Influences of burial process on diagenesis and high-quality reservoir development of deep-ultra-deep clastic rocks:A case study of Lower Cretaceous Qingshuihe Formation in southern margin of Junggar Basin,NW China

Taking the Lower Cretaceous Qingshuihe Formation in the southern margin of Junggar Basin as an example,the influences of the burial process in a foreland basin on the diagenesis and the development of high-quality reservoirs of deep and ultra-deep clastic rocks were investigated using thin section,scanning electron microscope,electron probe,stable isotopic composition and fluid inclusion data.The Qingshuihe Formation went through four burial stages of slow shallow burial,tectonic uplift,progressive deep burial and rapid deep burial successively.The stages of slow shallow burial and tectonic uplift not only can alleviate the mechanical compaction of grains,but also can maintain an open diagenetic system in the reservoirs for a long time,which promotes the dissolution of soluble components by meteoric freshwater and inhibits the precipitation of dissolution products in the reservoirs.The late rapid deep burial process contributed to the development of fluid overpressure,which effectively inhibits the destruction of primary pores by compaction and cementation.The fluid overpressure promotes the development of microfractures in the reservoir,which enhances the dissolution effect of organic acids.Based on the quantitative reconstruction of porosity evolution history,it is found that the long-term slow shallow burial and tectonic uplift processes make the greatest contribution to the development of deep-ultra-deep high-quality clastic rock reservoirs,followed by the late rapid deep burial process,and the progressive deep burial process has little contribution.

Autochthonous Dolomitization and Dissolution in the Microbial Carbonate Rocks of the Fengjiawan Formation in the Ordos Basin

Many euhedral dolomite crystals and related pores are found in the microbial siliceous stromatolite dolomite and siliceous oolitic dolomite in the Fengjiawan Formation of the Mesoproterozoic Jixian System in the southern Ordos Basin.With the application of the microscope,scanning electron microscope,cathodoluminescence and in-situ trace element imaging,it can be seen that different from the phase I dolomite that was damaged by silicification,the intact euhedral phase II dolomite occurred through dolomitization after silicification,concentrated mainly in the organic-rich dark laminae of the stromatolite and the dark spheres and cores of the ooids.A considerable number of phase II dolomite crystals were dissolved,giving rise to mold pores and vugs which constituted the matrix pores and also the major pore space of the Fengjiawan Formation.The formation and dissolution of the dolomite were controlled by the microenvironment favorable,respectively,for carbonate precipitation and dissolution under the influence of microbial biological activities and related biochemical reactions.The driving force and material supply of dolomitization and dissolution were confined to the fabrics enriched with microorganisms,which are highly autochthonous.This mechanism may be a key factor for the development of Precambrian dolomite and related reservoirs,in the context of the domination of microbial rocks.

Geochemical characteristics and sedimentary environment significance of carbonate rocks in Nanfen Formation of Qingbaikou System in Tonghua,Jilin Province

In order to reveal the sedimentary environment of carbonate rocks in Nanfen Formation of Qingbaikou System in Tonghua,Jilin Province,the mineral composition and petrochemistry of carbonate rocks in Nanfen Formation were analyzed.The mineral compositions of five carbonate rock samples in Nanfen Formation mainly consist of calcite,with minor clay minerals and quartz,and the rock type is siliceous marlite.The Mn/Sr va-lues range from 1.52 to 4.08,with an average of 2.64,indicating that the carbonate rocks experienced weak diagenesis;the Sr/Ba values range from 1.26 to 2.51,with an average of 1.93,indicating marine environment;the ratio of Mg/Al ranges from 35.33 to 86.34,with an average of 62.95,indicating the seawater environment,which is consistent with the result from Sr/Ba;the MgO/CaO values range from 0.01 to 0.04,with an average of 0.02,indicating humid environment;the values of V/(V+Ni)range from 0.63 to 0.73,with an average of 0.70,indicating anoxic environment.In summary,geochemical analyses show that the Nanfen Formation carbonate rocks are marine deposits,in a warm,humid,anoxic environment with poor flow of seawater,and subsequently underwent weak diagenetic alteration.

