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101.
Reservoir quality is a critical risk factor in deep to ultradeep reservoirs at depths >4.5 km. Analysis of Paleogene Wilcox sandstones on the upper Texas Gulf Coast provides insight into the evolution of reservoir quality during shallow to ultradeep burial diagenesis. Reduction of porosity and permeability with burial in Wilcox sandstones was evaluated using subsurface samples from 200 to 6700 m, at temperatures of 25–230 °C. Diagenesis and petrophysical properties were interpreted from petrographic data and core analyses. Wilcox sandstones are mostly lithic arkoses and feldspathic litharenites having an average composition of Q59F22R19. Provenance did not change significantly during Wilcox deposition in this area, nor does average sandstone composition vary among lower, middle, and upper Wilcox sandstones. However, composition does vary with sequence-stratigraphic position; lowstand slope-fan deposits contain more rock fragments than do deposits from highstand or transgressive systems tracts. Given observations from this onshore dataset, Wilcox sandstones deposited in deepwater environments in the Gulf of Mexico are likely to contain more rock fragments than their linked highstand equivalents. 相似文献
102.
103.
层间氧化带砂岩型铀矿稀土元素变化规律初探——以伊犁和吐鲁番-哈密盆地为例 总被引:1,自引:0,他引:1
本文以发育层间氧化带砂岩型铀矿的伊犁、吐鲁番—哈密盆地为例,详细研究了成矿层间氧化带稀土元素的分布特征和稀土元素在层间氧化作用中的变化规律。通过与北美页岩、还原带原生砂岩的对比,研究了稀土元素在不同氧化分带中的变化情况,结果表明在层间氧化作用过程中,稀土元素在总体亏损的背景上发生了明显的分异,LREE从氧化带到过渡带含量逐步降低,HREE由氧化带到过渡带趋于富集;δCe由氧化带到过渡带随氧化作用的减弱降低,δEu则逐步升高,呈现与表生风化作用相同的变化规律,较好地指示了层间氧化带中氧化—还原环境的变化。虽然稀土元素存在一定的迁移变化,但没有中亚砂岩铀矿床出现的REE显著迁移,高度富集现象。 相似文献
104.
广东地区河流阶地和冲积扇沉积物中砂岩砾石风化晕随时间增厚。风化晕生长速度呈指数衰减,并拟合于下列公式:T 1485D4.13这里T=时间,以年表示,D=沉积物表部约50块砾石风化晕厚度的加权平均值,以毫米表示。利用风化晕厚度确定出广东地区河流第一和第二级阶地分别为1000—13300年和8600—26500年,肇庆盆地北部山前地带第Ⅰ和第Ⅱ级冲积扇分别为51500年和24400年。同时,在构造地貌变形分析的基础上,估算出本区三条主要北东向断裂带在晚更新世—中全新世的垂直断层作用速度为0.6—1.6毫米/年,中全新世甚或晚更新世晚期以来的活动速度极小 相似文献
105.
皖苏鲁新生代玄武岩的Sr-Nd 同位素组成及其含义 总被引:2,自引:0,他引:2
皖苏鲁新生代碱性玄武岩34个样品的Sr、Nd同位素组成,总的变化范围为ε°CHUR(Nd)=-4.5-6.9,ε°CHUR(Sr)=-20.4-33.1。分布在大洋玄武岩的Sr-Nd同位素组成范围内。其中江苏省六合一仪征、山东省蓬莱、栖霞和临朐等地区玄武岩同位素组成与PREMA型地幔端元相似,皖东嘉山-来安地区玄武岩具有EMI型地幔端元特征。前者来源于软流圈或更深部的地幔部分,后者来源于不均一的岩石圈地幔部分。来源于较流圈和岩石圈地幔的熔体互相作用决定了皖苏鲁新生代玄武岩 Sr-Nd 同位素地球化学特征。 相似文献
106.
Renjie Zhao Quanshu Yan Haitao Zhang Yili Guan Zhenmin Ge Long Yuan Shishuai Yan 《地球科学进展》1986,35(8):789-803
Subducted sediments play an important role in crust-mantle interaction and deep mantle processes, especially for subduction zone magmatism and mantle geochemistry. The current rate of Global Subducting Sediments (GLOSS) is 0.5~0.7 km3/a. The GLOSS are composed of terrigenous material(76 wt.%), calcium carbonate(7 wt.%), opal(10 wt.%) and mineral-bound H2O+(7 wt.%). The chemical compositions of GLOSS are similar to those of upper continental crust which is mainly controlled by the terrigenous materials, and yet the materials formed by marine processes will dilute the terrigenous materials. The components of subducted sediments are different among trenches. In the accretionary margin, the components of subducted sediments are similar to those of the upper crust, while in the non-accretionary margin the components are terrigenous materials plus those produced by marine processes. During subduction, subducted sediments will released fluids, melt or supercritical fluid to affect island arc/back-arc basin magmatism by means of aqueous fluid or sediment melt. In addition, a part of subducted sediments, together with underlying altered oceanic crust/lithosphere, recycle into the mantle and contribute to the mantle heterogeneity. Geochemical tracers indicate that subducted sediments play variable contributions to the magmatic processes in different tectonic setting. Thus, subducted sediments play an important role in two relatively independent dynamics systems (plate tectonics and mantle plume), as well as related mantle evolution models. As a result, by accurately calculating the compositions of subduction sediments and using various geochemical indicators, we can further limit the input and output fluxes of various elements or isotopes, and then obtain more accurately residual subducted components, which can provide us some important clues for geodynamic process. 相似文献
107.
