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1.
During the Cenozoic a typical lacustrine tempestite deposition was developed in the Lulehe and Xichagou sections of the Qaidam Basin. The sedimentary structures of these two sections above are examined here in detail, which consist of storm erosion, storm tear, storm wave and rapid storm-generated sedimentary structures after storm processes, such as groove casts, scour structures, cutoff structures, hummocky cross-stratification (HCS), parallel bedding and graded bedding. On the basis of these sedimentary characteristics and the vertical facies sedimentary sequence, the causes of the sedimentary succession are analyzed and a Cenozoic sedimentary model of the Qaidam Basin containing shallow proximal, transitional and deep distal tempestites is established. According to the tempestite scale and HCS wavelength, the Cenozoic storm was obviously more intense in the basin’s Upper Ganchaigou formation than that in the Lower Youshashan formation. This variation indicates that a paleoclimatic transition largely corresponded with the second uplift of the whole Qinghai-Tibet Plateau. The discovery of a Cenozoic tempestite in the Qaidam Basin is significant in the paleogeographic, paleoclimate and paleostructural fields, which provides a new insight in further study of the Qinghai-Tibet Plateau uplift. 相似文献
2.
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.
塔里木盆地西北缘震旦纪风暴岩成因探讨 总被引:3,自引:1,他引:2
本文首次论证了塔里木盆地西北缘震旦纪风暴岩的存在。就风暴岩的结构特征、沉积序列、成因模式作了探讨。震旦纪风暴岩具有底面侵蚀-充填构造、无规则排列的砾屑灰岩层、粒序层及丘状层理,以及水平纹理和纹状交错层。风暴岩可分为二种类型:钙屑风暴岩为强的风暴产生的风暴浪和风暴流而形成,由-套砾屑灰岩及泥灰岩、泥岩组成;砂屑风暴岩是由强度相对较弱的风暴离岸回流将风暴高峰悬浮起的砂屑物带到浪基面以下的地方沉积而成,由砂岩、粉砂岩及粉砂质泥岩组成。 相似文献
4.
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。 相似文献
5.
6.
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
7.
WILLIAM L. DUKE 《Sedimentology》1985,32(2):167-194
Most previous workers have inferred a storm origin for hummocky cross-stratification, which typically occurs in shallow-marine deposits. On the modern Earth, the only storms capable of profoundly affecting shallow-marine depositional environments are severe tropical cyclones (hurricanes) and mid-latitude winter wave cyclones (intense winter storms). This paper examines the palaeogeographic distribution (including palaeolatitude and palaeogeographic setting) of 107 occurrences of hummocky cross-stratification, ranging in age from the Proterozoic to Recent. In each of these stratigraphic units, both palaeolatitude and palaeogeography are consistent with a direct storm influence (associated with the passage of hurricanes or winter storms directly over the site of deposition). This palaeogeographic evidence lends support to the inferred storm origin for hummocky cross-stratification; further, the distribution of the structure suggests that most occurrences (73%) were generated by tropical hurricanes, the remaining 27% being generated by intense mid-latitude winter storms. The preferential generation of hummocky cross-stratification by hurricanes is consistent with: (1) the known differences in the nature of the bottom flows generated by the two major storm types, and (2) the inferred nature of the flows which form hummocky cross-stratification. Hurricanes couple less effectively with the water column than do intense winter storms. Due to this ineffective coupling, hurricane-generated bottom flows tend to be oscillatory-or multidirectional-dominant, with only minor unidirectional components of motion. In contrast, intense winter storms generally do couple effectively with the water column, generating bottom flows which possess a dominant or significant unidirectional component. Most previous workers have suggested that hummocky cross-stratification forms under oscillatory- or multidirectional-dominant flow; thus, it is conceptually reasonable that the vast majority of ancient occurrences of hummocky cross-stratification were probably hurricane-generated, as suggested by the aforementioned palaeogeographic distribution. The Proterozoic, Palaeozoic, Neogene, and Quaternary were times when global climate was similar to that of today. The distribution of hummocky cross-stratification deposited during these times suggests that both hurricanes and intense winter storms occupied latitudinal belts during these times which were essentially identical to those occupied by their modern counterparts. The Mesozoic and Palaeogene were non-glacial times when global climate was much warmer than that of today. The distribution of hummocky cross-stratification deposited during this interval suggests that hurricanes occurred more frequently at higher latitudes during non-glacial times than they do at present. The possibility of a broadened hurricane belt during the Mesozoic and Palaeogene is consistent with climatic considerations. A limited number of Mesozoic and Palaeogene rock units containing hummocky cross-stratification were deposited in palaeogeographic settings that preclude a direct hurricane influence; these examples were deposited in the middle latitudes, suggesting that intense winter storms continued to form hummocky cross-stratification in the middle latitudes during these much warmer times. Some previous workers have suggested that tsunamis may be capable of generating hummocky cross-stratification. The palaeogeographic distribution of the structure does not support an origin due to tsunamis. Lacustrine examples of hummocky cross-stratification reported herein are the first known non-marine occurrences; they suggest that storm effects strongly influence the sedimentary record of some lakes. 相似文献
8.