Petrophysical properties and their influencing factors of carbonates in the fourth member of Sinian Dengying Formation, Sichuan Basin, SW China

Based on the measurements of petrological, petrophysical and elastic properties of the samples of different sedimentary facies in the fourth member of Sinian Dengying Formation (Deng 4 Member) in the Sichuan Basin, the diagenetic processes of reservoirs of different sedimentary facies and their controls on the petrophysical properties were discussed. The results show that cracks and mineral composition jointly control the petrophysical properties, and both are significantly influenced by sedimentary environment and diagenesis. The microbial dolomite of mound-shoal facies mainly experienced multi-stage dolomitization, penecontemporaneous dissolution, tectonic rupture and hydrothermal/organic acid dissolution processes, giving rise to cracks and dissolved pores. The grannular dolomite of inter-mound-shoal bottomland or dolomitic lagoon facies mainly underwent mechanical compaction, burial dolomitization and tectonic-hydrothermal action, creating cracks and intercrystalline pores. The diagenesis related to crack development increases the pressure- and saturation-dependent effects of samples, leading to significant decrease in the compressional wave impedance and Poisson's ratio. Dolomitization changes the properties of mineral particles, resulting in a Poisson's ratio close to dolomite. The muddy, siliceous and calcareous sediments in the low-energy environment lead to the decrease of impedance and the differential change of Poisson's ratio (significantly increased or decreased). The samples with both cracks and dissolved pores show high P-wave velocity dispersion characteristics, and the P-wave velocity dispersion of samples with only fractures or pores is the lowest.

Sedimentary Facies and Distribution of Reservoir Rocks from the Feixianguan Formation in the Daxian-Xuanhan Region, NE Sichuan

The Lower Triassic Feixianguan Formation in the Daxian-Xuanhan region, northeastern Sicbuan is interpreted to be a carbonate platform intermediate between the West Hubei-East Cbongqing marine basin and Guangyuan-Wangcang marine basin. Outcrops, well logs and seismic data have disclosed that three sedimentary facies can be identified for the formation： open platform, platform exposed shoal and restricted platform facies. During the early stage of deposition of the Feixianguan Formation, there existed a sedimentary framework all the same as the Late Permian one： open platform in the west, and platform exposed shoal, restricted platform and open platform eastwards. The gradual increase of the shoal area permitted eastward migration of the shoal facies. During the deposition of the third member of the Feixianguan Formation, the study area was invaded by temporary transgressions. Till the deposition of the fourth member of the formation, the study area was prevailed over the unified restricted platform deposits, as indicated by the sedimentary model for the typical carbonate platform shoal deposits. The reservoir rocks in the Feixianguan Formation consist mostly of solution opening dolostone, and the rock types are assembled by oolitic dolostone, residual oolitic dolostone and sucrosic residual oolitic medium- to coarse-grained dolostone. The deep and shallow dual laterologs show relatively high resistivity, clear amplitude differences and time difference saltation of acoustic waves in some intervals. The seismic responses are indicated by low-frequency and highly variable amplitudes and chaotic reflection configurations. The reservoir rocks are characterized by high porosity-high permeability and medium porosity-medium permeability, showing a marked correlation between porosity and permeability. Solution openings are extremely developed in the reservoir rocks, including cast pores, intergranular solution openings, intercrystal pores, intercrystal solution openings, solution openings （caves） and minute fissures. Macropores and coarse pore throats are common. The reservoir rocks are apparently controlled by sedimentary facies in distribution patterns. Vertically, they occur dominantly in the second and first members of the Feixianguan Formation, and laterally in the platform exposed shoals and restricted platforms, where good natural gas potential is expected.