Stressrelaxationandattenuationoffluid-saturatedsandstoneatlowfrequencyDao-YingXI(席道瑛),Ai-WenLIU(刘爱文)andWeiLIU(刘卫)(Universityo... 相似文献
108.
油田水下窄小分流砂体进入中高含水期后,由于现井网对油层的水驱控制程度低,制约了分层注水调整技术优势的发挥,影响了开发效果。提出一套适合窄小砂体油田注采系统的调整,即以单砂体研究为基础,“分砂体、分阶段”采用层次分析法和模糊综合评价方法的“全方位优化转注方案 ”,对原井网进行了加密调整、细分注水。合理的注采系统调整是控制油田产量递减、提高水驱油采收率的有利措施。 相似文献
109.
Wang Xiuxi Li Jijun Song Chunhui Zhang Jun Zhao Zhijun Gao Junping Pan Meihui 《Frontiers of Earth Science》2007,1(3):304-308
The Cenozoic sedimentation in the Tianshui basin, which is located at the junction of the liupanshan and West Qinling, northeast
margin of the Tibetan plateau, provides a record for the regional tectonism and exhumation history of the surrounding mountains.
Thermochronologic study on the detrital apatite grains from sandstones at Yaodian, near Tianshui, has revealed two rapid tectonic
uplift-exhumation events of the source area, which happened at 23.7 and 14.1 Ma, respectively. The fast exhumation (0.34 mm/a)
at 23.7 Ma, which recorded the tectonic uplift of West Qinling, led to the formation of the Neogene Tianshui basin and initiated
the reception of alluvial deposits. This event is most likely in response to the synchronous tectonism of the Tibetan plateau.
The source region experienced another rapid exhumation (1.05 mm/a) at 14.1 Ma, when the Tianshui basin began to depress broadly
and fluvial-lacustrine sediments dominated the Late Miocene.
Translated from Acta Sedimentologica Sinica, 2006, 24(6): 783–789 [译自: 沉积学报] 相似文献
110.
Nikolay V. Tsukanov Wolfgang Kramer Sergey G. Skolotnev Marina V. Luchitskaya Wolfgang Seifert 《Island Arc》2007,16(3):431-456
Abstract The geological, geochemical and mineralogical data of dismembered ophiolites of various ages and genesis occurring in accretionary piles of the Eastern Peninsulas of Kamchatka enables us to discriminate three ophiolite complexes: (i) Aptian–Cenomanian complex: a fragment of ancient oceanic crust, composed of tholeiite basalts, pelagic sediments, and gabbroic rocks, presently occurring in a single tectonic slices (Afrika complex) and in olistoplaques in Pikezh complex of the Kamchatsky Mys Peninsula and probably in the mélange of the Kronotsky Peninsula; (ii) Upper Cretaceous complex, composed of highly depleted peridotite, gabbro and plagiogranite, associated with island arc tholeiite, boninite, and high-alumina tholeiitic basalt of supra-subduction origin; and (iii) Paleocene–Early Eocene complex of intra-island arc or back-arc origin, composed of gabbros, dolerites (sheeted dykes) and basalts produced from oceanic tholeiite melts, and back-arc basin-like dolerites. Formation of the various ophiolite complexes is related to the Kronotskaya intra-oceanic volcanic arc evolution. The first ophiolite complex is a fragment of ancient Aptian–Cenomanian oceanic crust on which the Kronotskaya arc originated. Ophiolites of the supra-subduction zone affinity were formed as a result of repeated partial melting of peridotites in the mantle wedge up to the subduction zone. This is accompanied by production of tholeiite basalts and boninites in the Kamchatsky Mys segment and plagioclase-bearing tholeiites in the Kronotsky segment of the Kronotskaya paleoarc. The ophiolite complex with intra-arc and mid-oceanic ridge basalt geochemical characteristics was formed in an extension regime during the last stage of Kronotskaya volcanic arc evolution. 相似文献