Hummocky cross-stratification-like structures in deep-sea turbidites: Upper Cretaceous Basque basins (Western Pyrenees, France) 总被引:1,自引:0,他引:1
Hummocky cross-stratification is a sedimentary structure which is widely interpreted as the sedimentary record of an oscillatory current generated by energetic storm waves remobilizing surface sediment on the continental shelf. Sedimentary structures named hummocky cross-stratification-like structures, similar to true hummocky cross-stratification, have been observed in the Turonian–Senonian Basque Flysch Basin (south-west France). The bathymetry (1000 to 1500 m) suggests that the observed sedimentary structures do not result from a hydrodynamic process similar to those acting on a continental shelf. The morphology of these three-dimensional structures shares similarities with the morphology of hummocky cross-stratification despite a smaller size. The lateral extent of these structures ranges from a few decimetres to many decimetres; they consist of convex-up domes (hummock) and concave-up swales with a non-erosive base. Four types of hummocky cross-stratification-like geometries are described; they occur in association with structures such as climbing current ripple lamination and synsedimentary deformations. In the Basque Flysch, hummocky cross-stratification-like structures are only found in the Tc interval of the Bouma sequence. Hummocky cross-stratification-like structures are sporadic in the stratigraphic series and observed only in few turbidite beds or bed packages. This observation suggests that hummocky cross-stratification-like structures are linked genetically to the turbidity current but form under a very restricted range of parameters. These structures sometimes show an up-current (upslope) migration trend (antidunes). In the described examples, they could result from standing waves forming at the upper flow interface because of Kelvin–Helmholtz instability. 相似文献
9.
丘状交错层理作为鉴别风暴沉积重要的标志之一,是最能反映风暴作用的沉积构造。本文基于驻波理论对丘状交错层理成因进行了新的解释,提出了丘状交错层理形成于驻波波节部位,形成丘状交错层理(或驻波)的动能近似恒定的观点。通过理论计算解释了丘状交错层理随水深变浅波长逐渐变长,波高逐渐减小,波长/波高逐渐增大的趋势,解释了徐州地区贾园组风暴沉积序列中丘状交错层理随水深的变化规律,从而验证了理论的可行性,对沉积环境具有一定的指示意义。 相似文献
10.
欧龙布鲁克地块古生代风暴沉积特征及地质意义 总被引:1,自引:1,他引:0
为进一步研究欧龙布鲁克地块古生界频繁发育的风暴沉积所暗含的地质信息,探讨风暴频发型古气候对柴北缘地区古生代沉积的影响,对研究区古生界各剖面进行了详细的野外勘察及室内实验等综合分析,以底面侵蚀构造、砾屑结构、化石滞留层、丘状交错层理以及同沉积涡流侵蚀构造等作为典型的沉积构造标志,识别出包括风暴高峰期、原地卸载期、回流期、涡流期以及停息期等风暴作用不同阶段产物。根据不同阶段风暴产物的组合形式,将出露的多套风暴沉积划分为代表不同沉积环境下的风暴序列类型,其中早古生代发育5种原地或近源型风暴沉积序列,晚古生代则发育对应原地搅动型、近源型以及深水缓坡型风暴沉积的风暴沉积序列。再综合研究区各古生界剖面的岩性等特征,印证了欧龙布鲁克地块早古生代为持续海侵的浅海环境,而晚古生代则整体处于陆表海环境下海陆过渡相沉积的环境变化特征。 相似文献
11.