Mixed carbonate rocks lithofacies features and reservoirs controlling mechanisms in a saline lacustrine basin in Yingxi area,Qaidam Basin,NW China

Taking the mixed pre-salt carbonate rocks in the upper member of Eocene Xiaganchaigou Formation(E_(3)^(2))of Yingxi area in the Qaidam Basin as an example,the lithofacies and controlling mechanisms of reservoir formation are analyzed based on a large dataset of cores,thin sections and geochemical analysis.The reservoirs in E_(3)^(2)pre-salt layers have five types of lithofacies,of them,mixed granular calcareous dolostone,massive calcareous dolostone,plaque calcareous dolostone,and laminated dolomtic limestone are of sedimentary origin,and breccia calcareous dolostone is of tectonic origin.The four types of sedimentary lithofacies are divided into two types of saline sedimentary sequence lithofacies combinations,low-energy type in the sag area and low to high-energy type in the slope and paleo-uplift zone in the depression.Affected by high-frequency supply of continental clastic material,the two types of salty sedimentary sequences are mostly incomplete subtypes of lithofacies.Lithofacies have strong impacts on pre-salt reservoirs in E_(3)^(2):(1)Lithofacies type and sedimentary sequence controlled the formation and distribution of dolomite intercrystalline pores and dissolved pores during the pene-sedimentary period.(2)The structure of laminated dolomitic limestone controlled the formation of large-scale laminated fractures and high permeability channels during the diagenetic period.(3)Granular,massive,plaque calcareous dolostones have low mud content and strong brittleness,in the late tectonic reactivation period,the distribution of the three types of lithofacies,together with their distance from the top large slip faults and secondary faults,controlled the formation and distribution of high-efficiency fracture-cave brecciaed calcareous dolostone reservoirs.The above research led to the composite lithofacies-tectonic formation model of pre-salt reservoir in E_(3)^(2)of Yingxi area.The tempo-spatial distribution of tectonic breccia calcareous dolostone reservoirs,laminated dolomitic limestone shale oil reservoirs and granular,massive calcareous dolostone dissolved-intercrystalline pore tight reservoirs in various structural belts of the studied area have been figured out.These findings gave new insights into tight-shale oil accumulation theory in mixed carbonate successions from saline lacustrine basins,aiding in high efficient exploration and development of petroleum in the studied area.

Control of paleogeographic pattern on sedimentary differentiation of evaporite-carbonate symbiotic system:A case study of the sixth sub-member of Ordovician Majiagou Formation M5 Member in central-eastern Ordos Basin,NW China

The relationship between paleogeographic pattern and sedimentary differentiation of evaporite-carbonate symbiotic system is examined based on logging,core and thin section data,by taking the sixth sub-member of fifth member of Ordovician Majiagou Formation(M56)in the central-eastern Ordos Basin as an example.(1)Seven sub-geomorphic units(Taolimiao west low,Taolimiao underwater high,Taolimiao east low,Hengshan high,East salt low,North slope and Southwest slope)developed in the study area.(2)The“three lows”from west to east developed dolomitic restricted lagoon,evaporite evaporative lagoon and salt evaporative lagoon sedimentary facies respectively,the"two highs"developed high-energy grain beach and microbial mound,and the north and south slopes developed dolomitic flats around land.(3)The paleogeographic pattern caused natural differentiation of replenishment seawater from the northwest Qilian sea,leading to the eccentric sedimentary differentiation of dolomite,evaporite and salt rock symbiotic system from west to east,which is different from the classic“bull's eye”and“tear drop”distribution patterns.(4)As the Middle Qilian block subducted and collided into the North China Plate,the far-end compression stress transferred,giving rise to the alternate highland and lowland in near north to south direction during the sedimentary period of M56 sub-member.(5)Taolimiao underwater high and Hengshan high developed favorable zones of microbial mounds and grain shoals in south to north strike in M56 sub-member,making them favorable exploration areas with great exploration potential in the future.

