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1.
尽管还存在一些不同的认识和争论,陆生植被对河流沉积作用的影响,得到了越来越多的地质事实的支持,主要表现在以煤或泥炭的形式保存下来的碳质物质对河堤的保护,从而促进了曲流河与网状河的发育。四川盆地上三叠统须家河组为一套含有煤系地层的冲积序列为主的地层,属于具有前陆盆地性质的磨拉石序列,成为研究植被发育条件下河流序列的典型代表。重庆永川普安剖面的须家河组是以河流相沉积为主的须家河组的典型代表,包括6个正式的岩性段,在其中一段、三段和五段为含煤细粒碎屑岩组成的低能河流相地层,二段、四段和六段由砂质底荷载高能河流相沉积构成,岩石地层划分及其所反映出的旋回性成为层序地层的识别和划分的基础,从而将须家河组划分成3个河流相沉积层序。两个主要的特征赋予了普安剖面须家河组河流相层序序列重要意义:(1)总体向上变粗的而且与现行的河流相层序模式形成巨大差异的河流相沉积序列组成的冲积构架;(2)明显受到植被发育影响的高能底荷载河道相砂岩。基于植被发育对河流沉积作用的影响,对普安剖面须家河组的河流相沉积序列的观察与研究,对长期以来须家河组沉积相分析存在的较大争议将提供重要的线索和思考途径。 相似文献
2.
Sr/Ca,Mg/Ca:珊瑚岛鸟粪沉积的物源指示计* 总被引:1,自引:0,他引:1
文章尝试用Sr/Ca,Mg/Ca比值作物源指示计,区分了珊瑚岛屿受到海鸟粪影响的湖泊沉积物中鸟粪、珊瑚砂、植物这几种主要的环境介质对沉积物的相对贡献,据此恢复1800年来西沙群岛东岛海鸟数量变化和植被演化的历史。结果表明,东岛海鸟数量的变化历史可划分为潜伏期、增长期、稳定期和衰退期4个阶段,历史时期东岛海鸟生态系统的建立和发展与岛屿植被的演变有着密切的联系。研究获得的方法和初步结论为进一步开展西沙岛屿海鸟数量变化、植被演化的广泛对比并探讨与气候变化、人类活动的相互联系提供了基础。 相似文献
3.
二叠纪—三叠纪界线(PTB)集群绝灭是显生宙以来海洋生物界发生的规模最大的一次灾变事件,但陆生植物在PTB是否存在集群绝灭却颇有争议。这个争议主要归咎于如何定义陆生植物的集群绝灭。通过考虑集群绝灭定义的4个基本特点(即量值、广度、幅度和时续),本文简要评述了陆生植物穿过PTB的多样性变化,认为它与海洋动物在二叠纪末的多样性变化可能是互相耦合的,这暗示着海洋和陆地生态系统在PTB都遭受了剧烈的扰动。陆生植物穿过PTB发生了全球性的古植代—中植代交替,经历了大的群落重组和新种的演化,这个过程持续了约25Ma。基于孢粉学资料,晚二叠世—早三叠世植物群的演变具有明显的连续性,陆生植物在PTB没有突然发生大规模的绝灭事件。在不同的植物地理区、气候带和保存条件下,陆生植物穿过PTB的多样性变化具有明显的选择性,总体上都显示了危机—残存—复苏的演化式样。基于化石数据库,冈瓦纳植物区和华夏植物区陆生植物属的多样性在PTB显著衰减;而安加拉植物区和欧美植物区,属的多样性在PTB稍许增加。陆生植物中存在的一次高绝灭率事件(中三叠世安尼期)稍微滞后于海洋无脊椎动物和陆生四足动物在PTB同时发生的集群绝灭,这暗示着陆生植物与动物界发生集群绝灭的根本原因及其响应方式可能不尽相同。作为宏体自养型初级生产者的陆生植物拥有更加多样化的地方特有性分子、生存对策和生境,在PTB可能对灾变事件具有更强的缓冲能力和生存能力。因此,笔者等建议在分析全球陆生植物多样性变化式样时,应该综合考虑植物区、气候带、化石采样和保存偏差因素以及大化石和微体化石的相互补充和印证,而基于有限的资料(例如来自一个植物地理区、一个或少数的产地和植物分类群(或分类等级)以及单凭植物大化石的研究)来论证陆生植物在PTB存在集群绝灭极有可能是不可靠的。笔者等倾向于认为陆生植物在PTB不存在全球性的、突然的、多种分类单元的集群绝灭。 相似文献
