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盐湖沉积不仅是一种重要化工矿产沉积建造 ,还是一种重要的含油气沉积组合 ,其中常常蕴藏有十分丰富的油气资源。但是 ,此类盆地的层序地层学研究起步较晚 ,尤其是对于陆相盐湖盆地更是如此 ,其关键在于国内外的专家学者对盐湖层序的划分与特征了解较少 ,层序地层划分标准不统一。在充分吸收和消化前人研究成果的基础上 ,从当今的盐湖形成理论出发 ,以潜江古盐湖为研究对象 ,讨论了盐湖盆地沉积的层序地层划分标准 ,及层序地层单元基本特征。认为从层序地层的基本控制因素———可容纳空间 (Accommo dationSpace)出发 ,可将盐岩沉积作为盆地水体浓缩的产物———水面下降阶段的沉积代表 ,从而建立起盐湖的层序地层划分标准。 相似文献
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老挝万象平原的钾镁盐矿主要赋存在塔贡组下段膏盐岩亚段(E1 tg1-1)中。经对6条实测剖面、53个钻孔的岩石组合、沉积构造、岩石特征、地层厚度分析,塔贡组下段(E1 tg1)岩相古地理具如下特征:①含钾地层可划分为半深湖亚相、浅湖亚相、滨湖亚相、湖泊三角洲亚相。滨湖亚相可进一步划分出内带和外带;②钾镁盐矿产于半深湖亚相、浅湖亚相、湖泊三角洲亚相中,前者厚度较大;③万象成钾盆地为东深西浅的不对称盆地,盆地的古地理特征与现在的万象平原较为相似;④在沉积过程中,盆地基底由持续下降到逐步趋于稳定,卤水由逐步浓缩到迅速淡化,古气候由持续干燥炎热到湿热多雨,水体由弱还原向弱氧化环境变迁。 相似文献
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通过对兰坪盆地古近纪野外剖面中含盐泥岩—泥质粉砂岩—粉砂岩微量和常量元素的测定,利用Adams和Couch古盐度计算公式、Walker"相当硼"判别法及锶钡比值法定量—半定量地分析了该区古盐度特征。结果表明,古盐度在6.5‰~22.05‰之间,盐度变化明显,以半咸水沉积为主,其次为淡水沉积。沉积中心主要位于云龙县—兰坪县一带,古盐度值最高,平面上表现为从沉积中心向盆地周缘盐度逐渐降低,并与其所伴生的沉积环境表现出良好的对应关系。结合盆地沉积相、古环境及古地理特征,综合分析认为云龙县—兰坪县一带含盐系地层具有优越的钾盐成矿前景。 相似文献
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《中国地理与资源文摘》2004,(3)
r听心2。11’2侧叫闭31863北京地区新近沉积士不伺沉积相的工租地质特性及其评价二E吻佃峨呛尔d硒司c抽阅ct州stics andev目uati山of献- ,14,fer即t刻助即恤件fa‘巴of the recentlyd即娜ited刘访氏动ing~库树德,袁仁茂…//北京大学学报.自然科学版一2以润,4Q(1)一139一143 论述了新近沉积土沉积相的划分,垂向上新近沉积土的工程地质特性与沉积相变化之间的关系,纵向上新近沉积土的工程地质特性与沉积相变化之间的关系,新近沉积土各沉积相基本工程地质条件特征.评价了新近沉积土工程地质环境.表3参13(丁小燕)}侣r,31.12侧鸿0318‘440年来长… 相似文献
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江西永丰-崇仁盆地晚白垩世沉积体及其演化模式 总被引:1,自引:0,他引:1
《山地学报》2015,(4)
华东南地区白垩纪地壳伸展作用形成一系列SW-NE向展布的陆相断陷盆地,一般由粒度较粗的红色碎屑岩地层充填。赣杭构造带西段的江西永丰-崇仁盆地晚白垩世龟峰群角度不整合覆盖于早白垩世鹅湖岭组碎斑熔岩之上,自下而上包括河口组、塘边组和莲荷组。根据野外露头剖面沉积组构特征,可以识别出冲积扇、河流和湖泊等三种沉积体系。对各沉积相沉积物组成、沉积构造、垂向相序进行了探查认为,研究区上白垩统具有粗-细-粗的粒度变化旋回特征,反映了自下而上由冲积扇、河流到河流、湖泊再到冲积扇、河流沉积体系的有序变化。结合区域构造演化资料,初步建立的盆地沉积演化模式表明,河口组和塘边组为连续沉积,代表了断陷盆地开始发育和湖盆扩大阶段,反映了控盆构造由强烈活跃期到间歇宁静期的逐渐过渡。莲荷组再次以冲积扇和辫状河相砾岩为主,其中大量来自下伏红层的砾石成分说明莲荷组沉积时期控盆构造运动加剧。江西永丰-崇仁盆地沉积体系时空上明显的变化过程,可能是赣杭构造带晚白垩世陆相断陷盆地演化主要受区域断裂控制的一个典型代表。 相似文献
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第四纪江汉-洞庭盆地东部中段构造-沉积地貌类型划分及特征 总被引:6,自引:0,他引:6
以第四纪构造活动、沉积作用以及现今地势高低和地貌形态特征为主要依据,对江汉-洞庭盆地东部中段及其东缘(1:25万岳阳市幅)进行构造-沉积地貌类型的划分与编图。研究区共厘定出9种构造-沉积地貌类型,各地貌类型的地表高程、第四纪地壳升降特征、风化剥蚀和沉积作用等各具特征。构造-沉积地貌类型的划分及其地貌图的编制,既反映出地表地理环境暨地貌特征,又提供直观表达不同地区第四纪地层、构造特征及其反映的地质与环境演化过程的有效途径,有助于促进和深化江汉-洞庭盆地第四纪地质与环境研究。 相似文献
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本文根据河谷阶地对比,沉积相特征,孢粉组合,石英砂表面微结构组合和14C、古地磁年龄数据,探讨滦河(东部)冲积扇的形成时代、沉积环境和沉积速率,为研究唐山山前平原地下水储存条件提供一些论据。 相似文献
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兰坪—思茅盆地是国内唯一发现古钾盐沉积的盆地。对云南兰坪—思茅盆地钾盐成矿背景作了总结与分析,指出中生代以来盆地经历了陆内裂谷形成到消亡、侏罗纪箕状断陷盆地发育、早白垩纪双断式断陷盆地发育、早白垩晚期干化成盐和后期挤压走滑几个阶段。在此基础上通过盐系地层沉积特征的分析,得到了盆地在成盐期(早白垩世晚期)构造活动强烈,由统一的湖盆解体为多个次级成盐盆地,盐类资源的沉积应该分属不同的沉积序列的认识。兰坪—思茅盆地成盐期构造背景分析对于了解该区蒸发岩矿床特征和成矿机理具有重要的参考意义。 相似文献
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汾河流域地貌发育对构造运动和气候变化的响应 总被引:12,自引:0,他引:12
自中更新世中晚期以来,由于构造运动及气候变化,在汾河流域系列盆地中无论是地貌还是沉积都出现了相应的变化。根据对系列盆地中普遍发育的三级冲湖积台地的成因分析,发现发生于0.76MaBP,0.55MaBP及0.13MaBP的3次大幅度区域构造抬升是导致古湖盆湖退,三级台地形成的根源,根据对太原盆地东南边缘的一台地-洪山台地湖积层的分析,发现在相邻两次构造抬升之间的构造相对稳定期,气候变化完全控制着湖盆的演化,由第四纪气候的干湿变化对象太原盆地这样大的湖盆,一般只引起不大于4.5m的湖面升降,与构造抬升引起的湖面变动相差甚大,作为影响河湖地貌发育的2个主导因素,构造运动是主要的,气候变化只是在构造稳定期才突出地显示其影响。 相似文献
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Evolution of the Himalayan foreland basin, NW India 总被引:3,自引:0,他引:3