Grading evaluation and prediction of fracture-cavity reservoirs in Cambrian Longwangmiao Formation of Moxi area,Sichuan Basin,SW China

By using core, thin section, well logging, seismic, well testing and other data, the reservoir grading evaluation parameters were selected, the classification criterion considering multiple factors for carbonate reservoirs in this area were established, and the main factors affecting the development of high quality reservoir were determined. By employing Formation MicroScanner Image(FMI) logging fracture-cavity recognition technology and reservoir seismic waveform classification technology, the spatial distribution of reservoirs of all grades were predicted. On the basis of identifying four types of reservoir space developed in the study area by mercury injection experiment, a classification criterion was established using four reservoir grading evaluation parameters, median throat radius, effective porosity and effective permeability of fracture-cavity development zone, relationship between fracture and dissolution pore development and assemblage, and the reservoirs in the study area were classified into grade I high quality reservoir of fracture and cavity type, grade II average reservoir of fracture and porosity type, grade Ⅲ poor reservoir of intergranular pore type. Based on the three main factors controlling the development of high quality reservoir, structural location, sedimentary facies and epigenesis, the distribution of the 3 grades reservoirs in each well area and formation were predicted using geophysical response and percolation characteristics. Follow-up drilling has confirmed that the classification evaluation standard and prediction methods established are effective.

深层—超深层海相碳酸盐岩地震勘探技术发展与攻关方向

随着塔里木盆地顺北油气区、轮南地区轮探1井在8200 m深度以下获得工业油气流,碳酸盐岩勘探迅速向深层-超深层领域迈进,向地震勘探技术提出了严峻挑战。主要分析了超深层复杂波场地震成像理论研究进展及面临的问题。在超深层储层预测关键技术方面,分析了由地震数据结构表征识别小断裂、基于数字岩心的孔隙结构定量化预测方法等现状;从勘探地质需求的角度,提出深层—超深层碳酸盐岩储层与流体预测技术发展趋势和重点攻关方向,以期为海相碳酸盐岩地震勘探的理论及技术研究提供借鉴。获得以下认识:①针对超深层低信噪比地震数据,Q叠前深度偏移和TTI介质RTM技术在碳酸盐岩储层成像中取得了一定效果,基于波动理论的层间多次波压制、各向异性Q⁃RTM、最小二乘Q⁃RTM及各向异性全方位角度域成像技术是重点攻关方向。②深层—超深层强非均质性碳酸盐岩储层地震预测技术存在欠缺理论依据、预测精度较低等问题,亟待加强理论方法探索和技术攻关。③地震岩石物理实验与储层地质的深度融合以及基于双相介质波动特征(频率、频散与衰减等)的储层敏感属性精细化地震预测技术、人工智能碳酸盐岩储层定量预测及流体检测技术等均是重要发展方向,“可靠的深层地震资料、多学科联合的储层高精度表征和深度学习人工智能”发展趋势十分明显。

鄂尔多斯盆地富县地区马家沟组热液改造特征与研究意义

构造—热事件对油气生成、储集层演化和成藏有重要的控制作用,但是鄂尔多斯盆地构造—热事件对碳酸盐岩的影响研究较少。以富县地区奥陶系马家沟组储集层为例,通过岩心及薄片观察,利用阴极发光、包裹体测温、碳氧稳定同位素、锶同位素、电子探针微区元素分析、稀土元素分析,岩石学与地球化学研究充分结合,识别出区内存在2期与燕山期热事件相关的胶结作用:第Ⅰ期以缝洞内鞍形白云石发育为特征,其δ^(13)C值和δ^(18)O值均较偏负,锶同位素值较正常海相灰岩高,稀土元素Eu和La负异常,元素分析显示FeO含量异常高、MnO含量较高、SrO含量较高、K_(2)O及Na_(2)O含量低,胶结物包裹体均一温度高;第Ⅱ期以缝孔洞内石英充填及交代和切割鞍形白云石的裂缝方解石发育为特征,其δ^(13)C值与奥陶系碳酸盐岩背景值接近、δ^(18)O值总体偏低,锶同位素值更高,稀土元素展现出特别的La负异常和Eu正异常,元素分析MnO及FeO含量较高,部分K_(2)O及Na_(2)O含量较高,石英包裹体均一温度高。第Ⅰ期流体为早白垩世拉张断裂作用下上覆石炭—二叠系地层有机流体、奥陶系地层内部流体、少量深部流体三者联合作用形成;第Ⅱ期流体为早白垩世拉张断裂作用下深部流体与少量奥陶系地层内部流体两者联合作用形成,深部流体穿越了下伏马家沟组内蒸发盐岩地层。早白垩世热事件对奥陶系碳酸盐岩储集层的影响具有双向性:第Ⅰ期热流体活动多为建设性,与大规模油气生成的时间一致,裂缝和溶蚀孔洞可构成油气有效输导和储集空间;第Ⅱ期热流体活动以孔隙和裂缝充填为主,多为破坏性,但规模较小。