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层序地层中的混合沉积作用及其控制因素 总被引:10,自引:0,他引:10
简要介绍了硅质碎屑与碳酸盐混合沉积有关概念及混合沉积作用类型,分析了层序体系域中的混合沉积作用及其控制因素。总结认为,硅质碎屑与碳酸盐的混合沉积作用不仅发生在低水位体系域(LST),而且其它各体系域中也都有不同程度的混合沉积现象,但混合沉积作用方式有差别:LST主要为源区混合,陆棚边缘体系域(SMT)和高水位体系域(HST)晚期以间断混合及相混合占优,海浸体系域(TST)早期以间断混合为主。综合研究显示,准层序一级的海平面变化型式差异可能是导致层序体系域混合沉积作用的主要因素,其中,LST、SMT、晚期HST的混合沉积作用分别与准层序一级海平面变化的幅度、速率、位置和持续时间有关,TST则受控于物源供给;先期地形、气候变化(含碳酸盐生产速率影响)或多或少对体系域的混合沉积作用有影响。此外,某些情况下层序体系域的混合沉积作用可能会受到局部构造活动影响,而层序组或超层序内层序体系域的混合沉积作用强弱及其旋回性变化可以提供脉动性区域构造活动信息。 相似文献
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第四纪冰期与间冰期旋回的形成过程,及其陆生植被系统的响应及演化过程是研究地质时期全球变化的重点问题,本文通过对华北地区北部LN1钻孔的121个高质量孢粉数据重建了过去3 Ma以来的区域植被演化过程。研究结果显示,区域植被经历了4个主要发展过程,约3~2 Ma气候相对温暖湿润,主要为以松、桦、栎、胡桃、榆等组成的落叶阔叶林;约2 Ma,区域植被急剧变化,主要表现为针叶林扩张,阔叶林比例的减少,在2~1. 2 Ma转变为以松、云杉、桦为主的针阔叶混交林。在中更新世全球气候转型期,区域植被再次发生迅速改变,在约1. 2~0. 7 Ma转变为稀树的灌丛草原,0. 7 Ma以后区域气候进一步干旱化,在最近0. 7 Ma内区域环境转变为典型草原为主的植被景观。区域的植被变化反映了华北平原区近3 Ma以来整体上呈现出干旱化与寒冷化的趋势,其中2. 0 Ma,1. 2 Ma, 0. 7 Ma气候事件最为突出。上述结果反映了华北地区植被的演变过程及季风降水的逐渐减少与北极冰盖在近3 Ma以来的迅速扩张期同步对应。 相似文献
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邯郸地区晚更新世以来植被波动特征及其对气候变化的响应 总被引:1,自引:0,他引:1
