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1.
青岛灵山岛中生界下白垩统碎屑岩中发育了很好的风暴岩与风暴沉积,其特点是:(1)丘状、洼状构造及丘状、洼状交错层理经常可见;丘状交错层理呈对称或近对称丘状,一般发育在三角洲前缘暗色薄层状砂泥岩互层中,薄层一般厚1~2,cm,有时也可以更厚;砂岩中常有平行层理或低角度交错层理,也可以发育丘状交错层理;细层较厚,多在1~2,cm,甚至3~4,cm;但砂岩多数呈块状;洼状交错层理相对较少,多不完善;洼状构造则相对多见。(2)冲刷侵蚀面非常发育。多波状起伏或凹凸不平,起伏可达20~30,cm,甚至更大;内部的冲刷侵蚀面常不连续,但底部的冲刷侵蚀面连续性很好。(3)中厚层状砂岩内部的冲刷侵蚀面可以分为多个次级层,但常因冲刷面的不连续而上下合并在一起。(4)砂岩中常含有内碎屑,以暗色泥砾为主,小者直径多在1~2,cm,大者可达10,cm以上,形态多变;长轴多顺层分布;有时集中在砂岩的顶部。(5)以中细砂岩为主,没有真正的砾岩;砂岩的分选性可以较好。(6)发育了大量的多尺度、多类型软沉积物的变形构造。(7)有时候含有炭屑。灵山岛风暴岩和风暴沉积的发现,揭示了这套沉积是在一个相对较浅水的湖泊条件下形成的,而非海洋深水;此外,风暴形成的砂岩下移到三角洲前缘相中,使其更加靠近烃源岩,优化了生储关系,有利于油气成藏。 相似文献
2.
《古地理学报》2016,(3)
青岛灵山岛中生界下白垩统碎屑岩中发育了很好的风暴岩与风暴沉积,其特点是:(1)丘状、洼状构造及丘状、洼状交错层理经常可见;丘状交错层理呈对称或近对称丘状,一般发育在三角洲前缘暗色薄层状砂泥岩互层中,薄层一般厚1~2 cm,有时也可以更厚;砂岩中常有平行层理或低角度交错层理,也可以发育丘状交错层理;细层较厚,多在1~2 cm,甚至3~4 cm;但砂岩多数呈块状;洼状交错层理相对较少,多不完善;洼状构造则相对多见。(2)冲刷侵蚀面非常发育。多波状起伏或凹凸不平,起伏可达20~30 cm,甚至更大;内部的冲刷侵蚀面常不连续,但底部的冲刷侵蚀面连续性很好。(3)中厚层状砂岩内部的冲刷侵蚀面可以分为多个次级层,但常因冲刷面的不连续而上下合并在一起。(4)砂岩中常含有内碎屑,以暗色泥砾为主,小者直径多在1~2 cm,大者可达10 cm以上,形态多变;长轴多顺层分布;有时集中在砂岩的顶部。(5)以中细砂岩为主,没有真正的砾岩;砂岩的分选性可以较好。(6)发育了大量的多尺度、多类型软沉积物的变形构造。(7)有时候含有炭屑。灵山岛风暴岩和风暴沉积的发现,揭示了这套沉积是在一个相对较浅水的湖泊条件下形成的,而非海洋深水;此外,风暴形成的砂岩下移到三角洲前缘相中,使其更加靠近烃源岩,优化了生储关系,有利于油气成藏。 相似文献
3.
