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1.
东濮凹陷沙三段高频湖平面变化及低位砂体预测 总被引:20,自引:1,他引:20
东濮凹陷沙三段沉积时期,湖平面变化频繁,有长周期,也有短周期,根据录井及岩芯等资料识别出的湖平面变化的6级周期,其变化频率约为1000次/Ma。根据计算,东濮凹陷沙三段沉积时期湖水最大深度为30m。在高位期,盆地沉积中心发育暗色泥岩夹薄层碳酸盐岩;在水位下降期,边缘相砂体不断向盆地中心进积;在低水位期,盆地沉积中心发育盐膏岩沉积,因此在垂向上常发育深水相暗色泥岩与砂岩频繁互层,以及深水相暗色泥岩与盐膏岩频繁互层。这种砂体多为低水位期三角洲成因,是东濮凹陷很重要的含油气储层。 相似文献
2.
东濮凹陷沙三段地层为深水相暗色泥岩与砂岩频繁互层及深水相暗色泥岩与盐膏岩频繁互层.这种砂体是东濮凹陷很重要的含油气储层。过去这种砂体往往按照静态的模式被解释为重力流成因,随着勘探的不断深入,越来越多的证据表明这些砂体中存在着牵引流和暴露地表的标志,其成因和沉积模式需要重新认识。东濮凹陷沙三段沉积时期,湖平面变化频繁,有长周期,也有短周期。根据录井、电性及岩心等资料识别出湖平面变化的5级周期,其变化频率约为1000次/Ma。根据计算,东濮凹陷沙三段沉积时期湖水最大深度为30 m。高水位沉积期,湖岸线距盆地中心较远,盆地沉积中心发育暗色泥岩夹薄层碳酸盐岩,盆地边缘发育粗碎屑岩沉积;水位下降期,边缘相砂体不断向盆地中心进积;低水位期湖岸线向盆地中心退缩了1030 km,盆地沉积中心发育盐膏岩沉积,盐膏岩的周围发育低水位三角洲、扇三角洲和滨湖滩坝相的粗碎屑岩体。正是由于湖平面的变化引起的湖岸线迁移,导致高水位沉积期和低水位期湖盆的岩相古地理面貌发生很大的变化,根据这种动态的模式来预测砂体的分布,在指导油气勘探中产生了明显的效果。 相似文献
3.
东濮凹陷下第三系沙三段盐岩和膏盐岩的成因 总被引:15,自引:0,他引:15
在东濮凹陷下第三系沙三段发育暗色泥岩与盐岩和膏盐岩的频繁互层沉积,暗色泥岩为深水成因。根椐盐岩和膏盐岩的沉积序列特点、与盐岩和膏盐岩互层的泥岩和砂岩的沉积特点,沙三段沉积期的古气候和古环境特点,认为盐岩和膏盐岩是浅水蒸发成因的。深水相泥岩与浅水成因的盐岩或膏盐岩频繁互层,说明沙三段沉积时期,湖平面变化频繁。也正是由于湖平面变化频繁,在沉积中心的周围主要物源方向上形成一系列低水位期的砂体。这些低水位期砂体是形成岩性油气藏的主要储层。 相似文献
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中国北方宁南盆地古近纪晚期咸化湖盆演化及其区域地质意义 总被引:1,自引:0,他引:1
本文以宁南盆地北部的贺家口子清水营组剖面为研究目标,对古近纪晚期清水营组的岩性特征、石膏主元素地球化学特征和泥岩有机地球化学特征进行研究,结果表明:清水营组岩性以灰绿-紫红色泥岩、石膏及二者互层为主,可划分为8个二级沉积旋回和3个一级沉积旋回。石膏中CaO含量反映了咸化湖盆中石膏的化学沉积作用,Al_2O_3等为陆源碎屑来源,清水营组下段为盐湖深水环境沉积的纯净石膏;中段石膏沉积的水体较浅。