对河北邯郸HZ S孔沉积物进行孢粉分析,结果表明该地区晚更新世以来的气候演变形式既有与全球同步的特点,也有本区域独自的特征。古气候与古植被演变过程如下:(1)晚更新世末次间冰期气候温暖湿润(130~75 kaBP),植被为森林草原;末次冰期气候演化经历了寒冷干燥(75~55 kaBP)→温暖湿润(40~30 kaBP)→寒冷干燥(30~10 kaBP)的过程,植被演替过程相应为草原→森林草原→草原。(2)全新世气候演化经历了温凉略干(10~8 kaBP)→温暖湿润(8~3 kaBP)→温凉偏干(3~0 kaBP)的过程,植被演替过程相应为疏林草原→森林草原→疏林草原。(3)发生在25 kaBP左右,16 kaBP左右和11~10 kaBP的冷事件可能是Heinrich事件3、1和Younger Dryas事件在中国东部季风区的响应。 相似文献
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地质历史上植物的生态演化明显地影响到煤矿床的形成。远在早古生代就形成了由藻类等低等生物为主,在浅海或海湾环境沉积的腐泥无烟煤(俗称石煤)。到晚古生代,孢子植物在海陆交互环境中得到巨大发展,形成了规模很大的近海型煤田;中生代主要是陆生裸子植物形成了山间盆地型煤田;新生代植物更趋于大陆环境,在世界上形成了许多山间盆地型煤田,发育 相似文献
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本区地壳演化分:太古—早元古代构造基底形成、中晚元古代大陆边缘、早古生代裂谷形成与晚古生代海槽演化四个阶段。重晶石矿床成矿作用有火山喷流作用、大陆边缘沉积作用与裂谷带多种成矿作用的叠加,是形成大型超大型重晶石矿床重要特征。本区寻找重晶石矿前景是乐观的。 相似文献
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中国云南早泥盆世坡松冲植物群——探究早期陆生维管植物演化分异的窗口 总被引:2,自引:0,他引:2
简要回顾了目前云南早泥盆世坡松冲植物群的研究,论述了坡松冲植物群的时代、组成和性质。研究表明坡松冲植物群在某些简单的、常见的工蕨类植物和三枝蕨类植物组成的背景下,含有具复杂形态和结构特征的植物类群,显示了较劳亚大陆同期陆生维管植物更进化的营养器官、生殖器官分异的水平。不同古植物地理区的长期隔离(也就是,早泥盆世的东北冈瓦纳古植物地理区和华南亚区)和独特的环境可能是造成众多地方性分子演化分异的原因。坡松冲植物群的研究表明中国华南可能是早期陆生维管植物演化辐射的中心之一。 相似文献
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华北北部古生代大陆地壳增生过程中的岩浆作用与成矿效应 总被引:13,自引:7,他引:6
包括前寒武纪克拉通与显生宙造山带两大构造单元的华北北部,古生代时期板块构造体制下古亚洲洋的裂解-扩展-消亡与汇聚大陆边缘的俯冲-碰撞-伸展循环构成了其大陆地壳增生与再造演化的基本图景,并形成了一系列记录这些因果演变连续过程的岩浆侵入与喷发事件。这些物质记录无疑是研究汇聚大陆边缘壳-幔作用和物质交换、大陆地壳演化与大规模成矿作用耦合关系的绝佳窗口。本文在系统总结最近几年积累的年代学和岩石地球化学资料的基础上,以一些带有特定过程印记的标志性岩浆事件为纲领,表征这些古生代岩浆作用形成过程中的地球动力学演变,揭示其所记录的华北北部大陆地壳的多阶段增生与再造演化机制,并初步探讨了有利地球动力学过程制约下的岩浆行为引起的成矿物质聚集效应。 相似文献
11.