广西北海涠洲岛第四纪湖光岩组的风暴岩 总被引:6,自引:1,他引:5
广西北海涠洲岛第四纪湖光岩组以碎屑岩为主, 内发育渠筑型、丘状或洼状交错层理、平行层理等典型的风暴沉积构造.湖光岩组的风暴岩包括3种岩相类型: A.底部具渠筑型、内部具块状层理或递变层理的砾岩、砂砾岩或含砾砂岩; B.具丘状、洼状交错层理或平行层理的砂岩; C.具浪成交错层理的砂岩.这些岩相组合成典型的A -B -C风暴沉积序列, 它们分别代表在风暴作用期间风暴流(A)、风暴浪(B) 和正常波浪(C) 的沉积.晚更新世北海涠洲岛地区位于低纬度的浅海沉积背景下, 上更新统湖光岩组以正常浪及面之上的浅海背景粗火山碎屑和砂沉积为主.湖光岩组风暴岩的发现反映该区晚更新世位于风暴作用频繁的5°~ 2 0°的低纬度地区.风暴沉积发育于正常浪及面之上的浅海地带, 涠洲岛是一个风暴作用控制的浅海陆架.因此风暴岩对解释晚更新世北部湾的古地理和古气候具有重要意义 相似文献
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鄂尔多斯盆地东北部东胜—纳林河一带出露的中生界三叠系—侏罗系—白垩系地层,为一套河湖相沉积(白垩系可能有风成沉积)。在三叠系—侏罗系地层中发育完好的风暴沉积和风暴岩。在东纳林煤矿—德胜西岔路口的109国道两侧长约40 km的三叠系—侏罗系地层中发育风暴沉积,该德胜西剖面连续长度达548 m。这套风暴沉积主要为一套河流—三角洲—湖泊沉积(有少量泥炭沼泽),并以发育典型的风暴沉积构造:丘状构造(Hummocky Structures,HS)、洼状构造(Swaley Structures,SS)、丘状交错层理(Hummocky Cross Stratification,HCS)和洼状交错层理(Swaley Cross Stratification,SCS)极为引人注目。初步研究认为,这套风暴沉积和风暴岩主要发育在浅水湖泊中。主要特点:1)凡发育有风暴沉积或风暴岩的地方,地层的成层性极差,地层多呈透镜状、豆荚状或波浪状;2)岩层的接触关系主要为冲刷面,很少正常沉积接触,冲刷面呈不规则波浪状,最大起伏可达2 m;3)丘状和洼状构造具有连续的正弦曲线的完美形态,规模在中大型,波长在数米到近百米,高数十厘米到1~2 m;4)岩性及其组合主要为一套黄褐色砾岩+砂岩+灰色泥岩;具有明显的二元结构(下粗上细;下部块状上部发育层理);在以粗碎屑为主的风暴沉积中砾岩是常见的底部沉积。在纳林煤矿附近有煤层形成的风暴沉积和风暴岩;5)在德胜西岔路口的重要剖面的风暴沉积和风暴岩底部发育了1~3层较厚的砾石层,其中中间一层为厚数十厘米到1~2 m,砾石直径大者可达30~40 cm,大部分具有叠瓦构造,前者可能指示了向湖的风暴回流,后者指示了向岸的冲洗流,揭示了风暴冲洗流非常强劲;6)灰色含砾块状泥岩,砾石呈漂浮状,揭示含砾泥岩是风暴冲洗流形成的类似于泥石流的快速沉积,而非正常天气形成的静水沉积;厚数十厘米的含砾泥岩揭示了当时的沉积速率相当大,也揭示了风暴流极其浑浊,可能几乎接近饱和;7)振荡流占优势,但在某些部位又具有明显的复合流和振荡流特点。8)总体沉积背景是一种宽阔浅水湖泊环境,以原地振荡垂向沉积为主。鄂尔多斯盆地三叠系—侏罗系湖泊风暴沉积是一种新的沉积类型。到目前为止,还未见到有关如此大型的HCS和SCS的相关报道。研究表明,形成这种风暴沉积的水体的最大深度在50 m左右。鄂尔多斯盆地早三叠世—中侏罗世的风暴沉积和风暴岩的长期发育与长期稳定的强烈亚洲季风有关。 相似文献
5.
甘肃靖远—景泰泥盆系湖相风暴岩及其古地理意义 总被引:17,自引:0,他引:17
甘肃靖远-景泰一带泥盆系雪山组和沙流水组以河湖相碎屑岩为主,内发育典型的风暴沉积构造(包括渠铸型、槽筑型、丘状交错层理和洼状交错层理、平等层理、块状层理和递变层理等).雪山组和沙流水组的风暴沉积主要包括3种岩相类型A底部具渠铸型或槽筑型的块状层理和递变层理砂岩.B具丘状或洼状交错层理及平行层理的砂岩.C具均质层理的粉砂岩、泥质岩.上述岩相A,B,C分别代表风暴事件沉积中风暴流行作用-风暴后的快速悬浮沉积(事件沉积),它们组合成典型的风暴沉积序列.甘肃靖远一带晚加里东早海西期位于北祁连造山带北缘同造山盆地的构造背景下,泥盆纪雪山组-沙流水组以河湖相沉积为主.泥盆纪湖相风暴岩的发现表明该区处于低纬度(5.~20.)的风暴作用带.中、晚泥盆世北祁连造山带构造隆升渐弱,海拔不高,不足以阻隔风暴作用对山后湖盆的侵扰.因此在近海湖盆中形成风暴岩沉积.该沉积对于认识北祁连河西走廊泥盆纪的古地理、古气候及古构造具有重要意义. 相似文献
6.