清水营组下段地层泥岩TOC和生烃潜量(S_1+S_2)较高,说明在咸化湖盆演化早期气候较湿润、水体较深;而泥岩降解潜力相对小,反映有机质以高等植物来源为主,陆源输入较多。在此研究基础上,认为宁南盆地清水营组沉积包括:蒸发岩的沉积和碎屑岩的沉积;咸化湖盆演化尚未达到钾盐等盐岩沉淀的高浓缩阶段。咸化湖盆演化主要经历了早期封闭深水盐湖发育阶段、中期封闭浅水盐湖鼎盛阶段和晚期开阔浅水盐湖消亡阶段。宁南盆地古近纪晚期咸化湖盆演化与盆地的持续构造沉降和各次级沉积坳陷最终连为统一的湖泊这一重大区域沉积事件有明显的响应关系。 相似文献
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塔里木盆地古近纪岩相古地理 总被引:14,自引:6,他引:14
古近纪是塔里木盆地由海向陆转化的时期。当时该区的海侵来自研究区西侧的古地中海分支,物源则主要是盆地北部的南天山以及南部的昆仑山,沉积中心在库车坳陷西部以及塔西南坳陷带的西部。古新世-始新世早期(库姆格列木群沉积期)在盆地北部库车坳陷发育砾岩、砂岩、碳酸盐岩及膏盐岩,沉积环境有滨岸、漏湖、潮坪及扇三角洲等,塔西南坳陷以碳酸盐岩和膏岩为特征,从东到西发育开阔台地、近岸局限台地、蒸发盐台地、辫状河三角洲环境等,二者之间即在塔北隆起及北部坳陷带位置为宽阔的古隆起区。始新世晚期-渐新世(苏维依组沉积期)整个盆地以滨浅湖为主,发育粉砂岩与泥岩互层沉积,塔西南坳陷虽然仍发育多个海相层,但海水的影响明显比始新世早期弱,当时主要古地理单元有海湾渴湖、滨浅湖、扇三角洲和辫状河三角洲。总体上,塔里木盆地在古近纪经历了早期以扇三角洲为主的浅水环境到晚期的滨浅湖及海湾溻湖环境,古近纪研究区的古气候以热带-亚热带的干旱气候为主。 相似文献
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南海北部深水盆地与浅水陆架区一样,新生代均处于南海北部准被动大陆边缘的地球动力学环境,具有北部大陆边缘拉张裂陷的基本构造地质属性.深水盆地油气运聚成藏的基本地质条件亦与浅水区类似,但由于陆坡深水区凹陷裂陷更深、沉积充填规模更大,因此,烃源岩发育且展布规模更大,进而为深水油气形成莫定了雄厚的烃源物质基础.本文基于深水区少井无井、地质资料缺乏的现状,借鉴浅水区烃源岩地质地球化学特点及评价参数,依据跨越深水区地震剖面层序地层追踪解释及油气地质综合研究,重点对深水盆地烃源岩进行早期预测与评价,同时亦对其油气资源潜力进行初步分析. 相似文献
7.
湘南地区奥陶系岩石组合及其沉积环境 总被引:1,自引:0,他引:1
湘南地区奥陶系的岩石类型以砂岩、泥岩和页岩为主,硅岩、灰岩较少。按照岩石成分,可进一步划分为砂岩-泥岩韵律性互层型和泥(页)岩(板岩)-硅岩型2种岩石组合类型。其中,砂岩-泥岩韵律性互层型岩石组合分布于爵山沟组、桥亭子组、天马山组,泥(页)岩(板岩)-硅岩型岩石组合分布于烟溪组。通过岩性、古生物、沉积构造等相标志分析,认为研究区奥陶系沉积环境为深水斜坡至盆地环境,发育深水原地沉积和浊流沉积,并建立了沉积模式,同时分析其沉积演化过程。研究区奥陶系总体表现为水体逐渐上升,经历过一次完整的海进-海退旋回:第一次海进始于下奥陶统桥亭子组,上奥陶统天马山组海退开始。 相似文献
8.