河流沉积学研究热点与进展--第11届国际河流沉积学大会综述 总被引:1,自引:1,他引:0
第11届国际河流沉积学大会于2017年7月17日-21日在加拿大卡尔加里大学举行,每四年举行一次的国际河流沉积学学术会议,吸引了当今北美、欧洲、澳洲及亚洲从事河流沉积学及相关学科研究的众多知名学者参会,研究成果充分体现了当前国际河流沉积学研究取得的重要进展和发展方向。重要进展有:1)河流动力学及其变化过程研究。其中包括将今论古法论现代河流沉积过程与古老地层对比,河道-洪泛平原体系的越岸复合沉积动力学,河流动力学与变化过程研究展望,恢复河道迁移过程:新一代平面图演化模式的讨论,冲积河流和基岩河流的湍流、颗粒间作用和沉积作用;2)陆缘河流。包括河流入海处的地貌动力学与沉积学,河流补给边缘的沉积物搬运、地貌和地层特征,干旱地区河流、冲积扇体系与风的相互作用,植被生长前、无植物生长、或是植被发育区河流的沉积过程研究;3)河流沉积地层及其地下资源。包括源-汇系统,"河流相模式"是否有用的讨论,辫状河、网状河、曲流河概念的厘定等;4)河流地貌变化。包括气候改变、泥泞植被洪泛平原等对河流沉积物通量、河流模式等产生影响,河道中冲积岛屿的演化和稳定河流的蛇曲化,河流环境中沉积物生物作用等。基于上述资料分析,认为河流演化过程从定性向定量化研究,物理模拟与数值模拟技术是河流沉积学研究不可或缺的手段,应用定量建模、数学计算等方法进行精准研究,碎屑锆石U-Pb定年技术是新一代从源到汇研究的重要工具等诸多方面,是我国学者应该重视并开展研究的方向。 相似文献
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In present-day alluvial environments, the impact of vegetation on sedimentological processes and deposits is well known. A vegetated catchment may decrease sediment yield, sediment erodibility, Hortonian overland flow, aeolian winnowing of fines, the proportion of sediment transported as bedload, and may increase bank stability, infiltration into substrates, and bed roughness. Vegetation also promotes the production of chemically-weathered clays and soils and the adoption of a meandering style. It is generally understood that, prior to the evolution of terrestrial vegetation during the Early Palaeozoic, ancient alluvial systems were markedly different from modern systems, with many systems adopting a “sheet-braided” style. This understanding has previously informed the interpretations of many Precambrian pre-vegetation alluvial successions, but there has been relatively little work regarding Early Palaeozoic alluvial successions laid down prior to and during the initial colonization of the Earth's surface by plants.A comprehensive review of 144 Cambrian to Devonian alluvial successions documented in published literature was combined with original field data from 34 alluvial successions across Europe and North America. The study was designed to identify changes in alluvial style during the period that vegetation was evolving and first colonizing alluvial environments. An increase in mudrock proportion and sandstone maturity is apparent, along with a decrease in overall sand grain size through the Early Palaeozoic. These trends suggest that primitive vegetation cover promoted the production and preservation of muds from the mid Ordovician onwards and increased the residence time of sand-grade sediment in alluvial systems. The compilation also enables the first stratigraphic occurrence of certain vegetation-dependent sedimentary features to be pinpointed and related to the evolution of specific palaeobotanical adaptations. The first markedly heterolithic alluvial sequences appeared at about the same time as the most primitive terrestrial vegetation in the Ordovician, and prolific pedogenic calcite, charcoal and bioturbated floodplain fines first appeared in the rock record at about the same time as vascular-plant macrofossils became abundant in the late Silurian. Lateral accretion sets in channel deposits appeared near the Silurian–Devonian boundary, at or shortly before the appearance of underground rooting systems, and become progressively more abundant in the record during the Devonian, implying a major expansion of meandering rivers as rooted plants stabilized river banks. Coals become abundant after the development of plant arborescence. The analysis suggests that the evolution of embryophytes had a profound effect on fluvial processes and deposits, and this period of landscape evolution must be considered amongst the most significant environmental and geomorphological changes in Earth history, with profound consequences for all aspects of the Earth system. 相似文献
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《Sedimentary Geology》2007,193(1-4):193-201