甘肃靖远景泰一带泥盆系雪山组和沙流水组以河湖相碎屑岩为主 ,内发育典型的风暴沉积构造 (包括渠铸型、槽筑型、丘状交错层理和洼状交错层理、平等层理、块状层理和递变层理等 )。雪山组和沙流水组的风暴沉积主要包括 3种岩相类型 :A底部具渠铸型或槽筑型的块状层理和递变层理砂岩。 B具丘状或洼状交错层理及平行层理的砂岩。C具均质层理的粉砂岩、泥质岩。上述岩相 A,B,C分别代表风暴事件沉积中风暴流行作用 -风暴后的快速悬浮沉积 (事件沉积 ) ,它们组合成典型的风暴沉积序列。甘肃靖远一带晚加里东 -早海西期位于北祁连造山带北缘同造山盆地的构造背景下 ,泥盆纪雪山组 -沙流水组以河湖相沉积为主。泥盆纪湖相风暴岩的发现表明该区处于低纬度 (5°~ 2 0°)的风暴作用带。中、晚泥盆世北祁连造山带构造隆升渐弱 ,海拔不高 ,不足以阻隔风暴作用对山后湖盆的侵扰。因此在近海湖盆中形成风暴岩沉积。该沉积对于认识北祁连 -河西走廊泥盆纪的古地理、古气候及古构造具有重要意义 相似文献
7.
湘东南桂阳莲塘上泥盆系风暴岩特征及其古地理、古气候意义 总被引:4,自引:2,他引:2
摘 要湖南省桂阳县莲塘镇石龙村上泥盆统锡矿山组以台地相灰岩、白云质灰岩、灰质白云岩为主。该组下部发育典型的风暴岩沉积。风暴沉积标志包括:渠铸型、竹叶状砾屑放射状组构、丘状或洼状交错层理、平行层理、递变层理、块状层理。风暴岩包括4种岩相类型:A-具块状层理的“竹叶状”砾屑灰岩(底部为冲刷侵蚀面或冲刷渠),B-具递变层理的砾屑灰岩,C-具丘状、洼状交错层理的砂屑灰岩,D-具均质或水平层理的泥状灰岩。它们组成4种典型的风暴沉积序列:A—D序列、A—C—D序列、B—C—D序列、B—D序列。湘东南上泥盆统风暴岩的首次发现表明晚泥盆世该区位于低纬度的风暴作用带,它对认识泥盆纪的古气候具有重要意义. 相似文献
8.
滇中中元古代昆阳群因民组碎屑风暴岩及其意义 总被引:16,自引:1,他引:15
滇中地区中元古代昆阳群因民组以碎屑岩为主,内发育典型的风暴沉积构造 (包括渠铸型、丘状交错层理和洼状交错层理、递变层理等 )。风暴沉积主要包括 4种岩相类型 :A -具口袋构造的递变层理砂岩段。B -具丘状或洼状交错层理的砂岩段。C -具均质层理的粉砂岩、泥质岩段。D -具水平层理的泥质岩段。上述岩相A、B、C分别代表风暴流作用 -风暴浪作用 -风暴后期的快速悬浮沉积 (事件沉积 ),D代表风暴过后缓慢悬浮沉积 (背景沉积 ),它们组合成不同的风暴沉积序列。滇中地区昆阳群风暴沉积的发现表明中元古代大气圈、水圈及其相互作用与现今近似;中元古代滇中地区位于低纬度 (5 - 30°)的风暴作用带。该沉积对于解释因民组递变层砂岩的成因、证实昆阳群的地层层序也具有重要意义。 相似文献
9.