This paper provides new information on the evolution of the Himalayan foreland basin in the under‐reported region of the Kangra and Subathu sub‐basins, NW India. Comparisons are made with the better documented co‐eval sediments of Nepal and Pakistan to build up a broader picture of basin development. In the Subathu sub‐basin, shallow marine sediments of the Palaeocene–lower Lutetian Subathu Formation are unconformably overlain by the continental alluvial Dagshai and Kasauli Formations and Siwalik Group. The start of continental deposition is now dated at younger than 31 Ma from detrital zircon fission track data, thereby defining the duration of this major unconformity, which runs basin‐wide along strike. Final exhumation of these basin sediments, as thrusting propagated into the basin, occurred by 5 Ma constrained from detrital apatite fission track data. In the Kangra sub‐basin, the Subathu Formation is not exposed and the pre‐Siwalik sediments consist of the Dharamsala Group, interpreted as the deposits of transverse‐draining rivers. In this area, there is no evidence of westerly axial drainage as documented for coeval facies in Nepal. Similar to data reported along strike, facies analysis indicates that the sediments in NW India represent the filled/overfilled stages of the classic foreland basin evolutionary model, and the underfilled stage is not represented anywhere along the length of the basin studied to date. 相似文献
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以亚洲季风边缘区石羊河流域终端湖猪野泽为例,结合最新的沉积物年代、岩性、指标及古湖泊岸堤研究结果,从时间和空间尺度上探讨了猪野泽中全新世干旱事件时空范围和机制。从空间上对比了猪野泽中全新世地貌及沉积物岩性和指标,并配合石羊河中、上游地区的中全新世沉积剖面进行研究。在时间尺度上分析了猪野泽和石羊河流域近百个全新世测年结果,最终得出猪野泽地区在8.0~7.0 cal ka B.P.期间存在百年尺度的干旱事件,而不是以前研究提出的距今7000~5000日历年期间2000 a尺度的干旱事件,并且这次极端干旱事件影响范围主要在石羊河中、下游地区,对石羊河上游地区影响较小。根据时空尺度分析对猪野泽中全新世干旱事件机制进行讨论,结果表明这次干旱事件主要是由流域气候条件特征和水热配比改变所引起的,而不是以前研究提出的亚洲夏季风减弱导致。 相似文献
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Tectonics of the Xining Basin in NW China and its implications for the evolution of the NE Qinghai‐Tibetan Plateau 
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下载免费PDF全文 The continuous Cenozoic strata in the Xining Basin record the growth and evolution of the northeastern Qinghai–Tibetan Plateau. Here, the mechanisms and evolution of the Xining Basin during the Cenozoic were investigated by studying the sedimentary facies of 22 Cenozoic sections across the basin and detrital zircon U‐Pb ages of three Cenozoic sections located in the eastern, central and western basin, respectively. In the Eocene (ca. 50–44 Ma), the India‐Eurasia Collision affected the northeastern Qinghai–Tibetan Plateau. The Central Qilian Block rotated clockwise by ca. 24° to form the Xining Basin. The Triassic flysch sediments surrounding the basin were the primary sources of sediment. Between ca. 44–40 Ma, the basin enlarged and deepened, and sedimentation was dominated by saline lake sediments. Between ca. 40–25.5 Ma, the Xining Basin began to shrink and dry, resulting in the deposition of saline pan and saline mudflat sediments in the basin. After ca. 20 Ma, the Laji Shan to the south of the Xining Basin was uplifted due to the northward compression of the Guide Basin to the south. Clasts that eroded from this range dominated the sediments as the basin evolved from a lacustrine environment into a fluvial system. The Xining Basin was an extensional basin in the Early Cenozoic, but changed into a compressive one during the Late Cenozoic, it was not a foreland basin either to the Kunlun Shan or to the western Qinling Shan in the whole Cenozoic. The formation and deformation of the Xining Basin are the direct responses of the India‐Eurasia Collision and the growth of the Qinghai‐Tibetan Plateau. 相似文献