We investigated proglacial fluvial sedimentation processes in the SE Lithuanian Plain by means of lithofacies analysis. The main parameters on which interpretations were based, were depositional structures of sandy sediments, paleohydraulic parameters and grain-size distribution. The development of the SE Lithuanian Plain illustrates the phenomenal shift of proglacial fluvial sedimentation from outwash plain to ice-marginal river during the ice retreat of the last glaciation. Three facies assemblages of braidplain deposits and two facies assemblages of palaeovalley deposits were distinguished in the sandy plain by means of qualitative and quantitative sedimentological research. This raises the question how the commonly accepted development of a SE orientated outwash plain could turn into an almost perpendicular (SW running) ice-marginal river. The vertical and lateral transitions of outwash plain facies present a classical example of braidplain evolution on slightly inclined lowlands, with well expressed proximal, middle and distal parts. Mid- and side-channel (point-bar) deposits of the proglacial valley point, however, which is unusual for proglacial fluvial systems, to a meandering character of the ice-marginal river. River types of various scale show a change from braided into meandering in the proglacial subenvironment. Lithofacies analysis and paleohydraulic parameters show distinct differences of the hydrodynamic regime during the first stage of the sandy plain development: from sedimentation on an outwash plain in a proglacial valley to sedimentation on a braidplain in a wide ice-marginal valley. The outwash system is characterized by a distinct downstream decrease in energy, whereas the ice-marginal river maintained most of its power and velocity. 相似文献
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Distinct styles of fluvial deposition in a Cambrian rift basin 总被引:1,自引:0,他引:1
Maurício G. M. Santos Renato P. Almeida Lucas P. S. Godinho André Marconato Nigel P. Mountney 《Sedimentology》2014,61(4):881-914
Process‐based and facies models to account for the origin of pre‐vegetation (i.e. pre‐Silurian) preserved fluvial sedimentary architectures remain poorly defined in terms of their ability to account for the nature of the fluvial conditions required to accumulate and preserve architectural elements in the absence of the stabilizing influence of vegetation. In pre‐vegetation fluvial successions, the repeated reworking of bars and minor channels that resulted in the generation and preservation of broad, tabular, stacked sandstone‐sheets has been previously regarded as the dominant sedimentary mechanism. This situation is closely analogous to modern‐day poorly vegetated systems developed in arid climatic settings. However, this study demonstrates the widespread presence of substantially more complex stratigraphic architectures. The Guarda Velha Formation of Southern Brazil is a >500 m‐thick synrift fluvial succession of Cambrian age that records the deposits and sedimentary architecture of three distinct fluvial successions: (i) an early rift‐stage system characterized by coarse‐grained channel elements indicative of a distributive pattern with flow transverse to the basin axis; and two coeval systems from the early‐ to climax‐rift stages that represent (ii) an axially directed, trunk fluvial system characterized by large‐scale amalgamated sandy braid‐bar elements, and (iii) a distributive fluvial system characterized by multi‐storey, sandy braided‐channel elements that flowed transverse to the basin axis. Integration of facies and architectural‐element analysis with regional stratigraphic basin analysis, palaeocurrent and pebble‐provenance analysis demonstrates the mechanisms responsible for preserving the varied range of fluvial architectures present in this pre‐vegetation, rift‐basin setting. Identified major controls that influenced pre‐vegetation fluvial sedimentary style include: (i) spatial and temporal variation in discharge regime; (ii) the varying sedimentological characteristics of distinct catchment areas; (iii) the role of tectonic basin configuration and its direct role in influencing palaeoflow direction and fluvial style, whereby both the axial and transverse fluvial systems undertook a distinctive response to syn‐depositional movement on basin‐bounding faults. Detailed architectural analyses of these deposits reveal significant variations in geometry, with characteristics considerably more complex than that of simple, laterally extensive, stacked sandstone‐sheets predicted by most existing depositional models for pre‐vegetation fluvial systems. These results suggest that the sheet‐braided style actually encompasses a varied number of different pre‐vegetation fluvial styles. Moreover, this study demonstrates that contemporaneous axial and transverse fluvial systems with distinctive architectural expressions can be preserved in the same overall tectonic and climatic setting. 相似文献
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17.
