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1.
Based on a well-established bio- and sequence-stratigraphic framework, a narrow time window in the Bimammatum ammonite zone
(Late Oxfordian) is investigated in six Swiss Jura sections representing a shallow-water carbonate platform. From the detailed
facies and microfacies analysis of oncoid-rich (Hauptmumienbank Member) and ooid-rich (Steinebach Member) limestones, a microfacies
classification is established, depositional environments are interpreted, and a depositional model for the Swiss Jura platform
is proposed. The sequence- and cyclostratigraphic interpretation has been performed for the transgressive part of the medium-scale
sequence Ox6+, independently for each section, with a very high time resolution at the scale of elementary depositional sequences.
The good correlation of the elementary and small-scale sequences between the six studied sections and the similar number of
elementary sequences in all sections strongly suggest that allocyclic processes were involved in their formation. The hierarchically
stacked depositional sequences (small-scale and elementary sequences) result from orbitally controlled sea-level changes with
periodicities of 100 and 20 kyr, respectively. Thickness variations in the correlated small-scale and elementary sequences
imply variable sedimentation rates, probably resulting from differential subsidence due to the activity of tectonic blocks.
The tectonically controlled platform morphology contributed significantly to the general pattern of depositional environments
and, combined with high-frequency sea-level fluctuations, created a complex facies distribution in time and space on the Swiss
Jura carbonate platform. 相似文献
2.
Classic stratigraphic methods rarely provide high‐resolution correlations between intrabasinal sedimentary sequences, which are important to understand the origin of sedimentation process and its environmental change. In this study, we investigate high‐resolution cyclostratigraphic correlation from magnetic susceptibility in two Early Kimmeridgian pelagic marl‐limestone successions, at La Méouge and Châteauneuf‐d'Oze, southeastern France. Spectral analysis reveals the complete suite of orbital frequencies (precession, obliquity, and eccentricity) with the marl‐limestone couplets being primarily precession‐driven. Frequencies detected by the spectral analysis are similar between the sections, but their relative amplitudes are somewhat different, linked to the palaeoenvironmental position and the completeness of the sections. High‐resolution correlation reveals two significant hiatuses at Châteauneuf‐d’Oze. Early Kimmeridgian Platynota, Hypselocyclum, and Divisum ammonite zones were orbitally calibrated for an ultra‐high resolution assessment of geological time. Finally, strong 405‐kyr eccentricity cycles are recorded as third‐order depositional sequences. 相似文献
3.
Facies, cycles, and controls on the evolution of a keep-up carbonate platform (Kimmeridgian, Swiss Jura) 总被引:2,自引:0,他引:2
During the Late Jurassic, accelerated ocean-floor spreading and associated sea-level rise were responsible for a worldwide transgression, which reached its maximum in the Late Kimmeridgian. In many Western European basins, this major sea-level rise led to the formation of marly and condensed sections. In the Swiss Jura, however, a shallow carbonate platform kept growing and only subtle changes in the stratigraphic record suggest an increasingly open-marine influence. Field observations and thin-section analyses reveal that the central Swiss Jura was at that time occupied by tidal flats and by more or less open marine lagoons where shoals and bioherms developed. The evolution through time of sedimentary facies and bed thicknesses permits the definition of small-, medium-, and large-scale depositional sequences. The diagnostic features of these sequences are independent of scale and seem largely controlled by the Kimmeridgian second-order transgression. A high-resolution sequence-stratigraphic correlation with biostratigraphically well-dated hemipelagic and pelagic sections in the Vocontian Basin in France reveals that: (i) The most important increase in accommodation recorded in the Kimmeridgian of the central Swiss Jura occurs in the Eudoxus ammonite zone (Late Kimmeridgian) and corresponds to the second-order maximum flooding recognized in many sedimentary basins. (ii) The small- and medium-scale sequences have time durations corresponding to the first and second orbital eccentricity cycle (i.e. 100 and 400 ka, respectively), suggesting that sedimentation on the platform and in the basin was at least partly controlled by cyclic environmental changes induced by insolation variations in the Milankovitch frequency band. The comparison of the high-resolution temporal framework defined in the Swiss Jura and Vocontian Basin with the sequence-stratigraphic interpretation realized in other Western European basins shows that the large-scale sequence boundaries defined in the Kimmeridgian of the Swiss Jura appear in comparable biostratigraphic positions in most Western European basins. Discrepancies that occur are probably because of local or regional tectonics. 相似文献
4.