Significance of pot and gutter casts in a Middle Triassic carbonate platform, Betic Cordillera, southern Spain 总被引:3,自引:0,他引:3
A. Pérez-López 《Sedimentology》2001,48(6):1371-1388
Pot casts and gutter casts are described for the first time in the lower part of the Majanillos Formation, a Middle Triassic carbonate unit located in the External Zones of the Betic Cordillera (southern Spain). Their identification, as well as their relation to tempestites, enables the better interpretation of the depositional environments and the shoreline-to-offshore facies transition on the Anisian muddy carbonate ramp of the southern Iberian Massif. The Majanillos Formation contains three members, which become progressively more marly towards the top. Well-preserved pot and gutter casts and thin intercalations of calcarenite, which are interpreted as tempestites, are abundant in the lowest member. Above the pot and gutter casts, thicker calcarenite beds, which locally contain hummocky cross-stratification, predominate. Bioturbated nodular limestones are prevalent at the top of the member. The remaining succession, which records a long-term Triassic transgressive cycle, consists mostly of fine-grained limestones deposited in very shallow-marine environments. Calcarenitic sediments only accumulated within potholes and gutters in the nearshore. They developed during storms when strong currents transported sediment to the outer shelf, where it was deposited as tempestite beds. Pot and gutter casts characterize sedimentation in the bypass zone. It is concluded that storm deposits provide important constraints for the interpretation of palaeobathymetry; it is proposed that gutter casts display a trend of increasing width/thickness ratios towards the outer shelf. The identification of these structures in marine successions elsewhere should prove useful in the interpretation of depositional environments. 相似文献
12.
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. 相似文献
13.
14.
WILLIAM L. DUKE 《Sedimentology》1987,34(2):344-344
Duke (1985b) argues that ‘most examples (of hummocky cross-stratification) were formed by tropical hurricanes.’ His statement is based on the assumption that ‘hurricane-generated surface gravity waves form powerful oscillating or multidirectional flows at the water-sediment interface which do not possess a significant unidirectional component.’ It is true, as one of us has previously stated, that hurricanes are rapidly-moving, short-lived, localized, and infrequent systems as compared with mid-latitude storms; midlatitude storms are consequently more efficient in coupling with the shelf water-column than are hurricanes. However, Duke's argument that hummocky cross-stratification may be the result of purely oscillatory flow is untenable. His reasoning contradicts established theory about oscillatory bedforms, and his numerous examples of hummocky cross-stratification come largely from continental shelf settings where the storms (tropical or otherwise) would have created concurrent alongshelf undirectional flow as well as wave oscillatory motion. There is no theoretical or observational basis for the belief that water movement on the sea-floor during hurricanes is qualitatively different from water movement during mid-latitude storms. Consequently, hummocks are no more liable to form beneath hurricanes than they are beneath mid-latitude storms. 相似文献
15.
湘西北龙山地区下奥陶统桐梓组潮坪风暴岩的发现及其意义 总被引:2,自引:2,他引:0
报道了湘西北地区早奥陶世桐梓组地层中的风暴岩,并对该套事件沉积体的区域展布及表现形式进行了系统阐述。通过对野外剖面的仔细观测和室内资料的综合研究,普遍见指示潮坪环境的半球状叠层石、羽状交错层理等,并识别出各种侵蚀-撕裂构造、粒序层理、韵律层理、变形层理及沙纹-波状层理等风暴沉积标志,丘状交错层理常保存不全,综合分析后认为该风暴岩为潮坪风暴沉积,并进一步划分出4种类型的风暴沉积序列。同时,区内桐梓组见有大套滑塌重力流沉积,经对比,可能为同一飓风事件在不同环境中产生的不同物质记录。该套风暴岩具有重要的地质意义:风暴沉积特征的变化蕴含了丰富的气候变化信息,反映出晚寒武世至早奥陶世时期全球温室继承、转型的一种气候响应。风暴岩、风暴浊积岩及滑塌角砾岩的发现,为该时期“鄂西台洼”的存在提供了新的沉积学证据;也为区内含矿段地层的精细划分和对比提供实际参考;同时,对分析华南板块的向北漂移提供了更仔细、更可靠的参考数据。 相似文献
16.