济阳坳陷下第三系湖相沉积的层序地层学分析 总被引:24,自引:3,他引:21
本文按照层序地层学原理,应用多种资料,分析了济阳坳陷地震T2,T6际准层的层序地层学意义,将济阳坳陷下第三系划分成3个二级层序,其中又可以划分出多个三级层序。每个二级层序都可以分成3个体系域:低水位体系域(LST)以盐(膏)岩或灰色泥岩,碳酸盐岩沉积为主;水进体系域(TST)以大套暗色泥岩沉积为特征;高水位体系域(HST)对应于河流 三角洲沉积。湖水面升降与构造运动,古气候及全球性海平面变化有关。3次大的水进期形成的暗色泥岩是主要生油层。低水位近岸(水下)扇、斜坡碳酸盐岩、与三角洲有关的各类砂体是良好的油气储层。层序地层学原理可以应用于湖相沉积。 相似文献
9.
济阳坳陷东营凹陷古近系孔店组一段—沙河街组四段下亚段(Ek1-Es4x)沉积时期发育了规模巨大的红层—膏盐层沉积。通过对红层—膏盐层沉积构造、碎屑颗粒粒度和沉积物垂向叠加样式等分析,表明红层沉积具有水上沉积作用和水下沉积作用共存、重力流沉积作用与牵引流沉积作用并存的特征。红层—膏盐层在盆地的不同位置具有明显不同的垂向叠加样式。通过地球化学特征分析和泥岩颜色分析,结合前人研究表明,红层—膏盐层沉积时期沉积环境以干旱为主,呈现干湿频繁交替的特征。气候相对潮湿时期,湖盆盐度较低,以沉积砂泥岩为主;气候干旱时期,湖盆盐度高,以沉积膏盐岩为主。红层—膏盐层沉积早中期为低水位振荡性湖泊,沉积晚期为高水位振荡性湖泊,两者沉积作用存在较为明显的差别。 相似文献
10.
国外深水盆地烃源岩发育特征表明:无论是板内的断坳盆地还是板缘的先裂陷后漂移沉积盆地,在裂陷期(断陷期)及坳陷期(漂移期)均有烃源岩分布,大陆边缘盆地不同演化阶段有效烃源岩发育程度存在差别,其中裂陷期非海相(湖相)暗色页岩是最主要和最普遍的生油岩,还可能发育过渡相或近海相的煤系和泥质烃源岩;其次是板内坳陷晚期或板缘漂移期的海陆过渡相、近海相、前三角洲相等有大量的有机质供给或者长期离物源区较近的情况下,烃源岩发育;裂陷晚期和坳陷早期烃源岩一般不发育,但有大量的有机质供给的半封闭浅海—半深海环境可能发育高效烃源岩。国外主要深水盆地中新生界烃源岩发育特征对中国南海北部深水区烃源岩的认识具有重要的指导意义。中国南海北部裂陷早期阶段发育的湖相烃源岩和裂陷晚期发育的海陆过渡相烃源岩为主力烃源岩;南海北部不同盆地坳陷期中新统海相烃源岩差异较大,其中陆源有机质输入不足的琼东南盆地烃源岩稍差些,陆源有机质输入相对充足的珠江口盆地烃源岩较好一些。墨西哥湾和北苏门答腊盆地的勘探实践已经证实了半深海相烃源岩可作为有效油源岩,这对中国南海北部深水区中新统海相烃源岩认识具有很好的借鉴意义。 相似文献
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ABSTRACT A number of non‐marine evaporite units composed of primary gypsum were deposited in saline lakes that developed in the southern Teruel Basin (NE Spain) during the Miocene. In the basin depocentre, a continuum of lacustrine evaporite lithofacies influenced by the activity of organisms is displayed. The Libros Gypsum was deposited in a deep lake, in which water stratification became unstable with progressive shoaling. Rhythmites, composed of laminae of pelletal gypsum and laminae of very fine lenticular gypsum crystals mixed with siliceous microorganisms, formed in addition to gypsum turbidites, intraformational gypsum breccias and slump structures. The pelletal laminae originated from the faecal activity of animals (crustaceans?) ingesting gypsum crystallites in the lake water during episodes of maximum evaporation, whereas the laminae of very fine lenticular gypsum mixed with microorganisms accumulated during episodes of relative dilution. In the wide marginal zones of the basin, the Libros Gypsum unit consists of massive to thin‐bedded bioturbated gypsum and thin‐bedded clotted gypsum, which formed in intermediate to very shallow (palustrine) water depths. The bioturbated gypsum lithofacies were produced by the action of diverse organisms, presumably worms and coleopterans, and chironomid larvae to a lesser extent; the massive lithofacies precipitated in very shallow water; and the thin‐bedded lithofacies formed in shallow to deeper settings. The thin‐bedded clotted gypsum is a relatively deep facies that may have diverse origins (e.g. bioturbation, compaction, disruption of soft sediments and early diagenesis). There is a well‐developed