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1.
通过对柴达木盆地路乐河和西岔沟剖面新近系沉积的详细分析,发现柴达木盆地新近纪发育典型的湖相风暴岩沉积。风暴沉积构造主要有风暴侵蚀构造、风暴撕裂构造、风暴浪构造以及及风暴期后快速沉积构造等,包括渠铸型构造、冲刷面构造、泥砾、丘状交错层理、洼状交错层理、平行层理和粒序层理等构造类型。根据风暴岩序列的规模、丘状交错层理的波长大小等因素分析柴达木盆地新近系上干柴沟组风暴的规模明显强于下油砂山组。上干柴沟组与下油砂山组之间古风暴强度的变化说明柴达木盆地在该时期发生了一次重大的古气候转型事件,与青藏高原整体初次隆升时间有较好的响应关系。风暴岩的发现,对于分析柴达木盆地新近纪的古地理、古气候、古构造及板块的运动规律具有重要意义,也为青藏高原的隆升研究提供了新资料、开辟了新途径。 相似文献
2.
北羌塘坳陷冬曲地区上三叠统巴贡组为一套碎屑岩沉积,在垂向上具有两个向上变粗的充填序列。根据沉积体产出形态和叠置序列、岩石组合与结构、沉积构造及流体性质等沉积特征,确定该套沉积体为扇三角洲相沉积,进而可划分出扇头、扇中、扇尾3个亚相。发育底冲刷构造、粒序层理、平行层理、交错层理等,表明其流体性质既有重力流又有牵引流特征。通过该套扇三角洲沉积体的认识,对研究该区古构造背景、沉积环境及油气地质条件等具有重要意义。 相似文献
3.
西天山阿吾拉勒阔尔库一带早石炭世阿克沙克组以海相碳酸盐岩夹碎屑岩为主,发育典型风暴成因的竹叶状砾屑灰岩。风暴沉积构造主要有风暴侵蚀构造、风暴撕裂构造、风暴浪构造、风暴涡流构造及风暴期后快速沉积构造等。已识别出的风暴沉积类型有具块状层理的竹叶状砾屑灰岩,具递变层理的砾屑灰岩和砾屑砂岩,具丘状、洼状交错层理和平行层理的砂屑灰岩及生物碎屑砾屑粉砂质灰岩,具平行层理的砂屑灰岩、长石岩屑砂岩,具波痕交错层理的砂屑灰岩和砾屑粉砂质灰岩,具水平层理的粉屑灰岩和具块状或水平层理的生物碎屑砾屑粉砂质灰岩。新发现的风暴沉积,说明早石炭世该地区处于低纬度带陆棚浅水沉积环境,因而对于分析西天山石炭纪的古地理、古气候、古构造及板块的运动规律具有重要意义。 相似文献
4.
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
5.
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
6.
邹光均梁恩云张晓阳李纲凌跃新 《地层学杂志》2018,(4):499-509
湘西松柏场寒武系车夫组为一套浅海相碳酸盐沉积,通过层序界面识别和沉积特征分析,将车夫组自下而上分为3个三级层序,其中第2个层序的低水位体系域和海侵体系域、第3个层序的海侵体系域中发育典型的风暴岩沉积。风暴沉积含有冲刷—充填构造、风暴砾屑层、风暴层理构造(丘状或洼状交错层理、粒序层理、浪成波痕和平行层理、水平层理等),包括5种岩相单元:砾屑灰岩段(A段)、发育水平层理的砂屑灰岩段(B段)、发育丘状交错层理的含砂屑粉屑灰岩段(C段)、发育水平层理或沙纹层理或波痕构造的粉屑灰岩段(D段)和薄层状泥晶微晶灰岩段(E段)。这些岩相单元组成ABCDE、ABDE、AD、ADE、AB、ABD、ACD共7个近源风暴岩类型和1个远源风暴岩类型DE。风暴岩的识别与发现表明该地区在寒武系车夫组沉积时期位于低纬度的风暴作用带,对湘西北寒武纪时期的古纬度与古板块演化、古地理及沉积学研究具有重要意义,同时为湘西北寒武纪地层的划分与对比、探讨该区风暴沉积模式的空间变化等提供了重要依据。 相似文献
7.
基于床面形态控制数理论,结合已有水槽试验研究成果,分析了床面形态控制数与不同床面形态的对应关系,提出了包括沙粒弗劳德数及相对水深(水深与泥沙中值粒径之比, 下同)的床面形态参数, 论述了简化床面形态控制数的计算方法及适用范围,研究了床面形态控制数与床面形态参数之间的相互关系及适用性;结合黄河下游床面形态运动特征,建立了床面形态判别方法。研究认为床面形态控制数能够反映高、低能态区的水流阻力特征;床面形态控制数与床面形态参数之间的关系,既适用于室内水槽试验也适用于天然河流;建立的黄河下游床面形态判别方法,得到了野外实测资料的初步检验,能够用于黄河下游不同能态区床面形态的判别。 相似文献
8.