Anomalous patterns of the sedimentary architecture have been recognized in passive margins, and only recently they have been associated with plate reorganization or compressional deformations propagating from distant margins. With the aim of discussing the sedimentary architecture and the potential tectonic perturbations to the passive margin pattern, we present the revision of the stratigraphy of a fossil passive margin, involved in the retrobelt of the Alpine orogeny. The main events at the transition from rifted to passive margin have been controlled by palaeoceanography, i.e. the trophic state of surface waters that hampered the carbonate photozoan productivity for a long period between Toarcian and Callovian. Toward the latest Bajocian–earliest Bathonian, the platform productivity increased, dominated by ooids. A regressional trend up to the Middle Bathonian allowed the rapid infilling of the previous rift basin. The successive aggradation in the platform was still dominated by non-skeletal grains until the Early Oxfordian. The Middle Oxfordian to Early Kimmeridgian was a time of recovery of the palaeoceanographic conditions allowing the establishment of a hydrozoan/coral rich platform. The sedimentation rates in the platform increased at the margin of the productive Friuli–Adriatic Platform. From Late Kimmeridgian on, the sedimentation rates at the platform margin returned to the pre-Oxfordian values. At the scale of the whole Adriatic Platform, the Middle Oxfordian to Early Kimmeridgian interval is variable in thickness from 0 to 800 m, and it depicts a couple of folds of around 80–100 km of wavelength. The subsidence analysis of wells and composite logs from literature suggests this interval as a perturbation to the passive margin trend of around 3 Myr of duration. We interpret this folding event, superimposed to the passive margin subsidence, as the far field expression of the transition from intraoceanic to continental obduction, occurred at the eastern Adria active margin. 相似文献
5.
德国北部盆地上侏罗统广泛发育,但野外露头地层普遍出露不全。Hildesheimer Wald地区Wendhausen 6井和Süntel山地区Eulenflucht 1井完整钻遇了上侏罗统牛津阶和启莫里阶地层,为分析该区晚侏罗世沉积演化过程及其所反映的古环境变化规律提供了丰富的资料。通过岩心描述和岩石薄片镜下观察,根据不同层段的颗粒成分、生物组合特征、沉积结构和构造等特征,在2口井的岩心中共划分出14个岩石类型,分别形成于碳酸盐岩斜坡和三角洲环境。建立了该区牛津阶和启莫里阶垂向沉积演化序列,垂向上由Heersum组到Süntel组,沉积环境逐步由外陆棚、内陆棚、临滨过渡到了开阔台地、潮坪环境,表现出了相对海平面降低的进积过程。同时对不同沉积相中保存较好的以低镁方解石为主要成分的牡蛎壳进行原位Mg/Ca值(古温度指标)测试,得出该区牛津期至启莫里期总体表现出了古气候变暖的趋势,且共有3次气候变暖过程。这一古气候变化与由沉积相分析得出的古气候变化一致,且同苏格兰、俄罗斯台地古温度变化趋势有很好的对应关系,表明古气候是控制该区沉积演化的一个重要因素,且牡蛎壳Mg/Ca值可以做为一个古气候指示指标应用于其他地区的古气候分析中。 相似文献
6.
Mohammad Ali Kavoosi 《Geological Journal》2016,51(4):523-544
Upper Callovian to Tithonian (late Jurassic) sediments represent an important hydrocarbon reservoir in the Kopet‐Dagh Basin, NE Iran. These deposits consist mainly of limestone, dolostone, and calcareous mudstone with subordinate siliciclastic interbeds. Detailed field surveys, lithofacies and facies analyses at three outcrop sections were used to investigate the depositional environments and sequence stratigraphy of the Middle to Upper Jurassic interval in the central and western areas of the basin. Vertical and lateral facies changes, sedimentary fabrics and structures, and geometry of carbonate bodies resulted in recognition of various carbonate facies related to tidal flats, back‐barrier lagoon, shelf‐margin/shelf‐margin reef, slope and deep‐marine facies belts. These facies were accompanied by interbedded beach and deep marine siliciclastic petrofacies. Field surveys, facies analysis, parasequences stacking patterns, discontinuity surfaces, and geometries coupled with relative depth variation, led to the recognition of six third‐order depositional sequences. The depositional history of the study areas can be divided into two main phases. These indicate platform evolution from a rimmed‐shelf to a carbonate ramp during the late Callovian–Oxfordian and Kimmeridgian–Tithonian intervals, respectively. Significant lateral and vertical facies and thickness changes, and results obtained from regional correlation of the depositional sequences, can be attributed to the combined effect of antecedent topography and differential subsidence related to local tectonics. Moreover, sea‐level changes must be regarded as a major factor during the late Callovian–Tithonian interval. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
7.