滇西昌宁-孟连带二叠纪碎屑岩地层:存在问题和研究进展

滇西的昌宁-孟连带被认为是古特提斯在该地区的遗迹,对研究古特提斯的演化意义重大。然而,该带中不同来源的地层单元或层序片段之间的关系非常复杂,既有时代相同而岩性迥异的层段,也有时代不同而岩性相近的层段,在很大程度上影响了人们对古特提斯演化的深入了解。一些早期建立的岩组,受露头较差、构造复杂、大化石稀少等具体条件的限制,对其所含内容的定义比较粗略,包含了不同时代、不同环境形成的岩石层段。这种情况尤以当初划归二叠系的碎屑岩地层为甚。本文对1980年代1∶20万地质填图时建立的涉及二叠纪碎屑岩地层的岩组,即中北部耿马—沧源一带的南皮河组和南部澜沧—孟连一带的拉巴组,进行了解析,并结合笔者近年来所获得的化石、沉积岩石学、碎屑锆石年龄等材料和数据、以及大量的野外观察,梳理了两个岩组所包括的不同时代和岩性的岩片,重新厘定了南皮河组的内含,论述了拉巴组为何不宜再作为一个岩组使用,并建议对拉巴组所包含的在区域上可识别的岩片,可在进一步深入研究后再予以慎重命名。

鄂西地区灯影组石板滩段致密灰岩油气地质评价

灯影组中部以含泥灰岩为主,在四川盆地被作为较差烃源岩对待,在油气系统中起到“隔层”作用。中扬子地区灯影组中部石板滩段为沥青灰岩,发育保存完好的微量化石和残余微生物席,长期以来其油气地质含义被忽略。近年首次在宜昌地区的灯影组石板滩段致密灰岩中获得了天然气流,表明该层具有油气勘探前景。

鄂尔多斯盆地中东部太原组碳酸盐岩烃源岩岩相类型及地球化学特征

随着鄂尔多斯盆地中东部上古生界下二叠统太原组斜道段灰岩和毛儿沟灰岩中高产气藏的发现,太原组煤系烃源岩以外的碳酸盐岩生烃潜力评价显得尤为重要。以鄂尔多斯盆地中东部地区太原组灰岩为研究对象,通过岩心观察、测井资料及地化实验数据的综合应用,分析海陆混合沉积潮坪环境中灰岩有机地化特征,并对有利于烃源岩发育的岩相类型进行划分。结果表明:①总体看来,太原组灰岩较之泥页岩有机质丰度偏低,斜道段灰岩有机质丰度最高,毛儿沟段次之;有机质类型主要以Ⅰ型为主,部分样品出现Ⅱ型干酪根特征;有机质普遍处于高成熟度演化阶段,热解峰温(T max)平均可达483℃,镜质体反射率(R o)普遍高于1.2%。②基于地球化学参数及岩石学特征的差异,将太原组灰岩共分为4类岩相类型:Ⅰ-Ⅱ型干酪根高有机质纹层状泥质泥晶灰岩相、Ⅰ-Ⅱ型干酪根中-高有机质块状泥晶灰岩相、Ⅰ-Ⅱ型干酪根中有机质块状生屑泥晶灰岩相以及Ⅰ型干酪根低有机质块状藻凝块灰岩相。③研究区中部以Ⅰ-Ⅱ型干酪根中-高有机质块状泥晶灰岩为主,烃源岩厚度不大;西部以Ⅰ-Ⅱ型干酪根中有机质块状生屑泥晶灰岩岩相为主,有效烃源岩厚度较大;东部灰岩沉积分布广且厚度大,虽以Ⅰ型干酪根低有机质块状藻凝块灰岩为主,但岩相多变,有效烃源岩厚度不小。