地质历史时期软沉积物变形构造在不同时空沉积岩中均有分布,然而学术界对其变形过程、作用力及触发机制等仍存在许多争议。通过对米仓山前缘野外露头观测,早志留世砂岩、粉砂岩、页岩地层中,发育有多套软沉积物变形构造,其层位分布稳定,但不同层位的形态特征差异较大,包括波浪状变形层构造、包卷层理、枕状(椭球状)构造、火焰构造等,多与丘状交错层理相伴生,可分为三种组合类型,均发育于中陆棚沉积环境中。基于该区软沉积物变形构造特征,结合碳同位素分析、古气候、古板块资料,并与现代飓风研究成果对比,认为研究区早志留世时大体上处于风暴频繁的炎热环境,区内软沉积物变形构造多为风暴作用的结果,较强的风暴触及海底,使未固结成岩的沉积物的孔隙压力增加,切变强度降低,使之液化,进而发生变形。米仓山前缘早志留世软沉积物变形构造的发现及其触发机制的探讨对区内古地理、古气候的恢复,以及古扬子板块的演化具有重要的意义。 相似文献
9.
柴达木盆地西部七个泉地区第四纪冰川刨耕变形层理的研究 总被引:1,自引:0,他引:1
柴达木盆地西部发育了第四纪冰川冰水与湖泊沉积,其重要特点是在黄褐色的钙质砂砾和含砾钙质泥岩中发育了大量的大型冰川刨耕变形层理及相关的杆状、板状和冰凌铸模构造,大型变形层理单个层系的最大厚度可达两米;其形态非常复杂,其中的管状、鞘状变形层理及杆状、板状构造更具特点;冰水沉积的岩性也非常复杂,既有粘土岩,又有含砾粘土岩,钙泥质砂砾岩,还有砾岩;其中有种粘土砾很有特点。 孢粉分析表明,其形成时代为第四纪,极有可能为更新世,与中国西部的第四纪冰期形成时代相同,但具体期次尚不能确定。柴西第四纪冰川与冰水沉积证据充分,对于研究中国第四纪冰期及青藏高原的形成演化、古气候、古地理具有重要意义。 相似文献
10.
宁夏中奥陶统香山群为一套遭受轻微区域变质的陆源碎屑岩,并夹有少量碳酸盐岩和硅质岩,主要为深水浊流沉积。其中,徐家圈组主要由灰绿色、黄绿色轻变质细砂岩、钙质砂岩及粉砂岩和页岩组成,顶部发育有薄层石灰岩。在该组的中—薄层钙质粉—细砂岩、细粉屑质石灰岩和粉砂质页岩中发现了双向交错层理及纹层倾向与区域斜坡倾向相反或有较大夹角的单向交错层理,其中双向交错层理形态丰富、纹层清晰,其纹层倾向有沿斜坡向上的,有沿斜坡向下的。在深水环境中,这些交错层理不应是等深流沉积或浊流沉积的产物,而应为内波产生的沿斜坡上下水流交替流动所形成的。从沉积背景、沉积构造和古水流等方面对徐家圈组的内波、内潮汐沉积进行了详细的研究,认为其形成于水道不发育的深水斜坡环境,并对斜坡环境中内波、内潮汐沉积中不发育脉状、波状和透镜状层理的现象进行了解释。 相似文献
11.
In central Wisconsin, Cambrian strata of the Elk Mound Group record deposition on open‐coast, wave‐dominated tidal flats. Mature, medium‐grained quartz arenite is dominated by parallel‐bedding with upper‐flow regime parallel‐lamination, deposited during high‐energy storms that also produced three‐dimensional bedforms on the flats. Abundant wave ripples were produced as storms waned or during fair weather, in water depths ≤2 m. Indicators of variably shallow water (washout structures and stranded cnidarian medusae) and subaerial exposure (adhesion marks, rain‐drop impressions and desiccation cracks, including cracked medusae) are abundant. Parallel‐bedded facies preserve a Cruziana ichnofacies, similar to other Cambrian tidal‐flat deposits. Flats were dissected by small, mainly straight channels, the floors of which were grazed intensely by molluscs. Most channels were ephemeral but some developed low levées, point bars and cut‐banks, probably reflecting stabilization by abundant microbial mats and biofilms. Channels were filled with trough cross‐bedding that is interpreted to have been produced mainly during storm runoff. The strata resemble deposits of open‐coast, wave‐dominated tidal flats on the east coast of India and west coast of Korea. Ancient wave‐dominated and open‐coast tidal flats documented to date appear to have been limited to mud‐rich strata with ‘classic’ tidal indicators such as flaser bedding and tidal bundles. The Cambrian (Miaolingian to early Furongian) Elk Mound Group demonstrates that sandy, wave‐dominated tidal flats also can be recognized in the stratigraphic record. 相似文献
12.
