辽东半岛盖州市梁屯地区古元古代大理岩的碎屑锆石U--Pb定年及地质意义

通过地层对比、锆石LA--ICP--MS U--Pb定年及岩石地球化学研究限定胶—辽—吉活动带北东段辽东半岛盖州市梁屯地区一套碳酸盐岩建造的原岩形成时代、物质来源和地层归属等。其炭质方解大理岩锆石阴极发光(CL)图像显示碎屑锆石核部大都具有振荡环带,且其Th/U比值较高(Th/U=0. 15～2. 04),表明其为岩浆来源成因。锆石U--Pb年代学定年结果显示存在两个主要的年龄峰值,主要年龄峰值为新太古代晚期(2 560～2 500 Ma),次要峰值为古元古代中晚期(2 040～2 000 Ma),其沉积时限应晚于2. 0 Ga,与古元古代辽河岩群沉积时代一致。此外,该年龄与区域上的太古代基底和大量出露的辽吉花岗岩的年龄相一致,表明炭质方解大理岩物质来源于太古代基底和辽吉花岗岩。并通过岩相学、岩石地球化学、年代学和区域对比等研究,确认梁屯地区分布的这套富含炭质的大理岩建造(原岩为沉积石灰岩)可与辽河群高家峪岩组对比,而非前人认为的大石桥岩组。     

沙漠微生物矿化覆膜及其稳定性的现场试验研究

将微生物诱导矿化技术应用于原位沙漠覆膜的形成,使得流动沙丘经结皮固定而成为半固定、固定沙丘,从根本上阻断沙尘暴的源头。在内蒙古乌兰布和沙漠腹地选择两个微生物矿化试验区域（TP1和TP3）,分别用于两种不同矿化菌种诱导生成碳酸钙覆膜。研究沙漠微生物矿化覆膜的现场试验方法及工艺,对原位矿化覆膜的强度及其在沙漠环境中的长期稳定性进行跟踪检测。采用沙漠土中自行提取的葡萄球菌和传统的巴氏芽孢杆菌两种不同的微生物矿化菌种,通过现场贯入试验检测7、14、28、60、210 d后矿化覆膜沿深度发展的贯入阻力,并将覆膜厚度为2 cm处的平均贯入阻力换算成覆膜层强度,总结覆膜强度随时间的发展变化规律。现场观测结果显示,不同微生物菌种诱导生成的矿化覆膜均在试验的第4天开始形成,到第7天覆膜层具有稳定的强度和厚度,现场检测覆膜的平均厚度为2.0～2.5 cm,经自源葡萄球菌诱导生成的矿化覆膜（TP1）的强度是巴氏芽孢杆菌诱导生成的矿化覆膜（TP3）强度的1.05倍。当经历冬春交替后覆膜层强度都有不同程度的降低,明显地TP3较TP1区域表面剥落更为严重,第210天检测TP3的平均厚度为0.7～1.0 cm,覆膜强度较第7天时降低19%,覆膜内碳酸钙含量较第7天检测时降低15%～30%。而TP1在第210天时的强度较第7天时强度降低仅2%。因此,微生物诱导矿化技术可以应用于沙漠原位覆膜的形成,且沙漠自源葡萄球菌经诱导生成的矿化覆膜层具有更好的强度表现和稳定性。     

地层水条件下碳酸盐矿物热力学平衡条件及其在克拉2气田的应用

基于热力学平衡理论及库车盆地的实际,建立了该区地层水温度、压力条件下方解石溶解、白云石对方解石交代作用的热力学平衡条件,并根据地层水介质特征探讨了该区方解石溶解、白云石交代方解石的具体成岩反应状况,认为该区地层水条件下正进行着方解石溶蚀及白云石对方解石的交代作用,方解石的溶蚀是形成该区深层次生孔隙的根本因素。      

软岩井巷喷射混凝土抗渗机制及模拟试验研究

针对豫西滑动构造区软岩巷道在喷射混凝土支护条件下的抗渗性能问题,从立方定律基本理论着手,结合地下水层流渗透特点,按照不同的施工条件进行了黏结面渗透性能的模拟试验,并导出了相应的计算公式。通过试验结果的对比和分析,可以清晰了解到岩性、粗糙度、界面剂和大型刻槽等各种影响因素之间相互作用的过程和机理。即：（1）黏结面作为结构上的薄弱面,其渗透性要远远大于岩体和混凝土本体的渗透性,而粗颗粒软岩黏结面的渗透性也要远远大于相应的细颗粒软岩;（2）限制岩体结构面的粗糙度、使用各种界面剂以及布置适当的人工刻槽均能提高黏结面的抗渗性能;（3）岩体结构的荷载条件是黏结面渗透性能的一个重要影响因素。     