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Harris Lake, a small, groundwater fed lake in the Cypress Hills area of Saskatchewan, is one of the few lacustrine basins in the Great Plains that contains a complete, uninterrupted record of Holocene sedimentation. The lithostratigraphy and variation in the mineralogical composition of the sediments in this basin provide insight into the paleolimnology and paleohydrology of the lake and surrounding watershed. Although there is no evidence that the basin was dry for extended periods during the Holocene, the lake did experience numerous short-lived episodes of high salinity, as well as significant changes in solute composition during the early to mid-Holocene. An abrupt change, from a lake dominated by detrital sediments to one characterized almost entirely by endogenic deposition, occurred about 4000 years ago in response to the combined influence of forestation of the watershed and diversion of major fluvial and detrital influx by landsliding. These adjustments to the Harris Lake drainage basin were likely the result of the onset of cooler and wetter climatic conditions after 4500 B.P. During the late Holocene, slope failure continued to sporadically provide fresh clastic material to the otherwise endogenic-sediment dominated lake. 相似文献
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Jaanus Terasmaa Liisa Puusepp Agáta Marzecová Egert Vandel Tiit Vaasma Tiiu Koff 《Journal of Paleolimnology》2013,49(4):663-678
This study uses the Holocene lake sediment of Lake ?ū?i (Latvia, Vidzeme Heights) for environmental reconstruction with multi-proxy records including lithology, computerised axial tomography scan, grain-size analysis, geochemistry, diatoms and macrofossils, supported by AMS radiocarbon dating. Numerical analyses (PCA; CONISS) reveal three main phases in the development of the lake. Response to the Lateglacial–Holocene transition in Lake ?ū?i took place around 11,300 cal. BP. Organogenic sedimentation started with distinctive 5-cm-thick peat layer and was followed by lacustrine sedimentation of carbonaceous gyttja. Several findings of the peat layer with similar dated age and position at different absolute altitudes indicate that lake basin was formed by glaciokarstic processes. In the Early Holocene (until around 8,500 cal. BP), the lake was shallow and holomictic, surrounded by unstable catchment with erosion and inflow events. Predominance of diatom species of Cyclotella and Tabellaria, large numbers of respiratory horns of phantom midge pupae (Chaoboridae), high Fe/Mn ratio, as well as the presence of laminated sediments indicates the transition to a dimictic and oligo-mesotrophic lake conditions with high water level, anoxia in the near-bottom and stable catchment in the Middle Holocene (8,500–2,000 cal. BP). This contrasts with many hydrologically sensitive lakes in Northern and Eastern Europe in which the water level fell several meters during this period. During the Late Holocene (from 2,000 cal. BP to the present), the lithological and biotic variables reveal major changes, such as the increase in erosion (coarser grain-size fraction) and eutrophication [diatoms Aulacoseira ambigua (Grun.) Sim., Stephanodiscus spp., Cyclostephanos dubius (Fricke) Round]. Characteristics of lake-catchment system during the Late Holocene reflect anthropogenic signal superimposed on the natural forcing factors. To date, the Late Quaternary palaeolimnological reconstructions using lake sediment has been limited in the Baltic region. Therefore, findings from Lake ?ū?i provide important information about environmental and climatic changes that took place in this part of Eastern Europe. This study shows that the relative importance of climate and local factors has varied over the time and it is essential to consider the lake basin topography, catchment size and land cover as potential dominant forcing factors for changes in sedimentary signal. 相似文献
17.