The development of small scale bedforms in tidal environments: an empirical model for unsteady flow and its applications 总被引:1,自引:1,他引:1
Dimensions and plan morphology of current ripples are generally considered to vary with flow velocity and grain size. Recently, however, it has been shown that for sand of D50=0.095 and 0.238 mm the equilibrium dimensions are identical at all velocities within the stability field of ripples and that the plan form of equilibrium ripples is linguoid. On this basis, an empirical unsteady flow model has been developed and tested with flume experiments in order to predict ripple development in natural depositional environments. The model includes the development of washed-out ripples and upper stage plane bed. The unsteady flow model explains the development and preservation of small scale bedforms in various tidal environments more accurately than previous models. Such bedforms can serve, therefore, as indicators of prevailing hydrodynamic conditions. 相似文献
13.
A. Chakrabarti 《Journal of Earth System Science》2005,114(3):353-368
Sedimentary structures of some coastal tropical tidal flats of the east coast of India, and inner estuarine tidal point bars
located at 30 to 50 kilometers inland from the coast, have been extensively studied under varying seasonal conditions. The
results reveal that physical features such as flaser bedding, herringbone cross-bedding, lenticular bedding, and mud/silt
couplets are common to both the environments. In fact, flaser bedding and lenticular bedding are more common in the point
bar facies during the monsoon months than in the coastal tidal flat environments. Interference ripples, though common in both
the environments, show different architectural patterns for different environmental domains. Interference ripples with thread-like
secondary set overriding the earlier ripple-form, resembling wrinkle marks, are the typical features in estuarine point bars
near the high water region. Because structures which are so far considered as key structures for near-coastal tidal flats
are common to both the environments, caution should be exercised for deciphering palaeo-environments, particularly for Proterozoic
rocks, where one has to depend only on physical sedimentary structures. 相似文献
14.
15.
Sediment transport and bedforms in a carbonate tidal inlet; Lee Stocking Island, Exumas, Bahamas 总被引:1,自引:0,他引:1
An active oolitic sand wave was monitored for a period of 37 days in order to address the relationship between the direction and strength of tidal currents and the resultant geometry, and amount and direction of migration of bedforms in carbonate sands. The study area is situated in a tidal channel near Lee Stocking Island (Exumas, Bahamas) containing an estimated 5.5 to 6 × 105 m3 of mobile oolitic sand. Tidal ranges within the inlet are microtidal and the maximum current velocity at the studied site is 0.6 m s?1. At least 300–400 m3 of mostly oolitic sand are formed within, or brought into, the channel area every year. The tidal inlet is subdivided into an ocean-orientated segment, in which sand waves are shaped by both flood and ebb tides, and a platform-orientated segment, where sand waves are mainly shaped by flood tides. The studied sand wave lies on the platformward flood-tide dominated segment in a water depth of 3.5.4.5 m. During the 37 days of observation, the oolitic and bioclastic sand wave migrated 4 m in the direction of the dominant flood current. The increments of migration were directly related to the strength of the tide. During each tidal cycle, bedforms formed depending on the strength of the tidal current, tidal range and their location on the sand wave. During flood tides, a steep lee and a gentle stoss side formed and current ripples and small dunes developed on the crest of the sand wave, while the trough developed only ripples. The average lee slope of the sand wave is 24.2°, and therefore steeper than typical siliciclastic sand waves. During ebb tides, portions of the crest are eroded creating a convex upward ebb stoss side, covered with climbing cuspate and linguoid ripples and composite dunes. The area between the ebb-lee side and the trough is covered with fan systems, sinuous ripples and dunes. The migration of all bedforms deviated to a variable degree from the main current direction, reflecting complex flow patterns in the tidal inlet. Small bedforms displayed the largest deviation, migrating at an angle of up to 90° and more to the dominant current direction during spring tides. 相似文献
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17.
