学背景存有诸多争议,精确构建该时期岩浆-沉积作用的时序,并与全球典型克拉通进行对比,进而解析华北克拉通由结晶基底形成到稳定盖层发育阶段的构造体制转折和动力学过程,为重新厘定古/中元古代界线和相关地层划分方案提供依据。这些是我国前寒武纪地质研究的重要课题。 相似文献
14.
辽宁省本溪连山关地区出露大面积的古元古代辽河群地层,在朱家沟典型剖面浪子山组中识别出2层斜长角闪岩,镜下观察其原岩为玄武岩;在连山关及河栏镇里尔峪组中识别出一套酸性火山岩。对浪子山组2件斜长角闪岩样品、里尔峪组2件流纹岩样品测定LA-ICP-MS锆石U-Pb年龄。阴极发光图像显示,样品D020锆石内部结构整体发黑、条痕状吸收程度不等,Th/U值较低,为变质锆石,其1934±45Ma代表了浪子山组的变质年龄。其余3个样品阴极发光图像显示典型的岩浆振荡环带结构和较高的Th/U值,为岩浆锆石。1952±38Ma代表了浪子山组的形成时代,2177±34Ma和2208±12Ma代表了里尔峪组的形成时代。结合前人资料,将辽河群形成时代限制在2.20~1.95Ga,其形成时代持续了250Ma左右。野外接触关系及火山岩年代学特征从另一个方面揭露了辽河群总体为一套无序、局部有序的构造地层,各岩组间不存在上下关系,浪子山组已经不适合置于里尔峪组之下。 相似文献
15.
The Paleoproterozoic McArthur Basin (McArthur Group) of northern Australia hosts world-class sedimentary ‘exhalative’ (SEDEX) McArthur type Zn–Pb deposits, which are largely hosted within a sequence of 1.64 Ga pyritic carbonaceous shales deposited in an extensional rift setting. A well-known example of these is McArthur River (or Here's Your Chance [HYC] Zn–Pb–Ag deposit). The ~ 1.78 Ga McDermott and ~ 1.73 Ga Wollogorang formations (Tawallah Group) both contain carbonaceous shales deposited in similar environments. Our observations suggest the carbonaceous facies of the Wollogorang Formation were deposited under mostly euxinic conditions, with periodically-high concentrations of sedimentary pyrite deposition. The carbonaceous shales in the older McDermott Formation contain considerably less early pyrite, reflecting a mostly sulfide-poor, anoxic depositional environment. Localized fault-bound sub-basins likely facilitated lateral facies variations, which is evident from synsedimentary breccias.The presence of evaporitic oxidized facies within the McDermott and Wollogorang formations, alongside evidence for synsedimentary brecciation in reduced shales are favourable criteria for SEDEX-style base metal deposition. Both formations overlie volcanic units, which could have been sources of base metals. Detailed X-ray petrography, new geochemical data and sulfur isotope data from historical drill cores indicate multiple horizons of stratiform and sediment breccia-hosted base metal sulfide within carbonaceous shale units, with high-grade Zn concentrations. A close association between sphalerite and ferromanganean dolomite alteration draws comparisons with younger SEDEX mineralization at HYC. Additionally, SEDEX alteration indices, used demonstrably as a vector to the younger orebodies, indicate the sedimentary rocks analyzed in this study are marginally below the ore window when compared to the overlying mineralized stratigraphy.Our data imply that localized active circulation of metalliferous brines occurred in the Tawallah Group basin. High-grade sulfide deposition in reduced facies alteration may represent distal expressions of larger SEDEX-style deposits. Furthermore, abundant pyrite and high molybdenum in the Wollogorang Formation suggest the global oceanic sulfate concentration was sufficient by ~ 1.73 Ga to engender intermittent but strong bottom-water euxinia during shale deposition, thus providing a robust chemical trap for base metal sulfide mineralization. 相似文献
16.