Environmental changes documented by sedimentation of Lake Yiema in arid China since the late Glaciation 总被引:6,自引:0,他引:6
In this study, a 6 m long core (16,000 BP) at the center of the dry Lake Yiema, a closed lake of Shiyang River drainage in Minqin Basin of the arid northwestern China, was retrieved to recover the history of climate changes and lake evolution in the area. Five radiocarbon dates on organic matter were obtained. A chronological sequence is established based on these five dates and other dates from nearby sites. Magnetic susceptibility, particle size and chemical composition were analysized for climate proxies. The proxies indicate that a drier climate prevailed in the Shiyang River drainage during the last glacial. Lake Yiema was dry and eolian sand covered most part of the lake basin. During the early and middle Holocene, a moister climate prevailed in the drainage. Climate became dry stepwise with an abrupt transition from one stage to another during the entire Holocene and became driest since about 4,200 BP. Maximum dry climate spells occurred at about 12,000-10,000 BP and after about 4,200 BP. A dry climate event also existed at about 7,600 BP. Periodical sand storms with about 400-yr cycle happened during the middle Holocene. Desiccation processes of the lake started at 4,200 BP, and were accelerated since the last 2,500 yrs by the inflow water diversion for agriculture irrigation. During the past 2,500 yrs, the lake size has been closed associated with the human population, implying that the human impact has been accelerating the lake desiccation superimposed on the natural climate deterioration. 相似文献
18.
Malinda L. Kent‐Corson Andreas Mulch Stephan A. Graham Alan R. Carroll Bradley D. Ritts C. Page Chamberlain 《Basin Research》2010,22(6):829-845
Early Cenozoic terrestrial deposits in the western United States represent well‐preserved archives of climatic and tectonic processes that together shaped the Earth's surface during the demise of a large continental plateau. This study examines a Cenozoic terrestrial sedimentary sequence in the central part of the Cordilleran orogen (Montana) using sedimentologic and geochemical techniques. At ~49 Ma, we observe rapid major shifts in oxygen, carbon and strontium isotope records that are too large to directly reflect changes in meteoric water composition due to simple orographic rainout. The transition to low‐δ18O values in pedogenic carbonate in concert with changes in the composition of clastic material at ~49 Ma points to the input of evolved meteoric water to the hydrological cycle due to a change in the source of waters reaching Cordilleran intermontane regions in southwestern Montana. This drainage reorganization coincides with the initiation of magmatism and extension to the west in what is now Montana and Idaho. The sedimentological record shows evidence that depositional gradients increased in the study area ~46 Ma, ~3 Myr after the drainage reorganization occurred. This interval is most likely the time it took for extensional deformation to propagate to the study area itself. Evidence of freshening events in Laramide Basins to the southeast suggests that this drainage reorganization diverted waters to progressively fill these basins and highlights the impact of post‐plateau extension‐related landscape reorganization on river networks and lake dynamics. This study also emphasizes the importance of using multiple tools in deciphering topographic history through the study of terrestrial basin deposits, in that interpretation based on any single method employed would have compromised our ability to successfully identify the regional evolution of topography and drainage networks. 相似文献
19.