山东惠民凹陷古近系风暴岩沉积特征及沉积模式 总被引:9,自引:4,他引:9
利用钻井取心、薄片鉴定、粒度分析及测井解释等资料和手段,对惠民凹陷古近系风暴岩进行研究。结果表明,该凹陷风暴岩岩石类型丰富,包括各类碎屑岩、生物灰岩和火山碎屑岩。粒度分布具有“高斜多跳一悬式”、多段式和高斜一段式等多种样式。沉积构造也反映出重力流和牵引流兼有的水动力机制,发育渠模、冲刷面和截切构造等底层面侵蚀构造,递变层理、块状层理、丘状层理、洼状层理、平行层理等层理构造,波痕和各种同生变形构造、生物逃逸构造等。研究区风暴岩理想的垂向层序从下至上可抽象为“似鲍玛序列”:Sa递变层理段,Sb较大型浪成交错层理段,Sc平行层理段和丘状交错层理粉砂—细砂岩段,Sd波状纹层段,Se泥岩段和Sf正常半深湖泥页岩段。主要根据风暴岩的垂向序列类型、沉积构造特点和原地沉积物特征等总结出九种风暴岩序列和原地风暴岩、A型近源风暴岩、B型近源风暴岩和远源风暴岩等四种风暴岩沉积模式。 相似文献
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11.
GIORGIO BASILICI PEDRO HENRIQUE VIEIRA DE LUCA ELSON PAIVA OLIVEIRA 《Sedimentology》2012,59(5):1613-1639
Open‐coast tidal flats are hybrid depositional systems resulting from the interaction of waves and tides. Modern examples have been recognized, but few cases have been described in ancient rock successions. An example of an ancient open‐coast tidal flat, the depositional architecture of the Lagarto and Palmares formations (Cambrian–Ordovician of the Sergipano Belt, north‐eastern Brazil) is presented here. Detailed field analyses of outcrops allowed the development of a conceptual architectural model for a coastal depositional environment that is substantially different from classical wave‐dominated or tide‐dominated coastal models. This architectural model is dominated by storm wave, low orbital velocity wave and tidal current beds, which vary in their characteristics and distribution. In a landward direction, the storm deposits decrease in abundance, dimension (thickness and spacing) and grain size, and vary from accretionary through scour and drape to anisotropic hummocky cross‐stratification beds. Low orbital wave deposits are more common in the medium and upper portion of the tidal flat. Tidal deposits, which are characterized by mudstone interbedded with sandstone strata, are dominant in the landward portion of the tidal flat. Hummocky cross‐stratification beds in the rock record are believed, in general, to represent storm deposits in palaeoenvironments below the fair‐weather wave base. However, in this model of an open‐coast tidal flat, hummocky cross‐stratification beds were found in very shallow waters above the fair‐weather wave base. Indeed, this depositional environment was characterized by: (i) fair‐weather waves and tides that lacked sufficient energy to rework the storm deposits; (ii) an absence of biological communities that could disrupt the storm deposits; and (iii) high aggradation rates linked to an active foreland basin, which contributed definitively to the rapid burial and preservation of these hummocky cross‐stratification deposits. 相似文献
12.
Shallow marine sediments of the Broughton Formation are dominated by immature volcanic debris of intermediate to basic composition, generated in an adjacent subaerial environment by volcanism responsible for the nine shoshonite units intercalated within sediments of the Kiama region. Sediment was supplied to the offshore environment via periodic storm‐generated, expanded high density turbidity currents. Initial deposition, represented by the Westley Park Sandstone Member, was below storm wave base, during which time the depositional surface was subjected to post‐depositional tractional reworking by northerly directed, tidally influenced bottom currents. The resulting positive‐relief sand bodies on the seafloor contain tractional sedimentary structures (the ‘tractional facies association'). Areas of the substrate between these sand bodies retained their turbidite bedding structure (the ‘rhythmically bedded facies association') but were extensively bioturbated by a diverse deposit‐feeding biomass. Upon emplacement of the lowest of the nine shoshonite units as a tri‐composite, locally intrusive lava flow, the depositional surface was elevated, transgressing storm wave base. The body of the shoshonite flow also shielded the substrate from the northerly directed tractional currents, allowing the development and preservation of the hummocky cross‐stratified sandstone facies in the Kiama Sandstone Member. Following burial of the shoshonite flow by continued deposition, this local shielding effect was overcome and tractional currents again reworked the entire depositional surface. 相似文献
13.
