安徽巢北地区栖霞组臭灰岩段富有机质成因探讨

以安徽巢北地区二叠纪栖霞组臭灰岩段为研究对象,从岩石学、古生物学及沉积学特征出发,探讨臭灰岩段富有机质与风暴事件沉积之间的关系。臭灰岩段岩性整体为灰黑色中厚层状石灰岩,层间夹数毫米至数厘米厚灰黑色钙质泥岩,整套岩层富含有机质;其中生物化石丰富,整体为热带、亚热带正常盐度浅水生物组合为特征;为正常浅海碳酸盐岩台地沉积,沉积期表现为一个明显的海侵过程,并受风暴作用的频繁扰动。臭灰岩段沉积环境并非“贫氧或缺氧”条件,而是正常富氧环境。富有机质特征一方面得益于沉积期较高的生物产率,同时还与风暴事件沉积作用密切相关,即在风暴作用下,沉积物发生快速堆积,有机质未来得及与富氧水体发生长期接触即被埋藏覆盖,从而导致有机质被良好保存,形成臭灰岩段富有机质特征。风暴作用频发与研究区臭灰岩段沉积期所处的低纬度特征有关。     

安徽巢北地区栖霞组臭灰岩段富有机质成因探讨

以安徽巢北地区二叠纪栖霞组臭灰岩段为研究对象,从岩石学、古生物学及沉积学特征出发,探讨臭灰岩段富有机质与风暴事件沉积之间的关系。臭灰岩段岩性整体为灰黑色中厚层状石灰岩,层间夹数毫米至数厘米厚灰黑色钙质泥岩,整套岩层富含有机质;其中生物化石丰富,整体为热带、亚热带正常盐度浅水生物组合为特征;为正常浅海碳酸盐岩台地沉积,沉积期表现为一个明显的海侵过程,并受风暴作用的频繁扰动。臭灰岩段沉积环境并非"贫氧或缺氧"条件,而是正常富氧环境。富有机质特征一方面得益于沉积期较高的生物产率,同时还与风暴事件沉积作用密切相关,即在风暴作用下,沉积物发生快速堆积,有机质未来得及与富氧水体发生长期接触即被埋藏覆盖,从而导致有机质被良好保存,形成臭灰岩段富有机质特征。风暴作用频发与研究区臭灰岩段沉积期所处的低纬度特征有关。     

徐州地区震旦系贾园组的风暴沉积

徐州地区震旦系下部的贾园组具有丰富典型的风暴沉积标志,包括各种冲刷－充填构造、丘状交错层理、碎屑流沉积、粒序层理及卷曲层理等。通过详细的野外观测及室内研究,根据风暴沉积标志的组合可划分出6种风暴沉积序列类型。其中,类型Ⅰ为具粒序层理的薄层含粉砂灰岩,形成于风暴浪基面以下的远源风暴浊流的末梢;类型Ⅱ以渠模与丘状交错层理的组合为特征,出现在风暴浪基面与晴天浪基面之间;类型Ⅲ为风暴流成因的碎屑流沉积内碎屑灰岩与底面的冲刷沟槽、丘状交错层理的组合,是形成于晴天浪基面附近的槽道碎屑流型风暴沉积;类型Ⅳ为具颗粒流沉积特征的内碎屑灰岩与冲刷面构造及丘状交错层理的组合,丘状纹层段中常见卷曲层理,形成于滩前陆棚斜坡的上部;类型Ⅴ为夹于湖相薄层灰岩中的鲕粒砾屑灰岩,为风暴水流冲越鲕滩,在滩后湖近滩一侧的风暴沉积;类型Ⅵ为湖相风暴岩,由冲刷面构造、薄层内碎屑灰岩及丘状交错层理的组合,顶部具晴天沉积。各种序列在垂向上叠置,构成向上变浅序列。风暴沉积的研究对于深化区域古地理及地层对比研究具有重要的理论和现实意义。     

川西北江油马角坝地区黄龙组下部风暴沉积特征

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。     

湘西花垣排碧寒武系花桥组上段—车夫组沉积环境的探讨

湘西排碧位于中上扬子陆块的东南缘,前人认为在寒武纪第三世时期该地区位于以各种类型的"碳酸盐重力流沉积"发育为显著特征的"台缘斜坡相带"内,其主要岩石类型为泥质条带灰岩及砾屑灰岩。本文通过对花桥组上段—车夫组典型沉积物的岩石组分及沉积构造进行详细研究,发现条带灰岩并非泥质条带灰岩,而是由灰岩条带——颗粒灰岩、泥晶灰岩与粉砂质条带——粉砂质灰岩、纹层状含炭质粉砂质灰岩互层组成,表现出内源碳酸盐沉积物与陆源碎屑沉积物混积以及陆棚环境沉积物的典型特征。砾屑灰岩及伴生岩石组合发育丘状(洼状)交错层理等众多风暴成因的沉积构造,为具有不同风暴沉积序列的风暴沉积物。此外,花桥组上段—车夫组沉积物中含各种藻类等浅水生物及大量三叶虫骨刺。因此,认为花桥组上段—车夫组的沉积环境应为正常浪基面以下、风暴浪基面以上,受周期性强风浪作用影响的混积陆棚环境。     