Quaternary sediment in the Yichang area: Implications for the formation of the Three Gorges of the Yangtze River 总被引:8,自引:0,他引:8
Fang Xiang Lidong Zhu Chengshan Wang Xixi Zhao Hongde Chen Wenguang Yang 《Geomorphology》2007,85(3-4):249
Sediment data from the Yichang area in the Jianghan Basin of Hubei Province in China suggest deposition in a lacustrine environment prior to 0.75 Ma, B.P., followed by incision of the Yangtze River. The earliest Quaternary Yunchi Formation accumulated in an alluvial fan to fan-delta environment. The subsequent Shanxiyao Formation was deposited in an environment that changed from fan-delta to lacustrine. The distribution of sedimentary facies suggests the presence of a lake in the Yichang area prior to 0.75 Ma, B.P. The lack of sediments contemporaneous with the Yunchi and Shanxiyao Formations in other areas of the Jianghan Basin, suggests that this ancient lake was limited to the Yichang area. This lake predates the present Yangtze River in the Yichang area and the Jianghan basin. Provenance studies of gravels in the Yunchi and Shanxiyao Formations, as well as gravels in terraces and the channel of the Yangtze River indicate a variety of sediment sources, but suggest that no material from the area west of the Three Gorges had been carried into the Yichang area prior to 0.75 Ma, B.P. The Yangtze River cut through Three Gorges area only after 0.75 Ma, B.P. 相似文献
20.
Sub-bottom profiling was conducted at eight sub-basins within the lower French River area, Ontario, to investigate deposits
preserved within the ancient North Bay outlet. Ten cores were collected that targeted the four depositional acoustic facies
identified in the sub-bottom profiling records. The rhythmically laminated/bedded glaciolacustrine deposits of facies I are
interpreted to have aggraded within glacial Lake Algonquin and its associated recessional lakes that persisted between 13,000
and 11,300 cal BP (~11,100 and 9,900 BP). The majority of the facies II, III and IV lacustrine deposits accumulated between
about 9,500 cal BP (~8,500 BP) and the mid-Holocene, based on radiocarbon-dated organic materials. These deposits represent
sedimentation within a ‘large’ lake during the late portion of the Mattawa-Stanley phase, and the Nipissing transgression,
Nipissing Great Lakes and post-Nipissing recession phases of lake levels. Two sets of organic-rich sand beds are preserved
within facies II deposits and reveal that the large lake lacustrine depositional environment was interrupted during the late
Mattawa-Stanley phase between 9,500–9,300 and 9,000–8,400 cal BP (~8,500–8,300 and ~8,000–7,600 BP), when the water surface
of Lake Hough fell below the outlet threshold and the lake basin became hydrologically closed. Pre-9,500 cal BP (~8,500 BP),
the early and middle portions of the Mattawa-Stanley phase were dominated by erosion, as reflected by an unconformity at the
base of facies II that occurs widely in the sub-basins and the general lack of preserved deposits for these intervals in the
cores. This erosion is attributed to wave action and fluvial scouring within the outlet mouth during the early and mid-Stanley-Hough
low stages and relates specifically to the period when the flowing portion of the North Bay outlet was situated over the lower
French River area. This study reveals that the majority of the post-glacial deposits accumulated after the outlet threshold
had shifted permanently eastwards and the lower French River area was inundated under the multiple phases of the large lake
occupying the Nipissing Lowlands and Georgian-Huron basins, extending well into the mid-Holocene. The occurrence of deposits
marking two closed-basin intervals during the late Stanley-Hough stage are well preserved locally within the lacustrine depositional
sequence, but identifying earlier closed-basin intervals from the French River stratigraphy is hindered by the lack of preserved
pre-9,500 cal BP (~8,500 BP) post-glacial deposits. 相似文献