湖北北部耀岭河群、武当山群、随县群(大狼山群)之我见 总被引:4,自引:0,他引:4
川、陕、豫、鄂边境和湖北武当山地区的耀岭河群—武当群,鄂北随州—应山地区的随县群(大狼山群),大别山西南麓孝感和黄冈地区长江北岸的原红安群上部地层实为同一地层。原耀岭河群是一套变基性火山岩,它岩性单一,厚度不大,应废群复组。其下为一套变质(含砾)含晶屑岩屑酸性火山岩,命名为柳林组。再下是一套变质碎屑沉积岩、火山质沉积岩,命名为天星庙组。耀岭河组在鄂东、鄂中缺失;柳林组、天星庙组横贯东西。建议三组统称武当山群。武当山群上覆有含化石的古生界和上震旦统碳酸盐岩地层,其间没有角度不整合界线;之下未见底,时代为早震旦世 相似文献
17.
The western flank of the Paleoproterozoic Imandra-Varzuga rift zone consists of three volcanogenic-sedimentary series and layered mafic-ultramafic intrusions of different age (2.50–2.45 Ga). The earliest Monchegorsk and Monche Tundra layered massifs were formed about 2.50 Ga during the prerift stage of the evolution of the Imandra-Varzuga zone. The early rift stage (~2.45 Ga) produced layered intrusions of the Imandra complex and volcanic rocks of the Strelna Group, consisting of the Kuksha and Seidorechka formations. In terms of chemical composition, the volcanic rocks of the Seidorechka Formation belong to a single basalt-rhyolite series, mostly of normal alkalinity and both tholeiitic and calc-alkaline affinity. The rocks of the Imandra Complex are characterized by moderate LREE enrichment, relatively flat HREE patterns, and a positive Eu anomaly. Similar REE distribution patterns were observed in the volcanic rocks of the Seidorechka Formation, which show a gradual increase in REE content with increasing SiO2. The upper part of the Seidorechka Formation in the southern Khibiny region is composed of metarhyodacites. They terminate the sequence of the Strelna Group and have a U-Pb zircon age of 2448 ± 8 Ma. This age presumably reflects the upper age boundary of the rocks of the Seidorechka Formation and the end of the early stage of the evolution of the Imandra-Varzuga zone. Xenogenic zircon from the same sample yielded a U-Pb zircon age of 2715 ± 42 Ma. A U-Pb age of 2202 ± 17 Ma was obtained for titanite and rutile and interpreted as the metamorphic age of the Seidorechka Formation. The metavolcanic rocks of the Seidorechka Formation have negative ?Nd (T) varying from ?2.84 to ?2.32, and ISr values of 0.7041–0.7038, which are higher than those of the depleted mantle and suggest their derivation from an enriched mantle reservoir (EM1). The spatial association of the volcanic rocks of the Seidorechka Formation and the rocks of the Imandra Complex, similarity in the behavior of most major elements, similar REE distribution patterns, and close formation ages and isotope signatures give grounds to combine them in a single volcanoplutonic association. 相似文献
18.
沉积盆地的研究对于理解造山带的构造演化具有重要意义.内蒙古狼山地区位于中亚造山带中段,构造演化历史复杂,晚古生代沉积盆地的大地构造背景存在争议.在对狼山西北缘乌兰敖包地区出露的"阿木山组"岩性特征、沉积构造及沉积环境的系统研究基础上,将该组分为3个岩性段.一段主要为粗碎屑岩,交错层理发育,沉积环境为辫状河三角洲;二段底部主要为粗碎屑岩,向上沉积物粒度变细,顶部出现生物碎屑灰岩,在岩屑石英砂岩中新发现芦木Calamites sp.,座延羊齿Alethopteris sp.,带科达Cordaites principalis Gein等植物化石,沉积环境由辫状河三角洲向滨海环境过渡;三段主要岩性为结晶灰岩,含生物碎屑,沉积环境为滨-浅海环境."阿木山组"一、二段砂岩碎屑锆石年龄可分为~2.5 Ga、~1.8~1.2 Ga、~826 Ma、461~440 Ma和313~273 Ma五个时间段,其中最小年龄为273 Ma,结合植物化石鉴定结果以及上覆火山岩地层年代,确定"阿木山组"沉积时代为265~273 Ma.研究区内同时代的岩浆岩指示该区在早中二叠世处于古亚洲洋向华北板块俯冲的岩浆弧环境,结合"阿木山组"的沉积特征、沉积时代及所处构造位置,对其地层划分与对比方案提出建议. 相似文献
19.