metre‐scale cyclicity in the marginal lake sequences, which is not observed in the inner lake deposits. This suggests a depth control in the various lacustrine subenvironments to record cyclic evaporitic processes. The isotopic composition of the gypsum indicates early sulphate‐reducing bacterial activity in the bottom of the lake and suggests that the sulphate was derived from the chemical recycling of Triassic evaporites of the country rocks. 相似文献
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CAO Yangtong LIU Chenglin XUAN Zhiqiang JIAO Pengcheng CHEN Yongzhi WANG Chunlian 《《地质学报》英文版》2011,85(6):1448-1465
A large-scale evaporate series is developed in Paleogene-Neogene strata in the Kuqa basin. The series is composed mainly of evaporate with thin beds of clastic rock (mainly mudstone and siltstone). In grayish white medium- and coarse-grained sandstone in Miocene strata, the formation of copper minerals is in close connection with brine. In joint planes, which are developed in vertical strata, are filled with gypsum. Gypsum and copper-mineralized sandstone contains enormous copper minerals, mainly atacamite. According to the SEM analysis for salt rock, gypsum rock, limestone, grayish green siltstone, grayish white medium-coarse-grained sandstone, some minerals are composed of metallic elements including Au, Ag, Cu, Zn, Pb, Co, Ni and U etc., in which Au occurs in a native form, Cu occurs in a native form or as atacamite in salt rock, gypsum rock and limestone, Ag occurs as silver sulfide in gypsum, and Zn, Pb, Co, Ni, U occur as compounds along with the above metallic ions in evaporate or clastic rock. From SEM images, we can see that metallic elements or their compounds (oxides or sulfides) “take root” as grains in salt or gypsum crystals, which belong to primary chemical sedimentation along with evaporate, while some grains “float” on surface of salt or gypsum. In the former case, mineral grains were formed together with salt (gypsum) crystals; while in the latter case, minerals were enriched from internal metallic ions (Paleogene evaporate samples) or external metallic ions (Neogene gypsum samples) in the late stage of evaporate formation. The metallic ions in Paleogene evaporate samples might originate from weathered or denudated materials in the south Tianshan Mountains. The metallic ions in the Neogene evaporate samples might be from metal-bearing brine, which migrated upward to surface along fractures and leached into evaporate (gypsum). Occurrence of metallic minerals and their compounds (elementary substance) in Paleogene evaporate proves that diversified metallic minerals exist in evaporate. The source of metallic ions in the Neogene evaporate series shows that evaporate could provide materials for late-stage metallic mineralization. 相似文献
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14.