牛庄洼陷沙四上—沙三下亚段细粒沉积岩成分与纹层结构的关系

湖相细粒沉积岩的纹层发育,但纹层的厚度、密度、连续度等结构特征变化很大,这些变化与细粒沉积岩的沉积环境密切相关。利用图像分析的手段,对牛庄洼陷沙四上—沙三下亚段细粒沉积岩纹层的厚度、密度、侧向连续性进行定量表征,并与细粒沉积岩的各种物质成分对比研究。结果表明:牛庄洼陷沙四上—沙三下亚段细粒沉积岩的纹层厚度、密度、侧向连续性与长英质、黏土、碳酸盐等矿物质量分数基本没有相关性,纹层密度与有机碳含量具有一定的正相关性,长英质矿物与黏土矿物质量分数具有明显的正相关性;牛庄洼陷沙四上—沙三下亚段细粒沉积岩的沉积速率越低,越有利于有机碳含量的提高;长英质矿物与黏土矿物主要是洪水以表层流、层间流的形式一起搬运到深湖环境沉积下来的;湖泊表层碳酸盐矿物的产生与沉淀,与水体深度、沉积速率没有关系,也不存在湖相碳酸盐补偿界面(CCD)。

Early diagenetic growth of carbonate concretions in the upper Doushantuo Formation in South China and their significance for the assessment of hydrocarbon source rock

Mineralogical and textural characteristics and organic carbon composition of the carbonate concretions from the upper Doushantuo Formation (ca. 551 Ma) in the eastern Yangtze Gorge area reveal their early diagenetic (shallow) growth in organic-rich shale. High organic carbon content (up to 10%) and abundance of framboidal pyrites in the hosting shale suggest an anoxic or euxinic depositional environment. Well-preserved cardhouse clay fabrics in the concretions suggest their formation at 0-3 m burial depth, likely associated with microbial decomposition of organic matter and anaerobic oxidation of methane. Gases through decomposition of organic matter and/or from methanogenesis created bubbles and cavities, and anaerobic methane oxidation at the sulfate reduction zone resulted in carbonate precipitation, filling in bubbles and cavities to form spherical structures of the concretions. Rock pyrolysis analyses show that the carbonate concretions have lower total organic carbon (TOC) content but higher effective carbon than those in the host rocks. This may be caused by enclosed organic matter in pores of the concretions so that organic matter was protected from further modification during deep burial and maintained high hydrocarbon generating potential even in over-matured source rock. As a microbialite sensu latu, concretions have special growth conditions and may provide important information on the microbial activities in depositional and early burial environments.

Formation and influencing factors of carbonate source rock of the Lower Permian Chihsia Formation in Chaohu region, Anhui Province

Highly-mature carbonate source rock is essential to the exploration of oil and gas in southern China. In this study, the carbonate strata in the relatively well-developed Lower Permian Chihsia Formation (located in Chaohu, Lower Yangtze) were targeted, and the formation and influencing factors of source rock were discussed based on paleoenvironment reconstruction using comprehensive sedimentology, palynofacies, and organic geochemistry data. The results demonstrate that the Chihsia Formation is oxygen-deficient biogenic carbonate sediments, with marked variations in the organic and inorganic components, formed during a period of Permian transgression. The formation of source rock is the combined result of high bioproductivity and oxygen-deficient environment generated by transgression and oxygenation events which frequently occurred during transgression periods. Source rock was affected by self-dilution effects and diagenesis, causing its heterogeneous distribution in many intervals. Source rock is over 40 m thick, and can be identified based on its different organic, biological, and mineral composition characteristics. The carbonate rock appears to require no specific clay content in order to become a source rock. The combination of sedimentology, palynofacies, and organic geochemistry has provided an effective means for evaluating and predicting high-maturity carbonate source rock in the region.