Oxygen and Carbon Isotope Study of Calcite and Dolomite in the Disseminated Au-Ag Telluride Bulawan Deposit, Negros Island, Philippines

Abstract: The disseminated Au‐Ag telluride Bulawan deposit, Negros island, Philippines, is hosted by dacite porphyry breccia pipes which formed in a Middle Miocene dacite porphyry stock. Electrum and Au‐Ag tellurides occur mostly as grains intergrown with or filling voids between sphalerite, pyrite, chalcopyrite, galena and tennantite. Calcite, quartz and rare dolomite are the principal gangue minerals. Four types of alteration were recognized in the deposit, namely; propylitic, K‐feldspar‐sericitic, sericitic and carbonate alteration. Carbonate alteration is correlatable to the gold deposition stage and occurs mostly along fault zones. The δ¹⁸O and δ¹³C compositions of calcite and dolomite in propylite zone and ore‐stage dacite porphyry breccia were determined. The δ¹⁸O values of calcite in propylitized andesite range from +12.2 to +14.7%, and their δ¹³C values range from ‐6.1 to ‐1.0%. The δ¹⁸O values of calcite and dolomite in sericite‐ and carbonate‐altered, mineralized dacite porphyry breccia and dacite porphyry rocks range from +15.1 to +23.1%, and the δ¹³C values of calcite and dolomite range from ‐3.9 to +0.9%. The δ¹⁸O and δ¹³C values of the hydrothermal fluids were estimated from inferred temperatures of formation on the basis of fluid inclusion microthermometry. The δ¹⁸O values of hydrothermal fluid for the propylitic alteration were calculated to be +8.5 ‐ +9.5%, assuming 375°C. On the other hand, the δ¹⁸O values of ore solutions for base metal and Au mineralization were computed to be +13.6 ‐ +14.6%, assuming 270°C. The hydrothermal fluids that formed the Bulawan deposit are dilute and ¹⁸O‐enriched fluids which reacted with ¹⁸O‐ and ¹³C‐rich wallrocks such as limestone.     

Biogenic processes in crystalline bedrock fractures indicated by carbon isotope signatures of secondary calcite

Variation in ¹³C/¹²C-isotope ratios of fracture filling calcite was analyzed in situ to investigate carbon sources and cycling in fractured bedrock. The study was conducted by separating sections of fracture fillings, and analyzing the ¹³C/¹²C-ratios with secondary ion mass spectrometry (SIMS). Specifically, the study was aimed at fillings where previously published sulfur isotope data indicated the occurrence of bacterial sulfate reduction. The results showed that the δ¹³C values of calcite were highly variable, ranging from −53.8‰ to +31.6‰ (VPDB). The analysis also showed high variations within single fillings of up to 39‰. The analyzed calcite fillings were mostly associated with two calcite groups, of which Group 3 represents possible Paleozoic fluid circulation, based on comparison with similar dated coatings within the Baltic Shield and the succeeding Group 1–2 fillings represent late-stage, low temperature mineralization and are possibly late Paleozoic to Quaternary in age. Both generations were associated with pyrite with δ³⁴S values indicative of bacterial sulfate reduction. The δ¹³C values of calcite, however, were indicative of geochemical environments which were distinct for these generations. The δ¹³C values of Group 3 calcite varied from −22.1‰ to +11‰, with a distinct peak at −16‰ to −12‰. Furthermore, there were no observable depth dependent trends in the δ¹³C values of Group 3 calcite. The δ¹³C values of Group 3 calcite were indicative of organic matter degradation and methanogenesis. In contrast to the Group 3 fillings, the δ¹³C values of Group 1–2 calcite were highly variable, ranging from −53.8‰ to +31.6‰ and they showed systematic variation with depth. The near surface environment of <30 m (bsl) was characterized by δ¹³C values indicative of degradation of surface derived organic matter, with δ¹³C values ranging from −30.3‰ to −5.5‰. The intermediate depth of 34–54 m showed evidence of localized methanotrophic activity seen as anomalously ¹³C depleted calcite, having δ¹³C values as low as −53.8‰. At depths of ∼60–400 m, positive δ¹³C values of up to +31.6‰ in late-stage calcite of Group 1–2 indicated methanogenesis. In comparison, high CH₄ concentrations in present day groundwaters are found at depths of >300 m. One sample at a depth of 111 m showed a transition from methanogenetic conditions (calcite bearing methanogenetic signature) to sulfate reducing (precipitation of pyrite on calcite surface), however, the timing of this transition is so far unclear. The results from this study gives indications of the complex nature of sulfur and carbon cycling in fractured crystalline environments and highlights the usefulness of in situ stable isotope analysis.     