A Discussion on Sedimentary Environment of the Upper Member of Huaqiao Formation-Chefu Formation of Cambrian in Paibi,Huayuan, Western Hunan

湘西排碧位于中上扬子陆块的东南缘,前人认为在寒武纪第三世时期该地区位于以各种类型的“碳酸盐重力流沉积”发育为显著特征的“台缘斜坡相带”内,其主要岩石类型为泥质条带灰岩及砾屑灰岩.本文通过对花桥组上段—车夫组典型沉积物的岩石组分及沉积构造进行详细研究,发现条带灰岩并非泥质条带灰岩,而是由灰岩条带——颗粒灰岩、泥晶灰岩与粉砂质条带——粉砂质灰岩、纹层状含炭质粉砂质灰岩互层组成,表现出内源碳酸盐沉积物与陆源碎屑沉积物混积以及陆棚环境沉积物的典型特征.砾屑灰岩及伴生岩石组合发育丘状(洼状)交错层理等众多风暴成因的沉积构造,为具有不同风暴沉积序列的风暴沉积物.此外,花桥组上段—车夫组沉积物中含各种藻类等浅水生物及大量三叶虫骨刺.因此,认为花桥组上段—车夫组的沉积环境应为正常浪基面以下、风暴浪基面以上,受周期性强风浪作用影响的混积陆棚环境.     

峡东地区埃迪卡拉系灯影组风暴岩的发现 及其环境意义

本文首次报道了峡东地区埃迪卡拉系灯影组石板滩段地层中的风暴岩。通过详细的剖面观察、测制和室内研究,识别出石板滩段典型的风暴沉积标志,包括各种丘状交错层理、粒序层理、冲刷 充填构造、平行层理及变形层理等。结合各类风暴沉积标志在剖面上的组合关系将研究区风暴岩划分出4个风暴沉积序列类型：其中类型Ⅰ为风暴流成因的滞留沉积与底面的冲刷面、丘状层理、波状层理、水平层理的组合,属形成于正常浪基面附近的近原地风暴岩; 类型Ⅱ为具颗粒流性质的块状内碎屑灰岩与丘状交错层理的组合,常见变形层理,形成于斜坡上部;类型Ⅲ为以渠模、丘状交错层理与水平层理的频繁叠加为特征,出现在风暴浪基面与正常浪基面之间;类型Ⅳ为具粒序层理的砂 砾屑浊积灰岩,形成于风暴浪基面以下,划归为风暴成因的远源浊流沉积。研究区风暴岩的特征表明：风暴层蕴含了强烈的气候信息,风暴频发是灯影期气候转型的重要响应;该时期构造相对活跃、海底地形复杂化是风暴沉积形成的原因之一;研究风暴岩的特征对等时地层对比研究也具有重要意义。     

华北地台早古生代竹叶状灰岩岩石特征及成因研究进展

砾屑灰岩在华北地台寒武系-奥陶系广泛发育,竹叶状灰岩只是其中一种,且所指范围界限模糊,常与其他类型的砾屑灰岩伴生在一起。古代陆表海提供了砾屑灰岩广泛发育的环境基础。潮坪和潮下开阔海是陆表海广泛发育的基本地貌单元,也是砾屑灰岩形成的重要场所。古板块运动表明,寒武纪华北地台处于低纬度地区,符合古风暴频发的要求。风暴及潮汐流是砾屑灰岩形成的主要动力。另外,成岩过程中的压实和固结脱水也是板条状砾屑的重要成因。条带状薄层灰泥石灰岩与泥岩及泥质灰岩的频繁互层是发生破碎并形成砾屑的物质基础。华北地台砾屑灰岩具有多种成因,可以按照砾屑的颜色特征、形态及磨圆程度、砾屑灰岩的支撑结构、充填物的类型等进行区分并进行成因分析。     