Climatic, oceanographic and ecological changes that control the formation and deposition of sediment in shallow and deep depositional environments commonly occur with periodicities of a few 10 000 years. Consequently, in order to interpret sedimentary sequences in the geological past, high time resolution is required. This is best obtained by cyclostratigraphy. Three sections have been studied in the Oxfordian of north-eastern Spain: one represents a shallow, siliciclastic-carbonate platform with repetitive subaerial exposures, one an intraplatform basin with sponge bioherms, and one a swell where iron ooids and glauconite formed. The platform section displays a well-defined stacking pattern of depositional sequences; the deeper-water sections are well dated by ammonites. The correlation between the three sections is a best-fit solution integrating biostratigraphy, sequence stratigraphy and cyclostratigraphy. It is concluded that the small-scale depositional sequences formed in tune with the 100-ka orbital eccentricity cycle. An additional factor was differential subsidence that ruled basin morphology. 相似文献
8.
Damien Carcel Claude Colombié Fabienne Giraud Bernard Courtinat 《Sedimentary Geology》2010,223(3-4):334-359
Boreal and Tethyan realms of Western Europe present significant sedimentological, paleontological, and stratigraphic differences. The purpose of this study is to constrain regional versus global controls on the dynamics of a sedimentary system located at the interface of these two realms in order to better understand the origin of their differences. Detailed sedimentological, palynofacies and calcareous nannofossil analyses were performed on two sections from the La Rochelle platform (western France). The Pas section includes part of the Late Oxfordian and Early Kimmeridgian, and the Rocher d'Yves section is assigned to the Late Kimmeridgian. They correspond to monotonous marl–argillaceous limestone alternations. Limestones are essentially mudstones with echinoderms, bivalves and foraminifera that suggest low-energy, open-marine conditions. Highly bioclastic and/or peloidal deposits occur commonly, and show wackestones to wacke-pack-grainstones textures. These deposits indicate frequent high-energy events, and are interpreted as storm deposits. Marls dominate in the most proximal depositional environments, while calcareous deposits are more important in more distal environments. The Rocher d'Yves section is globally more marly than the Pas section, suggesting a more proximal setting. Palynofacies are dominated by woody particles, suggesting shallow-water, proximal depositional environments. Calcareous nannofossils are ascidian spicules, coccoliths, and schizospheres. Watznaueria britannica dominate calcareous nannofossil assemblages in the Pas section. The Rocher d'Yves assemblages are quasi-exclusively composed of Cyclagelosphaera margerelii, and indicate more proximal paleoenvironments than those of the Pas section. Different orders of depositional sequences are defined, with sequence boundaries corresponding to the most rapid relative sea-level falls. They are hierarchically stacked, and correlate, on the basis of ammonite zones, with the sequences of contemporaneous sections from Tethyan and boreal realms. The stacking pattern of these sequences suggests an orbital control on sedimentation. Small-, medium- and large-scale sequences correspond to precession (20 ky) cycles and to 100 ky and 400 ky eccentricity cycles, respectively. The elementary sequences have durations shorter than 20 ky. The Kimmeridgian was a period of global sea-level rise that ended in the Late Kimmeridgian. More proximal depositional environments in the Rocher d'Yves section (Late Kimmeridgian) than in the Pas section (Early Kimmeridgian) imply a progradation of the La Rochelle platform during the Kimmeridgian. This progradation resulted from a slowdown of the subsidence in the Aquitaine Basin during the Kimmeridgian, corresponding to the first steps of Atlantic Ocean opening. High-frequency cycles on the La Rochelle platform formed in sync with Milankovitch orbital cycles, while tectonics controlled the formation of the low-frequency cycles. 相似文献
9.
The origin of third-order depositional sequences remains debatable, and in many cases it is not clear whether they were controlled by tectonic activity and/or by eustatic sea-level changes. In Oxfordian and Berriasian–Valanginian carbonate-dominated sections of Switzerland, France, Germany and Spain, high-resolution sequence-stratigraphic and cyclostratigraphic analyses show that the sedimentary record reflects Milankovitch cyclicity. Orbitally induced insolation changes translated into sea-level fluctuations, which in turn controlled accommodation changes. Beds and bedsets formed in rhythm with the precession and 100-kyr eccentricity cycles, whereas the 400-kyr eccentricity cycle contributed to the creation of major depositional sequences. Biostratigraphical data allow the correlation of many of the 400-kyr sequence boundaries with third-order sequence boundaries recognized in European basins. This implies that climatically controlled sea-level changes contributed to the formation of third-order sequences. Furthermore, this cyclostratigraphical approach improves the relative dating of stratigraphic intervals. 相似文献
10.