This study focuses on storm deposits in the Muschelkalk facies of the Betic Cordillera (southern Spain) and interprets their deposition mechanisms. Three types of storm deposit are distinguished: (i) pot/gutter casts; (ii) tempestite beds; and (iii) storm‐winnowed deposits. Each deposit provides information about the carbonate platform environment in which it was deposited. The tempestite models proposed are: (i) the bypass‐zone tempestite model, occurring in a muddy ramp at the epicontinental basin margin. This model is characterized by potholes and gutters that form in a shoreline bypass‐zone during storms; (ii) the gradient‐current tempestite model in which frequent tempestite beds are related to storm gradient currents. Thickness and grain size decrease towards the deep distal ramp; and (iii) the winnowed deposit tempestite model whereby storm deposits are winnowed and deposited in the same environment with only short lateral transport having occurred. This model evokes more restricted and shallower conditions, lagoons or inland seas. The distribution of all these deposits in the stratigraphic sections studied corroborate the eustatic third‐order cycle identified, although the different features of the storm deposits and their positions in each section indicate a subsidence varying in time and space. In the transgressive stage, the margins of the epicontinental basin were a well‐developed ramp with potholes and gutters. In contrast, during the high sea‐level stage, storm deposits generated tempestite beds or storm‐winnowed deposits in the different areas. The epicontinental carbonate platform with ramp edges evolved into a complex depositional system of coastal and shallow‐marine environments with lagoons and restricted inland seas. Thus, the epicontinental platform underwent substantial change from the Late Anisian to the Late Ladinian and this is reflected in its storm deposits. 相似文献
17.
重庆中梁山三叠系飞仙关组三段风暴沉积 总被引:1,自引:0,他引:1
本文根据重庆中梁山毛家沟三叠系剖面飞三段(T1f3)中的沉积序列和沉积构造特征,阐明了该段中具有两个比较完整的风暴岩序列。讨论了风暴作用造成的独特的沉积物类型和沉积标志,并划分出近积风暴岩与远积风暴岩两种类型。本区风暴岩形成于正常浪基面与风暴浪基面之间的陆棚环境。 相似文献
18.
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
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首次提出在鄂尔多斯盆地大牛地气田下二叠统下石盒子组盒2及盒3段发育风暴岩。前人认为该区盒2及盒3段为一套河流相沉积体系,而风暴岩的发现证明还广泛发育一套湖泊沉积。鄂尔多斯盆地大牛地气田盒2及盒3段沉积时期,湖泊水面广阔,地形平缓,总体水体较浅,为浅水湖泊环境,易产生风暴回流。根据岩心观察和粒度分析资料,研究区内发育丰富的浅湖风暴岩沉积构造,主要有截切构造、渠模、丘状交错层理和冲刷面等典型的风暴成因构造。粒度概率累积曲线也反映出重力流和牵引流兼有的复杂的水动力机制。研究区风暴岩理想的沉积单元从下至上可概括为“似鲍马序列”,即:A、递变层理和块状层理段;B、平行层理段;C、丘状交错层理和洼状交错层理段;D、波状层理段;E、泥岩段。风暴岩是湖泊发育的典型标志,所以风暴岩的提出对确定研究区的沉积相类型增加了新的认识,并且对下石盒子组的古地理恢复具有重要意义。 相似文献
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何玉平 《吉林大学学报(地球科学版)》2020,50(2):500-508
风暴岩对于古地理和古环境具有良好的指相意义。东海盆地西湖凹陷天台区始新世平湖组发育典型的风暴岩。通过详细的岩心观察,发育的风暴沉积标志主要有冲刷-充填构造、风暴撕扯构造和丘状-洼状交错层理构造等。根据风暴岩垂向上的组合特征及沉积构造差异,识别出了近源和远源两种风暴沉积类型,分别指示了不同的沉积背景:近源风暴岩表现为不完整的风暴岩垂向沉积序列,呈风暴砾屑层段(A)+泥岩段(E)叠加,为潮坪潮下带沉积;远源风暴岩具完整和不完整的风暴岩垂向沉积序列,以粒序段(B)+平行层理段(C)+丘状(洼状)层理段(D)叠加为特征,属浅海陆棚沉积。风暴层序自下而上沉积环境为浅海陆棚→潮坪,风暴岩的分布差异表明形成环境向上变浅的沉积特征。该发现为本区古环境的演变提供了重要依据。 相似文献