鄂尔多斯盆地东胜东三叠系—侏罗系湖泊风暴沉积的发现及其意义

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。     

京西地区寒武系凤山组地球化学特征及古环境意义

为重建京西地区芙蓉世古海洋环境演化、更好地理解沉积环境对碳酸盐岩沉积的影响,选取下苇甸剖面凤山组为研究对象,在沉积环境分析基础上,运用碳-氧同位素、主-微量元素和稀土元素等分析手段,探讨地球化学特征对沉积古环境的指示意义。下苇甸剖面凤山组主要发育泥岩、薄板状泥晶灰岩、薄板状泥晶灰岩与泥岩互层、灰泥丘、生物扰动藻黏结泥晶灰岩、砾屑灰岩、粉屑砂屑灰岩和白云质灰岩8种岩相类型,垂向上表现为多个向上变浅的米级旋回,构成了一个三级层序,其中海侵体系域以潮下低能带沉积为主,高位体系域以潮下高能带-潮间高能带藻席沉积为主。凤山组碳酸盐矿物含量以方解石为主,Al和Si等陆源碎屑元素含量较低。δ13C_car介于-0.71‰~1.51‰,反映沉积期海平面逐渐上升、末期短暂下降的变化趋势;Ce/Ce*和氧化还原敏感微量元素特征表明凤山期沉积水体以弱氧化性为主。     

The role of shelf morphology on storm‐bed variability and stratigraphic architecture,Lower Cretaceous,Svalbard

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.     

A depositional model for a wave‐dominated open‐coast tidal flat,based on analyses of the Cambrian–Ordovician Lagarto and Palmares formations,north‐eastern Brazil

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.     

Storm activities during the sedimentation of late Paleocene-middle Eocene Subathu Formation,western Himalayan foreland basin

Late Paleocene-middle Eocene Subathu Formation represents the earliest deposits of the western Himalayan foreland basin. A large part of this formation is comprised of impure limestone and grey shale intercalations. The limestones contain sole marks, intraformational conglomerates, hummocky cross stratification and wave ripples. The occurrence of sole marks suggests that they are developed by the unidirectional currents at the initial phase of the storm that resulted erosion and subsequent deposition. The intraformational limestone conglomearate also suggests erosion of the earlier deposited limestone hardgrounds as a consequence of storm associated transgression. The hummocky cross stratification formed by the oscillatory flows during the long-shore littoral drift. The depth of formation of the hummocky cross stratified limestone facies was less than 40 m and most likely deposited between shore-face to backshore regions of the gulf similar to present day Persian Gulf. The identification of deeper facies (shelf facies) from Pakistan and coastal facies from India suggest that the gulf was open from the west and closed from the east.     

广西北海涠洲岛第四纪湖光岩组的风暴岩

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      

渤海湾盆地东营凹陷利津洼陷古近系沙河街组湖相风暴沉积特征及控制因素*

渤海湾盆地东营凹陷利津洼陷古近系沙河街组第四上亚段风暴岩沉积构造类型丰富,包括风暴侵蚀形成的冲刷面、渠模、截切面构造,风暴涡流形成的撕裂构造,风暴重力流形成的递变、块状层理,风暴浪形成的丘状交错层理、平行层理、浪成沙纹交错层理及风暴后能量衰减阶段形成的准同生变形构造等。通过岩心观察统计,建立了适合于研究区风暴岩的理想垂向沉积序列,包括10个岩相单元,对应着3个主要的风暴作用阶段：风暴涡流作用阶段、风暴浪作用阶段和风暴作用衰减阶段。结合风暴岩沉积特征及沉积动力学机制,将研究区风暴岩归为4种类型：其中Ⅰ型风暴岩发育于正常浪基面之上,为原地侵蚀型风暴岩,Ⅱ型、Ⅲ型、Ⅳ型风暴岩发育于正常浪基面与风暴浪基面之间。根据以上4种风暴岩沉积特征,探讨了研究区风暴岩形成的主控因素,认为风暴岩的形成主要受风暴作用、物源、古地形以及湖平面变化的影响,并总结出4种类型风暴岩发育的有利条件。     

Is most hummocky cross‐stratification formed by large‐scale ripples?

Although normal isotropic hummocky cross‐stratification is commonly interpreted to be the deposit of large‐scale ripples, there are many reasons why this may not usually be the case. These reasons include: (i) that the stratification produced by large‐scale ripples does not particularly look like isotropic hummocky cross‐stratification; (ii) that it is difficult reconciling the abundance of HCS with the restricted hydraulic stability of large‐scale ripples in silt to fine sand (i.e. the grain sizes in which hummocky cross‐stratification is usually found); (iii) that the distribution of hummocky cross‐stratification within ancient storm beds is not the distribution that would be expected from large‐scale ripples; (iv) that the flows calculated to have formed ancient examples of hummocky cross‐stratification would be expected to generate an upper stage plane bed rather than ripples; and (v) that it is difficult to explain why large‐scale ripples would predominate in the proximal parts of storm beds when modern storm flows commonly exceed the threshold for entrainment. In contrast to the various hypotheses which propose that isotropic hummocky cross‐stratification is generated by ripples, an alternative hypothesis which suggests that it is generated by instabilities, does seem to adequately explain the origin of hummocky cross‐stratification. However, it is difficult to accept this hypothesis given that the origin of the proposed instabilities is unproven. These conclusions highlight the continued uncertainty regarding the process, which generates hummocky cross‐stratification.     