通过对福山凹陷流沙港组砂岩碎屑组成及Dickinson三角图解分析,揭示了源区主要为稳定成熟陆块的混合造山带,火山弧造山带、碰撞缝合线及褶皱—逆掩带也有一定的贡献,与海南岛以外来峰的方式逆冲—推覆在不同岩片之上形成的岩片叠置堆垛系统的构造背景相吻合。利用Q型和R型聚类划分出源区及不同源区的重矿物组合,结合重矿物含量、形态、构造、岩屑成分及石英阴极发光特征等,认为源区母岩存在10类岩性组合。根据ZTR指数变化趋势及重矿物组合,研究区主要发育云龙凸起和海南隆起两个物源,海南隆起可划分多文—龙波及澄迈两个相对独立的物源。流三段沉积时,美台、花场及白莲地区分别接受来自多文—龙波、迈澄及云龙凸起沉积物,母岩主要为中酸性岩浆岩及变质岩,迈澄源区母岩缺乏变质岩;流二段沉积时,花东及白莲地区接受来自云龙凸起沉积物,母岩为中酸性岩浆岩及沉积岩;流一段沉积时,H7-2井区至永安一带主要由迈澄提供物源,母岩为中酸性岩浆岩、沉积岩及变质岩,H8井区受到澄迈、云龙凸起物源共同影响。 相似文献
20.
《Journal of Asian Earth Sciences》2010,39(6):233-254
The Bone Mountains, located in Southwest Sulawesi along the SE margin of Sundaland, are composed of Oligocene to possibly lower Miocene marginal basin successions (Bone Group) that are juxtaposed against continental margin assemblages of Eocene–Miocene age (Salokalupang Group). Three distinct units make up the latter: (i) Middle–Upper Eocene volcaniclastic sediments with volcanic and limestone intercalations in the upper part (Matajang Formation), reflecting a period of arc volcanism and carbonate development along the Sundaland margin; (ii) a well-bedded series of Oligocene calc-arenites (Karopa Formation), deposited in a passive margin environment following cessation of volcanic activity, and (iii) a series of Lower–Middle Miocene sedimentary rocks, in part turbiditic, which interfinger in the upper part with volcaniclastic and volcanic rocks of potassic affinity (Baco Formation), formed in an extensional regime without subduction.The Bone Group consists of MORB-like volcanics, showing weak to moderate subduction signatures (Kalamiseng Formation), and a series of interbedded hemipelagic mudstones and volcanics (Deko Formation). The Deko volcanics are in part subduction-related and in part formed from melting of a basaltic precursor in the overriding crust. We postulate that the Bone Group rocks formed in a transtensional marginal basin bordered by a transform passive margin to the west (Sundaland) and by a newly initiated westerly-dipping subduction zone on its eastern side.Around 14–13 Ma an extensional tectonic event began in SW Sulawesi, characterized by widespread block-faulting and the onset of potassic volcanism. It reached its peak about 1 Ma year later with the juxtaposition of the Bone Group against the Salokalupang Group along a major strike-slip fault (Walanae Fault Zone). The latter group was sliced up in variously-sized fragments, tilted and locally folded. Potassic volcanism continued up to the end of the Pliocene, and locally into the Quaternary. 相似文献