Sten‐Andreas Grundvg Mads E. Jelby Snorre Olaussen Kasia K.
liwi&#x;ska 《Sedimentology》2021,68(1):196-237
The dominance of isotropic hummocky cross‐stratification, recording deposition solely by oscillatory flows, in many ancient storm‐dominated shoreface–shelf successions is enigmatic. Based on conventional sedimentological investigations, this study shows that storm deposits in three different and stratigraphically separated siliciclastic sediment wedges within the Lower Cretaceous succession in Svalbard record various depositional processes and principally contrasting sequence stratigraphic architectures. The lower wedge is characterized by low, but comparatively steeper, depositional dips than the middle and upper wedges, and records a change from storm‐dominated offshore transition – lower shoreface to storm‐dominated prodelta – distal delta front deposits. The occurrence of anisotropic hummocky cross‐stratification sandstone beds, scour‐and‐fill features of possible hyperpycnal‐flow origin, and wave‐modified turbidites within this part of the wedge suggests that the proximity to a fluvio‐deltaic system influenced the observed storm‐bed variability. The mudstone‐dominated part of the lower wedge records offshore shelf deposition below storm‐wave base. In the middle wedge, scours, gutter casts and anisotropic hummocky cross‐stratified storm beds occur in inferred distal settings in association with bathymetric steps situated across the platform break of retrogradationally stacked parasequences. These steps gave rise to localized, steeper‐gradient depositional dips which promoted the generation of basinward‐directed flows that occasionally scoured into the underlying seafloor. Storm‐wave and tidal current interaction promoted the development and migration of large‐scale, compound bedforms and smaller‐scale hummocky bedforms preserved as anisotropic hummocky cross‐stratification. The upper wedge consists of thick, seaward‐stepping successions of isotropic hummocky cross‐stratification‐bearing sandstone beds attributed to progradation across a shallow, gently dipping ramp‐type shelf. The associated distal facies are characterized by abundant lenticular, wave ripple cross‐laminated sandstone, suggesting that the basin floor was predominantly positioned above, but near, storm‐wave base. Consequently, shelf morphology and physiography, and the nature of the feeder system (for example, proximity to deltaic systems) are inferred to exert some control on storm‐bed variability and the resulting stratigraphic architecture. 相似文献
14.
DONALD J. P. SWIFT PETER M. HUDELSON ROBERT L. BRENNER PETER THOMPSON 《Sedimentology》1987,34(3):423-457
The Upper Cretaceous (Campanian) Kenilworth Member of the Blackhawk Formation (Mesaverde Group) is part of a series of strand plain sandstones that intertongue with and overstep the shelfal shales of the western interior basin of North America. Analysis of this section at a combination of small (sedimentological) and large (stratigraphical) scales reveals the dynamics of progradation of a shelf-slope sequence into a subsiding foreland basin. Four major lithofacies are present in the upper Mancos and Kenilworth beds of the Book Cliffs. A lag sandstone and channel-fill shale lithofacies constitutes the thin, basal, transgressive sequence, which rests on a marine erosion surface. It was deposited in an outer shelf environment. Shale, interbedded sandstone and shale, and amalgamated sandstone lithofacies were deposited over the transgressive lag sandstone lithofacies as a wave-dominated delta and its flanking strand plains prograded seaward. Analysis of grain size and primary structures in Kenilworth beds indicates that there are four basic strata types which combine to build the observed lithofacies. The fine- to very fine-grained graded strata of the interbedded facies are tempestites, deposited out of suspension by alongshelf storm flows (geostrophic flows). There is no need to call on cross-shelf turbidity currents (density underflows) to explain their presence. Very fine- to fine-grained hummocky strata are likewise suspension deposits created by waning storm flows, but were deposited under conditions of more intense wave agitation on the middle shoreface. Cross-strata sets in this region are bed-load deposits that accumulated on the upper shore-face, in the surf zone. Lag strata are multi-event, bed-load deposits that are the product of prolonged storm winnowing. They occur on transgressive surfaces. While the graded beds are tempestites in the strict sense, all four classes of strata are storm deposits. The distribution of strata types and their palaeocurrent orientations suggests a model of the Kenilworth transport system driven by downwelling coastal storm flows, and probably by a northeasterly alongshore pressure gradient. The stratification patterns shift systematically from upper shoreface to lower shoreface and inner shelf lithofacies partly because of a reduction in fluid power expenditure with increasing water depth, but also because of progressive sorting, which resulted in a decrease in grain size in the sediment load delivered to successive downstream environments. The Kenilworth Member and an isolated outlier, the Hatch Mesa lentil, constitute a delta-prodelta shelf depositional system. Their rhythmically bedded, lenticular, sandstone and shale successions are a prodelta shelf facies, and may be prodelta plume deposits. Major Upper Cretaceous sandstone tongues in the Book Cliffs are underlain by erosional surfaces like that beneath the Blackhawk Formation, which extend for many tens of kilometres into the Mancos shale. These surfaces are the boundaries of Upper Cretaceous depositional sequences. The sequences are large-scale genetic stratigraphic units. They result from the arranging of facies into depositional systems; the depositional systems are in turn stacked in repeating arrays, which constitute the depositional sequences. The anatomy of these foreland basin sequences differs 相似文献
15.