多阶段成岩作用对深层碳酸盐岩岩石物理性质的影响——以四川盆地震旦系灯影组四段为例

国内深层-超深层碳酸盐岩储层普遍经历多阶段、多期次的成岩作用改造,非均质性极强,致使脱离地质背景的岩石物理分析方法难以准确地给出岩石物理变化规律与储层特征之间的联系.本文通过对合川地区震旦系灯影组四段深层白云岩岩石物理性质的测量,并结合岩石学特征分析、多尺度孔隙结构分析及沉积环境的划分,在成岩作用过程框架下分析岩石物理特征的变化规律.研究结果表明,目标层段白云岩差异性成岩过程形成了不同的岩石孔隙结构特征与微观结构特征.丘滩相高能微生物白云岩分别经历同生期微生物白云岩化与渗透回流白云岩化作用、准同生期选择性溶蚀作用、埋深白云岩化作用以及构造-热液白云岩化,形成的晶粒白云岩主要为致密"焊接"型和紧密型白云石晶体接触边界,溶蚀孔隙发育,微裂隙与孔喉共同作为流体渗流通道.滩间海低能硅质、泥质与灰质云岩主要经历弱毛细管浓缩白云岩化作用、强机械压实致密化与埋深白云岩化作用,形成的晶粒白云岩存在致密"焊接"型、黏土型、石英胶结型与方解石型晶体接触边界,孔隙以残余原生粒间或晶间孔为主,以微裂隙作为主要的流体渗流通道.晶粒边界性质与孔隙结构共同控制了样品的宏观物性及地震弹性性质,相同晶粒边界的样品具有一致的纵波-横波速度和纵波速度-速度比变化关系.微裂隙等软孔隙对纵、横波速度影响程度的差异造成有效压力-速度、纵波-横波速度、纵波速度-速度比、孔隙度-速度关系以及孔隙尺度流体相关频散作用的强弱发生明显变化.研究结果可为深层碳酸盐岩的储层特征地震预测提供岩石物理依据,并可作为示例形成在地质过程中研究岩石物理特征演化的新方法.

两种母岩发育森林土壤微生物生物量碳代谢的差异性

针对不同母岩发育土壤的微生物生物量碳代谢特征及驱动因子不明确的科学问题,以石灰岩和碎屑岩两种母岩发育的森林土壤为研究对象,利用18O-H2O标记测定微生物生长速率、微生物呼吸速率、微生物生物量碳利用效率(CUE)以及微生物周转时间,并结合土壤理化性质、土壤有机质矿物保护特性和土壤酶活性以及微生物生物量和群落组成,明确岩性对森林土壤微生物生物量碳代谢的影响机制。结果表明:石灰岩发育土壤的pH和0.05mm~0.002 mm粒径含量高于碎屑岩发育土壤,而有机碳(SOC)、全氮(TN)、可溶性碳(DOC)、C︰P和N︰P却低于碎屑岩发育土壤(P<0.05);石灰岩发育土壤交换性钙镁(Ca+Mg)和游离态铁铝((Fe+Al)d)含量高于碎屑岩发育土壤,但非晶态铁铝((Fe+Al)o)含量则低于碎屑岩发育土壤;石灰岩发育土壤碳氮磷循环、相关酶活性均显著低于碎屑岩发育土壤(P<0.05);石灰岩发育土壤微生物生物量磷(MBP)高于碎屑岩发育土壤,但微生物生物量碳(MBC)、真菌细菌比(F︰B)和革兰氏阳性菌阴性菌比(G+︰G-)则显著低于碎屑岩发育土壤(P<0.05);石灰岩发育土壤微生物生长速率和周转速率显著高于碎屑岩发育土壤(P<0.05),但微生物呼吸速率和CUE在两种土壤之间差异并不显著。土壤微生物生长速率和微生物周转速率均与土壤pH、(Ca+Mg)︰(Fe+Al)o、(Ca+Mg)︰SOC、(Fe+Al)d︰SOC和革兰氏阴性细菌呈显著正相关(P<0.05),而与DOC、铁铝结合态有机碳、酶活性、MBC︰MBN、F︰B和G+︰G-比呈显著负相关(P<0.05)。此外,土壤CUE与MBC和MBC︰MBN呈显著负相关(P<0.05);微生物呼吸速率仅与酚氧化酶活性呈显著负相关(P<0.05)。两种岩石发育的森林土壤微生物生物量碳代谢受生物和非生物因素的控制,这一研究结果为解释不同母岩发育森林土壤有机碳库的差异提供参考。