从端点走向连续:河流沉积模式研究进展述评 总被引:10,自引:7,他引:3
从河道类型的划分、河床演变与河型转换、河道沉积与河流砂体的建筑结构要素、河漫滩沉积、季节性河流与分支河流体系、河流沉积相模式、河流沉积学研究技术与方法等方面对国内外河流沉积模式的研究进展进行了综述,认为近十年来河流沉积学的理论和方法都发生了重要的变化。地貌学家、沉积学家和工程师认识到河道形态是连续可变的,而不是只有4~40多个端点类型。河床的演变受河床比降、流量变幅、河岸沉积物粒度构成、气候、植被以及构造沉降速率等多方面的影响。垂向剖面分析法难以对古河流类型做出正确的判断,运用建筑结构要素分析法重建河道内大型底形的地貌形态是河型判别和河流相模式重建的正确方法。河漫滩是河流沉积事件记录最为齐全的部位,对河漫滩、天然堤和泛滥平原沉积层序的研究能够揭示更多古河流沉积过程以及古环境、古气候和古生物方面的信息。对季节性河流、受季风强烈影响地区的河流、以及不同气候带河流所发育的独特沉积构造和建筑结构要素的研究不断增加。分支河流体系的概念得到越来越多的应用,但也得到不少质疑。我国学者应当注重对现代河流地貌形态和沉积过程的观察,把河床演变学的定量方法与沉积学的观点、理论和资料相结合,利用露头、三维地震资料和探地雷达技术建立河流砂体内部建筑结构信息数据库,加强对古河流河漫滩和泛滥平原的沉积过程、特征及其控制因素的研究,加强对不同构造和气候条件下河流沉积的差异性研究,不断发展河流沉积学研究技术,加强河流沉积学实验室建设和研究队伍建设,加强国际交流与合作,使我国河流沉积学为国家经济社会发展提供更加有力和有效的支撑,为推动国际河流沉积学发展做出中国人自己的贡献。 相似文献
18.
The Pleistocene climate-controlled fluvial sedimentary record in the Bełchatów mine (central Poland)
《Sedimentary Geology》2007,193(1-4):203-209
Sedimentological analyses of fluvial formations in the Bełchatów mine have yielded results that have more than regional significance. They concern the reaction of rivers to climatic changes in the Pleistocene. Changes in river geometry and their depositional records are examined from two fluvial formations. These formations represent different times, but show similar palaeoenvironmental changes. Cool temperate climate conditions resulted in meandering (or anastomosing) river sedimentation, which was controlled by equalized precipitation and by a well-developed vegetation cover. Cold periglacial climate conditions resulted in braided river sedimentation immediately before the Glacial Maximum, with high discharges and a high sediment load. The palaeoclimatic and palaeohydrologic analyses of the Weichselian fluvial deposits in Bełchatów provide additional information to that from similar studies in Germany and the Netherlands, thus jointly resulting in a consistent palaeogeographic model of western-middle Europe. 相似文献
19.
Tomasz Salamon Tomasz Zieli&#x;ski 《Boreas: An International Journal of Quaternary Research》2019,48(3):695-712
In this paper, fluvial deposits of Middle Pleistocene age in the mountain‐foreland area of southern Poland (Eastern Sudetes and Western Carpathians) are studied in order to document the evolution of fluvial systems during the coldest stages of glacial periods when the Scandinavian Ice Sheet advanced far to the south. The focus is on fluvial response to climate change and glacial impact on river system behaviour. Also considered is the tectonic uplift of the mountain part of river catchments and its potential influence on the style of fluvial sedimentation in the fore‐mountain area. Three drainage basins that were active during the Elsterian and Saalian glaciations are investigated. Facies analyses are carried out on thick successions of braided river deposits covered with till or glaciolacustrine sediments, which result in a reconstruction of the fluvial activity synchronous with the ice‐sheet advance. The results suggest that fluvial activity declined prior to ice‐sheet advance into the fore‐mountain area. This climatically induced change is directly recorded in alluvial successions by upward‐decreasing bed thicknesses and grain sizes. River longitudinal profiles were shortened in front of the advancing ice sheet. The base level of the studied rivers, created by the ice‐sheet margin, rose in parallel with glacial advance. As a result, the successive reaches of rivers (degradational, transitional, aggradational) underwent shortening and moved upstream within the catchments. Moreover, tectonically induced local increases of river slopes may have influenced the depositional processes. 相似文献