西藏羌塘盆地中侏罗世布曲期及夏里期岩相古地理与油气远景 总被引:3,自引:1,他引:3
在露头剖面地层学及沉积学研究的基础上,采用单因素分析多因素综合作图法,编制了西藏羌塘盆地中侏罗世布曲期和夏里期的单因素图和岩相古地理图。布曲期以碳酸盐岩沉积为主,自北而南依次发育局限台地(潮坪、泻湖)、开阔台地(台盆、浅滩/点礁)、台缘礁/浅滩、台缘斜坡、盆地等沉积(亚)相;夏里期以陆源碎屑沉积为主,发育泻湖、潮坪、滨岸、陆棚等沉积(亚)相。布曲组台盆和泻湖相泥灰岩和泥晶灰岩是良好的烃源岩,台缘礁和浅滩相碳酸盐岩是良好的储集岩,而上覆的夏里组泻湖和潮坪相泥岩和膏盐层是良好的区域性盖层,共同构成良好的生、储、盖组合。该生储盖组合大都被上覆的上侏罗统、白垩系、第三系覆盖。因此,布曲组是盆地内最好的油气勘探目的层,沿中央隆起带两侧以及北羌塘地区的琵琶湖-半岛湖凸起一带应是油气勘探的有利区带。 相似文献
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Calcium-borates, mainly pandermite (priceite) and howlite, but also bakerite and colemanite, are intercalated within the Sultançayir Gypsum (Miocene, Sultançayir Basin, western Anatolia). This lacustrine unit, represented by secondary gypsum in outcrop, is characterized by: (1) a clear facies distribution of depocentral laminated lithofacies and debris-flow deposits, a wide marginal zone of sabkha deposits, and at least one selenitic shoal located toward the basin margin; (2) evaporitic cycles displaying a shallowing-upward trend; and (3) a diagenetic evolution of primary gypsum to (burial) anhydrite followed by its final re-hydration. The calcium borates precipitated only in the depocentre of the lake and were partly affected by synsedimentary reworking, indicating that they formed during very early diagenesis. The lithofacies, which are made up of a host gypsum (finely laminated) and borates (nodules, irregular masses and discontinuous bands; also fine laminations), indicate that the borates grew interstitially because of the inflow and mixing of borate-rich solutions with basinal brines. Borate growth displaced and replaced primary gypsum beneath a relatively deep depositional floor. Borate formation as free precipitates was much less common. The anhydritization of primary gypsum took place during early to late diagenesis (burial <250 m deep). This process also resulted in partial replacement of pandermite and accompanying borates (bakerite and howlite) as well as other early diagenetic minerals (celestite) by anhydrite. Final exhumation resulted in the replacement of anhydrite by secondary gypsum, and in the partial transformation of pandermite and howlite into secondary calcite. 相似文献
16.
四川盆地下寒武统膏盐岩发育特征与封盖有效性分析 总被引:2,自引:0,他引:2
四川盆地下寒武统广泛发育一套膏盐岩,主要沉积于早寒武世龙王庙期。基于四川盆地深井及实测剖面中膏盐岩的识别和统计,发现下寒武统有川南和鄂西两大聚盐区,最厚达690.40m;川南聚盐区西部以含泥含云质石膏岩类和含膏砂泥岩类为主,东部及颚西聚盐区主要为含膏白云岩类。结合前人研究,认为膏盐岩发育于浅水缓坡沉积环境,有潮上萨布哈和缓坡蒸发两类成因。通过对川南聚盐区储盖匹配关系及后期构造与膏盐岩封盖性分析,表明下寒武统膏盐岩与盐下震旦系优质的白云岩储层在空间上具有良好的匹配关系;四川盆地边界大断裂及边界外寒武系的抬升暴露让膏盐岩在盆地外封盖性失效,而在盆地内膏盐岩的封盖性较好。威远气田解剖表明有膏盐岩分布的威远地区成藏,而无膏盐岩分布的资阳地区气藏被破坏,显示了下寒武统膏盐岩在四川盆地油气成藏中具有重要的作用。 相似文献
17.