The Valanginian is a period of global environmental change as illustrated by sedimentary, palaeontological, geochemical and climatic perturbations. A production crisis in most of the carbonate platforms suggests important changes in palaeoenvironmental conditions. During the same time interval, a major positive excursion in δ13C, the Weissert Event, suggests perturbations of the carbon cycle from the latest Early Valanginian to the Early Hauterivian. In order to better understand the link between these changes, sea‐level fluctuations have been reconstructed in detail from the Middle Berriasian to the earliest Hauterivian. Sections from the Peri‐Vocontian Zone (South‐east France) have been investigated because of the good quality of outcrops on the carbonate platforms, their margins and in the Vocontian Basin. Sections ranging from the most proximal zone (Swiss Jura) to the basin were interpreted in terms of sequence stratigraphy and cyclostratigraphy, and correlated at high resolutions. Using the identified small, medium and large‐scale sequences as well as depositional geometries, sea‐level fluctuations were reconstructed. Two main trends are evidenced during the studied interval: (i) the peak amplitude (magnitude) of the sea‐level fluctuations increased gradually from the Middle Berriasian to the Early Valanginian, and reached a maximum (more than 50 m) from the middle Early Valanginian to the Valanginian/Hauterivian boundary; and (ii) sea‐level variations were quite symmetrical during the Late Berriasian, slightly asymmetrical during the Early Valanginian and strongly asymmetrical (fast sea‐level rise, slow fall) from the latest Early Valanginian to the earliest Hauterivian. Moreover, three orders of sea‐level fluctuations were recognized in the sedimentary rocks of the Peri‐Vocontian Zone. Platform‐basin correlations and cyclostratigraphic interpretations of the basinal sections evidence an astronomical control on the sea‐level variations, mainly by the two eccentricity cycles of 100 and 400 kyr. The increase in the amplitude of the sea‐level fluctuations and their change from symmetrical to asymmetrical can be related to the onset of a major cooling event in the Early Valanginian. Fast transgressions followed by slower regressions would correspond to waxing and waning of high‐latitudinal ice during most of the Valanginian, especially from the latest Early Valanginian to the latest Late Valanginian. Glacio‐eustatic sea‐level fluctuations in tune with the 100 and 400 kyr eccentricity cycles are in agreement with glaciations during the Valanginian. 相似文献
11.
B.L. Nikitenko V.G. Knyazev N.K. Lebedeva E.B. Peshchevitskaya R.V. Kutygin 《Russian Geology and Geophysics》2011,52(9):963-978
The Oxfordian–Lower Hauterivian section of the Nordvik Peninsula (northern Central Siberia) is a reference for developing zonal scales for various fossil groups and improving the Boreal zonal standard. In the middle 1950s–late 1980s, it was studied extensively by geologists, stratigraphers, lithologists, and experts on various fossil groups. These studies yielded rich fossil and microfossil collections and a set of parallel zonal scales for various faunal groups. Recently, a new detailed ammonite zonation of the Oxfordian and Kimmeridgian units of this section has been proposed. These results contradict the previous biostratigraphic data on ammonites, foraminifers, and palynomorphs. In the present paper, all the biostratigraphic data on the Oxfordian and Kimmeridgian units of the Nordvik Peninsula (Cape Urdyuk-Khaya) and northern Central Siberia undergo a comprehensive analysis and comparison with those on the Boreal Realm. The ammonite-constrained stratigraphic position of the lower Upper Jurassic in the Cape Urdyuk-Khaya section is interpreted as Upper Oxfordian or Middle Oxfordian. In our view, this difference in the understanding is due to the misidentification of some Oxfordian ammonite forms. The zones based on other fossil groups (foraminifers, dinocysts) which were distinguished in the Upper Oxfordian and Kimmeridgian sections of the Nordvik Peninsula are well traceable circumarctically. Their stratigraphic position in various regions of the Northern Hemisphere is constrained by ammonites and bivalves. However, if we use the last alternative ammonite zonation of this section part, hardly explicable contradictions will appear in interregional foraminiferal and dinocyst correlations. 相似文献
12.