赣南6722铀矿床方解石Sm-Nd等时线年龄及其地质意义

6722热液型铀矿床位于东西向南岭构造和北东向武夷隆起交汇部位的禾草坑铀矿田内。本文利用采集于该矿床花岗岩型矿石中的8件方解石进行Sm-Nd年龄测定,确定了成矿年龄为113.4±6.9 Ma。这期发生在花岗岩中的铀矿化早于隐爆角砾岩中的矿化。我们推测前期花岗岩中的矿化为后期隐爆角砾岩中富矿体的形成提供了预富集。白垩纪时6722矿床所在会昌地区处于岩石圈伸展的地段,伸展作用为铀成矿创造有力条件,岩石圈伸展与铀成矿之间具有良好的对应关系。     

Diagenesis impact on a deeply buried sandstone reservoir (Es1 Member) of the Shahejie Formation,Nanpu Sag,Bohai Bay Basin,East China

Diagenesis has a significant impact on reservoir quality in deeply buried formations. Sandstone units of the Shahejie Formation (Es₁ Member) of Nanpu Sag, Bohai Bay Basin, East China is a typical deeply buried sandstone with large hydrocarbon accumulations. The methodology includes core observations and thin section studies, using fluorescence, scanning electron microscope (SEM), cathodoluminescence (CL), fluid inclusion and isotope and electron probing analysis as well as the numerical determination of reservoir characteristics. The sandstones consist of medium to coarse-grained, slight to moderate sorted lithic arkose and feldspathic litharenite. Porosity and permeability values range from 0.5 to 30% and 0.006 to 7000 mD, respectively. The diagenetic history reveals mixed episodes of diagenesis and deep burial followed by uplift. The main diagenetic events include compaction, cementation alteration, dissolution of unstable minerals and grain fracturing. Compaction resulted in densification and significantly reduced the primary porosity. Quartz, calcite and clay are the dominant pore-occluding cement and occur as euhedral to subhedral crystals. Alteration and dissolution of volcanic lithic fragments and pressure solution of feldspar grains were the key sources of quartz cement whereas carbonate cement is derived from an external source. Clay minerals resulted from the alteration of feldspar and volcanic lithic fragments. Porosity and permeability data predict a good inverse relationship with cementation whereas leaching of metastable grains, dissolution of cement and in some places formation of pore-lining chlorite enhanced the reservoir quality. The best reservoir is thicker sandstone bodies that are medium to coarse-grained, well-sorted sandstone with low primary ductile grains with a minor amount of calcite cement. The present study shows several diagenetic stages in the Es₁ Member, but the overall reservoir quality is preserved.     

海洋产脲酶细菌的筛选及诱导形成碳酸钙矿物的特征

产脲酶细菌普遍存在于自然界,其对碳酸钙的矿化作用被广泛用于工程地质和环境等各项工程领域;本研究旨在从北戴河新河河口海洋沉积物中分离产脲酶细菌,探讨其诱导形成碳酸钙的特征,为地质与工程领域的应用提供良好的材料.从海洋沉积物样品中共分离出33株细菌,经筛选,其中有10株细菌具有产脲酶活性,16S rRNA基因序列分析表明:...     

重质碳酸钙干法超细与改性一体化工艺研究

在气流粉碎机中对重质碳酸钙进行干法超细与改性一体化工艺研究，通过控制改性剂种类，改性剂用量，给料粒度，给料速度，产品活化率达97％，吸油率16．20％，20天吸水率7．01％，白度91．5，粒度（d50)8.0um，碳酸钙的吸水和吸油率的均降低，对超细与改性一体化机理进行了讨论。