四川盆地龙门山区甘溪石沟里泥盆系养马坝组风暴沉积特征及其地质意义

通过对四川盆地龙门山区甘溪石沟里剖面实测,建立了石沟里剖面泥盆系养马坝组风暴沉积的识别标志,进而对其风暴岩进行了系统研究。石沟里养马坝组风暴沉积的重要标志包括冲刷面、渠模等风暴侵蚀构造和粒序层理、平行层理、丘状交错层理等风暴浪构造。该区养马坝组发育了6种类型的风暴沉积单元组成序列,据此建立了完整的风暴序列模式,由粒序层理段(Sa)、平行层理段(Sb)、丘状交错层理段(Sc)、波状层理段(Sd)和泥岩段(Se)组成,底部常发育冲刷面和渠模构造。龙门山区甘溪石沟里养马坝组风暴沉积可分为近源风暴和远源风暴2种类型,依据风暴沉积的剖面结构类型和沉积构造特点,建立了该区风暴沉积序列的分布模式。龙门山区甘溪石沟里养马坝组发育的风暴沉积是该区混合沉积发育、抑制生物礁发育的重要控制因素,对于该区古地理重建具有重要的指示意义。     

滇东寒武系磷矿成因新见解——风暴成矿模式初探

近年来,随着风暴流和风暴岩的新理论、新概念的不断引入,在分析沉积环境、沉积成矿作用时,不断提出了许多新思路,也不断地冲击和修正以往的传统认识,作者于1986年随同成都地矿所寒武系磷矿专题组对滇东一带包括昆阳梅树村、海口、鸣矣河、晋宁王家湾、二街、八街、安宁白登、江川清水沟、宜良大滴水、寻甸先锋等矿区的磷矿进行了详细的研究,在下寒武统中谊村段及其相当的地层中发现了多层磷质风暴沉积物。本文拟概略介绍磷质风暴沉积物的标志、特征、剖面结构并初步探讨磷矿富集与风暴事件关系的沉积演化模式。     

青岛灵山岛下白垩统湖泊风暴沉积与风暴作用

灵山岛背来石剖面发育了非常典型的湖泊风暴岩和风暴作用。非常典型的丘、洼状构造发育在火山岩底部的砂页岩中。丘状构造呈典型的丘状,规模不一,小者高数厘米,宽数十厘米;大者高2. 4m,宽12. 48m;具有典型的二元结构：底部为灰色或浅灰色的砂砾岩或砂岩;顶部为深灰色 黑色泥岩、页岩或薄层砂岩互层。砂砾岩分选磨圆均很差,砾石主要为片麻岩,直径多在数毫米到3~4cm,呈悬浮式胶结。砾岩底部为凹凸不平的侵蚀面,砾岩向丘状构造两翼变薄甚至尖灭,与下部侵蚀面呈典型的角度交切。丘状构造的上部的细粒层有四个要素：①上凸形态;②丘状交错层理;③下细上粗的二元结构;④底部具侵蚀面。洼状构造也具有典型的洼状,规模也不一,小者高数厘米,宽十余厘米;大者高2. 4m,宽18. 70m,具有下细上粗的（反)二元结构,但底部多为深灰 灰黑色、甚至黑色的泥岩、页岩或夹薄层砂岩,上部多为砂岩、砂砾岩或砾岩。完整的洼状构造也有四个要素：①下凹形态;②或有洼状交错层理;③下细上粗的（反)二元结构;④底部具侵蚀面。丘状构造与洼状构造在空间上相邻共生,但不是同时形成的,一个连续的完整序列是丘状构造形成在先,洼状构造形成在后,其间由一个粒度较细的薄层分隔开（风暴最高水位时的“静”水沉积)。基于实验和丘洼构造参数计算了风暴浪的相关参数。     

西湖凹陷古近系花港组风暴沉积研究

通过岩心观察,发现花港组典型的风暴沉积构造主要包括风暴侵蚀形成的渠模、冲刷沟槽、冲刷面,风暴涡流形成的撕扯构造、菊花状构造,风暴重力流形成的粒序层理,风暴浪形成的丘状交错层理、浪成沙纹层理、平行层理,同生变形构造及生物逃逸构造.运用岩石相组合分析的方法,发现花港组风暴垂向沉积序列发育不完整.其理想的序列由A~G共7段构成。根据花港组垂向沉积序列类型、沉积构造特点总结出了A+B+G、A+B+C、A+B+D、B+C+D、C+E+G、E+F+G等6种风暴沉积序列和原地风暴岩、近源风暴岩和远源风暴岩3种风暴岩类型.