Analysis of 75 vibracores from the backbarrier region of Kiawah Island, South Carolina reveals a complex association of three distinct stratigraphic sequences. Beach ridge progradation and orientation-controlled backbarrier development during the evolution of Kiawah Island, and resulted in deposition of: (1) a mud-rich central backbarrier sequence consisting of low marsh overlying fine-grained, tidal flat/lagoonal mud; (2) a sandy beach-ridge swale sequence consisting of high and low marsh overlying tidal creek channel and point bar sand, and foreshore/shoreface; and (3) a regressive sequence of sandy, mixed, and muddy tidal flats capped by salt marsh that occurs on the updrift end of the island. Central backbarrier deposits formed as a result of the development of the initial beach ridge on Kiawah Island. Formation of this beach ridge created a backbarrier lagoon in which fine-grained estuarine and tidal flat mud accumulated. Washovers, oyster mounds, and tidal creek deposits form isolated sand and/or shell-rich lenses in the lagoon. Spartina alterniflora low marsh prograded into the lagoon as the tidal flats aggraded. Barrier progradation and sediment bar-bypassing at Stono Inlet created digitate beach ridges on the northeast end of Kiawah Island. Within the beach-ridge swales, tidal flats were disconformably deposited on shoreface and foreshore sand of the older beach ridges. Tidal creek drainage systems evolved to drain the swales. These rapidly migrating creeks reworked the tidal flat, foreshore, and shoreface sediments while redepositing a fining-upward sequence of channel lag and point bar deposits, which served as a substrate for salt marsh colonization. This resultant regressive sedimentary package marks the culmination of barrier island development and estuary infilling. Given enough time and sedimentation, the backbarrier sequence will ultimately prograde over the barrier island, reworking dune, beach, and foreshore sediments to form the upper sand-rich bounding surface of the barrier lithosome. Preservation of the regressive sequence is dependent upon sediment supply and the relative rate of sea-level rise, but the reworking of barrier islands by tidal inlets and migrating tidal creeks greatly alter and complicate the stratigraphic sequence. 相似文献
18.
Bedform and stratification characteristics of some modern small-scale washover sand bodies 总被引:3,自引:0,他引:3
ROBERT K. SCHWARTZ 《Sedimentology》1982,29(6):835-849
Washover sand bodies commonly develop along microtidal coastlines in beach/barrier island or spit settings. Wave runup, usually in conjunction with an abnormally high water level, may overtop the most landward berm of the beach and the foredune crest, if one exists, to produce overwash and subsequent runoff across the more landward subaerial surface. Two main elements of the resulting deposit are the washover fan and runoff channel. Newly formed, small-scale washover deposits were examined along the Outer Banks, North Carolina, near Pt Mugu, California, and at Presque Isle (Lake Erie), Pennsylvania. The fans were formed in response to unidirectional landward transport, and the runoff channels in response to unidirectional flow usually in a landward direction, but sometimes in shore-parallel then seaward direction. Where overwash carried across the fan surface and entered a pond or lagoon, a small-scale delta (microdelta) developed. In this case, the washover fan consisted of two subfacies, the wetted, but ‘subaerial’ part of the fan and the subaqueous washover delta. Flow associated with the development of the fan and runoff channel produced distinctive sets of bedforms and internal stratification. High velocity discontinuous surges moving across the fan surface resulted in the development of a plane bed and subhorizontal to low-angle (landward dipping) planar stratification which comprised the major part of the fan. Similarly, rhomboid forms were produced by high velocity sheet flow across the fan surface. Where flow carried into a standing body of water, delta-type foreset strata developed. For this case, the lateral structural sequence was subhorizontal, planar stratification merging landward into landward dipping, delta (tabular) foreset strata. In the runoff setting, where flow became channelized and continuous, both upper-flow and lower-flow regime currents were typical. Upper-flow regime bedforms included antidunes, standing waves, and plane beds. The most commonly observed lower-flow regime bedforms included microdelta-like bars, low-amplitude bars, linguoid ripples, and sinuous-crested current ripple trains. The sets of sedimentary structures comprising modern washover sand bodies provide criteria for the identification of similar deposits in ancient sediments and for more specific interpretation of the environment. 相似文献
19.
A flume study on the development and equilibrium morphology of current ripples in very fine sand 总被引:6,自引:1,他引:6
JACO H. BAAS 《Sedimentology》1994,41(2):185-209
An empirical model is constructed for the development and equilibrium dimensions of small scale, unidirectional bedforms in sand with a median grain size of 0·095 mm, based on a series of steady flow experiments in a flume. Current ripples always attain a linguoid plan morphology with constant average height (13·1 mm) and wavelength (115·7 mm), provided that sufficient time is allowed for their formation. The development pattern of these ripples on a flat bed is independent of flow velocity, and involves four stages: (1) incipient ripples; (2) straight and sinuous ripples; (3) non-equilibrium linguoid ripples, and (4) equilibrium linguoid ripples. Straight and sinuous ripples are non-equilibrium bedforms at all flow velocities. The time needed to reach equilibrium dimensions is related to the inverse power of flow velocity and ranges from several minutes to more than hundreds of hours. At flow velocities where washed ripples are stable, the equilibrium wavelength is similar to that of equilibrium linguoid ripples, but the equilibrium height rapidly decreases from 13·1 mm to zero towards upper stage plane bed conditions. The results of the flume experiments correspond reasonably well with those of previous studies, provided that various complicating factors, such as different experimental methods, different sediment characteristics, shallow flow depths and non-equilibrium runs, are accounted for. 相似文献