东营凹陷沙四下亚段沉积环境特征及沉积充填模式 总被引:5,自引:1,他引:4
沉积盆地中沉积环境特征控制了砂体沉积成因类型及盆地沉积充填模式。通过对东营凹陷丰深2井、官112井及梁120井沙四下亚段泥质沉积物系统取样,进行全岩X衍射分析和常量及微量地球化学元素分析,在此基础上对东营凹陷沙四下亚段古气候和古盐度指标进行分析。结果表明,古气候指标Rb/Sr比值与石英+长石含量、Cr元素含量及P元素含量呈正比,含量增加反映了气候相对潮湿,与古盐度指标碳酸盐+硫酸盐含量呈反比,其含量增加反映了气候相对干旱。东营凹陷沙四下亚段沉积时期气候干湿交替频繁,气候潮湿时期相对湖平面上升,湖水盐度降低;气候干旱时期相对湖平面下降,湖水盐度升高,使得此时期湖泊呈现为高频振荡性盐湖特征。气候潮湿时期以沉积碎屑沉积物为主,包括冲积扇、浅水型三角洲、滨湖滩坝及近岸水下扇沉积,由于湖水盐度较低,洼陷带主要沉积泥岩、灰质泥岩、含膏泥岩和少量泥质膏岩;气候干旱时期相对湖平面下降,湖泊水体盐度升高,洼陷带以沉积膏盐岩为特征,垂向上具有含膏泥岩、泥质膏岩、膏岩和盐岩的演化序列,平面上表现为由湖泊边缘向湖泊中心发育灰质泥岩、含膏泥岩、泥质膏岩、膏岩和盐岩的环带状结构特征。 相似文献
18.
根据地表露头、地震、钻井、测年资料,应用地层回剥方法,对准噶尔盆地深层结构进行了解剖。现今的构造区划是石炭系顶面隆坳格局的反映,深、浅层地层沉积隆坳格局和构造变形特征存在差异。石炭纪末的构造事件导致盆地褶皱变形、隆升剥蚀,形成了北西向为主的背向斜构造。早二叠世-中二叠世,沉积在南部,存在多沉积中心、多构造应力环境,形成了二叠纪早中期重要的烃源岩层系。晚二叠世-侏罗纪存在两期大型湖进坳陷盆地沉积,将下伏盆地埋藏,为盆地重要的区域盖层。早侏罗世-中侏罗世西山窑组含煤岩系是盆地内重要的烃源岩层系,中侏罗统头屯河组沉积前,盆地内形成西南高、北东低的大型车莫古隆起,并遭受了强烈剥蚀。白垩系沉积前,盆地受深层断裂活动控制,在侏罗系形成雁列组合正断层构造。白垩纪-新生代,盆地发生翘倾构造作用,北天山山前强烈沉降,褶皱变形,北部隆升。盆地深层存在石炭系、二叠系和侏罗系富含有机质的烃源岩,与叠合连片发育的三叠系、侏罗系、白垩系、新生界泥岩、煤系、膏泥岩等构成了盆地内多套源盖组合,成为盆地油气富集的基础。盆地深层油气围绕构造变动后的富烃中心区赋存。 相似文献
19.
物源分析是盆地分析和古地理分析的基础内容,对构造、沉积等各方面都具有指示意义,进而可以为识别沉积体系和油气储层展布提供帮助。对鄂尔多斯盆地东南部延长组早期地层的砂岩和泥岩样品进行了轻、重矿物分析、阴极发光测试、微量及稀土元素测试等,结果表明:延长组早期,研究区物源供给较稳定,分别来自盆地东北缘阴山古陆和南缘古秦岭,源岩主要是上地壳太古宙以后的长英质岩石地层,兼有少量沉积岩和太古宙古老地层岩石混入,当时研究区内处于弱氧化弱还原—氧化的淡水沉积环境,气候温暖湿润。 相似文献