塔里木盆地苏盖特布拉克地区下寒武统肖尔布拉克组发育较为典型的风暴岩。风暴沉积标志主要有冲刷充填构造、风暴砾屑层和丘状交错层理等。在野外实测和室内薄片观察基础上,依据风暴沉积物、沉积位置和沉积标志组合的不同,划分出5种风暴沉积序列。序列Ⅰ为mm级或cm级的递变纹层,截切深水微生物礁,为风暴浪基面以下的深水陆棚远源风暴浊流沉积;序列Ⅱ发育异地型风暴砾屑、粒序段、平行纹层段和水平层理黑色钙质页岩,为风暴浪基面与晴天浪基面之间的缓斜坡下部沉积;序列Ⅲ为风暴成因的生屑、砾屑与平行纹层、丘状纹层的组合,多出现在风暴浪基面与晴天浪基面之间的缓斜坡上部;序列Ⅳ以渠模与复合丘状交错层理的组合为特征,为水体较浅的晴天浪基面附近的沉积;序列Ⅴ由风暴砂砾屑及沉积充填构造、平行纹层段组成,上部单元为正常天气沉积的蓝细菌礁滩垮塌体,为晴天浪基面以上的台地边缘礁滩前缘沉积。风暴层序自下而上的沉积环境演化为深水陆棚→浅水陆棚缓斜坡下部→缓斜坡上部→台地边缘前缘,形成向上变浅沉积特征。风暴岩的发现和研究,对于塔里木早寒武世古纬度与古板块演化、古地理及沉积学研究具有重要意义。 相似文献
16.
湖南桃江半边山先寒武纪马底驿组陆屑风暴岩 总被引:2,自引:1,他引:2
本区马底驿组陆屑风暴岩的沉积构造非常清晰,其中有丘状交错层理、差异层理、层面构造、袋模、渠模、韵律层理和多种准同时变形构造.剖面可分为由块状层和韵律层组成的八个一级韵律,块状层为含砾泥质粉砂岩,韵律层由一系列二级韵律组成.根据沉积构造特征,自下而上划分为:斜坡带风暴浊流沉积、外陆棚风暴碎屑流沉积和陆棚风暴碎屑流沉积,海水逐渐变浅,为一海退层序。 相似文献
17.
川西北江油马角坝地区上石炭统黄龙组下部发育典型的风暴沉积,包括介壳灰岩、砾屑灰岩、瘤块状灰岩、砂屑灰岩和正常沉积灰岩或泥岩等沉积类型,以及冲刷沟槽、瘤块状构造、粒序层理、水平层理、波状层理和生物扰动等沉积构造。根据野外观察和室内显微分析,结合风暴沉积标志组合,在江油马角坝地区2个剖面的黄龙组下部各识别出4层风暴层,并划分出5套风暴沉积组合。组合Ⅰ以冲刷沟槽、介壳滞留层、粗砾滞留层、块状层理、水平层理、波状层理、泥灰岩层和生物富集层为特征,沉积于正常浪基面以上强风暴作用的开阔台地环境。组合Ⅱ以瘤块状构造、粒序层理和块状层理的生物碎屑灰岩为特征,沉积于正常浪基面之上受重力流影响的局限台地环境。组合Ⅲ以冲刷沟槽、粗砾滞留层、粒序层理、块状层理为特征,沉积于浪基面以上持续风暴流作用的开阔台地边缘浅滩环境。组合Ⅳ由冲刷沟槽、正粒序层理和块状层理的生物碎屑灰岩组成,产出于组合Ⅲ之上,表明该组合在前一期风暴未完全结束时又遭到后一期风暴的侵袭,接受浪基面之上的浅滩沉积。组合Ⅴ由冲刷沟槽、粗砾滞留层和泥岩层组成,沉积于晴天浪基面以上缺少物源的极浅水开阔台地环境。以上5种组合风暴岩都发育于台地中上部,与一般的斜坡风暴岩有明显的差别,均属于近源极浅水风暴岩。风暴岩的研究对地层对比、古气候、岩相古地理、沉积盆地演化和油气勘探具有重要的理论和现实意义。 相似文献