准噶尔盆地沙湾凹陷三叠系超深层碎屑岩储层特征及主控因素——以征10井区克拉玛依组为例

超深层碎屑岩储层由于埋藏深度大,储层物性一般较差,单井油气产能低,但中国石化探区沙湾凹陷近期钻探的征10井却在埋深6700m的三叠系克拉玛依组钻遇了优质厚层储层,常规测试即获得高产工业油气流。为了揭示该套储层的特征及有利储层主控因素,明确该地区超深层碎屑岩勘探方向,降低该区下步油气勘探的风险,通过岩心、测井、铸体薄片、物性、扫描电镜等资料综合分析,并结合储层成岩演化,探讨了该区三叠系克拉玛依组储层岩石学特征、物性特征、孔隙特征及有利储层主控因素。研究结果表明:征10井区三叠系克拉玛依组超深层碎屑岩为辫状河三角洲前缘沉积,岩性以砂砾岩、含砾细砂岩及细砂岩为主,岩石类型主要为长石岩屑砂岩,成分成熟度较低;储集空间类型以剩余原生孔隙与溶蚀孔隙为主,储层平均孔隙度为9.1%,平均渗透率为2.85mD,整体属于特低孔特低渗透及低孔低渗透储层。有利沉积相带、建设性成岩作用及异常高压共同控制了该区有利储层的发育及分布。其中,沉积微相是有利储层发育的基础,辫状河三角洲前缘水下分流河道中沉积的细砂岩分选及磨圆较好,泥质杂基含量低,储层物性较好,是有利储层发育的优势相带;早期成岩过程中产生的钠长石胶结物后期被酸性溶蚀使得溶蚀孔隙增加,是重要的建设性成岩作用;油气持续充注所形成的异常高压,形成时间早且长期持续发育,起到了重要的建设作用。研究成果对该地区下步超深层油气勘探具有指导作用。

川西南自贡地区二叠系茅口组 储层裂缝特征及期次演化

四川盆地自贡地区二叠系茅口组海相碳酸盐岩储层裂缝普遍发育,对储层的储集性能、渗流规律和油气富集具有重要影响。综合利用岩心、薄片、成像测井及分析测试等资料,明确裂缝成因类型及发育特征,分析裂缝形成时间,确定裂缝形成期次。结果表明:自贡地区茅口组海相碳酸盐岩储层发育构造剪切裂缝、构造张性裂缝、水平层理缝和成岩缝合线;构造剪切裂缝为茅口组储层主要裂缝类型,以NEE和NNE走向为主,裂缝倾角介于20°~80°,延伸长度小于60 cm,充填程度较低,有效性较好;结合分析测试资料确定自贡地区茅口组储层裂缝形成于3期构造运动:第1期为海西晚期-印支早期,在华南板块顺时针运动派生的SW向应力作用下,发育少量剪切裂缝,裂缝多被矿物充填,属于裂缝次要发育时期;第2期形成于燕山晚期-喜山早期,在江南雪峰隆起产生的NW向应力作用下发育大量构造裂缝,是研究区裂缝主要形成时期;第3期为喜山晚期,裂缝形成于印度洋板块碰撞产生的NEE向挤压应力下,且裂缝多无充填,有效性较好。通过上述裂缝相关研究,为研究区有利勘探区带确立提供了依据。