基于米兰科维奇理论的高精度旋回识别与划分--以南图尔盖盆地Ary301井中侏罗统为例 总被引:2,自引:2,他引:0
将天文轨道周期与不同级别的旋回联系起来,旨在使米兰科维奇周期这一高精度时间标尺纳入高频层序地层划分中,实现高精度旋回的识别与划分。以哈萨克斯坦南图尔盖盆地Aryskum地堑Ary301井为例,基于不同沉积特征,分别对卡拉甘塞组I~IV段自然伽马测井数据进行频谱分析和连续小波变换,结果显示沉积地层中保存完好的米兰科维奇旋回,天文轨道周期对Aryskum地堑沉积过程具有明显影响,并将31.9~39.5 m旋回厚度解释为受400 kyr长偏心率周期控制,11.9~14.2 m,6.7~8.8 m旋回厚度分别受125 kyr和95 kyr短偏心率周期控制。对长、短偏心率周期进行滤波分析后,与天文模型理论周期曲线进行对比,建立卡拉甘塞组的浮动天文年代标尺,分别以400 kyr、125 kyr偏心率周期滤波曲线作为中期和短期旋回划分的参考曲线,共识别出11.5个中期旋回和47个短期旋回,为高频旋回划分提供了一种不受人为因素影响的天然标准,保证了研究区旋回划分的科学性和统一性。 相似文献
13.
The study of sedimentary facies in the quarry of Dompcevrin (Middle Oxfordian) located northwestward of St-Mihiel (Meuse department) provides evidences of high-energy depositional conditions. The occurrence of beaches associated with hurricane coral breccias containing megaclasts is characteristic of platform edge environments. The open sea was located northeastward, in the direction of Germany, as it is indicated by the direction of progradation of beaches. It is concluded that the Oxfordian carbonate platform of Lorraine was opened to the northeast toward the Germanic Sea during the Middle Oxfordian. To cite this article: C. Carpentier et al., C. R. Geoscience 336 (2004). 相似文献
14.
H.-J. Gawlick W. Frisch A. Vecsei T. Steiger F. Böhm 《International Journal of Earth Sciences》1999,87(4):644-657
Facies analysis, fossil dating, and the study of the metamorphism in the Late Triassic to Early Cretaceous sedimentary successions in the central part of the Northern Calcareous Alps allow to reconstruct the tectonic evolution in the area between the South Penninic Ocean in the northwest and the Tethys Ocean with the Hallstatt Zone in the southeast. The Triassic as well as the Early and Middle Jurassic sediments were deposited in a rifted, transtensive continental margin setting. Around the Middle/Late Jurassic boundary two trenches in front of advancing nappes formed in sequence in the central part of the Northern Calcareous Alps. The southern trench (Late Callovian to Early Oxfordian) accumulated a thick succession of gravitatively redeposited sediments derived from the sedimentary sequences of the accreted Triassic–Liassic Hallstatt Zone deposited on the outer shelf and the margin of the Late Triassic carbonate platform. During a previous stage these sediments derived from sequences deposited on the more distal shelf (Salzberg facies zone of Hallstatt unit, Meliaticum), and in a later stage from more proximal parts (Zlambach facies zone of Hallstatt unit, Late Triassic reef belt). Low temperature–high pressure metamorphism of some Hallstatt limestones before redeposition is explained by the closure of parts of the Tethys Ocean in Middle to Late Jurassic times and associated subduction. In the northern trench (Late Oxfordian to Kimmeridgian) several hundred meters of sediment accumulated including redeposited material from a nearby topographic rise. This rise is interpreted as an advancing nappe front as a result of the subduction process. The sedimentary sealing by Tithonian sediments, documented by uniform deep-water sedimentation (Oberalm Formation), gives an upper time constraint for the tectonic events. In contrast to current models, which propose an extensional regime for the central and eastern Northern Calcareous Alps in the Late Jurassic, we propose a geodynamic model with a compressional regime related to the Kimmerian orogeny. 相似文献
15.
Ammonite biostratigraphy plays a central role in the definition of Jurassic stratigraphy. Nevertheless, the strong provincialism
of European ammonite species during the Kimmeridgian is a long-standing problem in correlation attempts between the boreal
and Tethyan faunal realms. Moreover, the sequence-stratigraphic interpretations for northern and southern Europe given in
the Jurassic chronostratigraphic chart of Hardenbol et al. in SEPM Publ. 60 (chart) (1998) are different. The present study
aims to resolve this correlation problem in order to better understand the connections between the boreal and the Tethyan
realms during the Kimmeridgian. A sedimentological and high-resolution sequence-stratigraphic interpretation is presented
for two unpublished sections (Cras d’Hermont and Roche de Mars) in the northern Swiss Jura, where recently discovered ammonites
display both boreal and Tethyan influences. Then, these sections are correlated with the same time interval in the central
Swiss Jura and Vocontian Basin, which belong to the Tethyan realm. Lastly, a long-distance transect is constructed between
the Vocontian Basin, Swiss Jura, northern France, and southern England, the last two areas being part of the sub-boreal realm.
The main results of this work are that: (1) third-order depositional sequences, and also higher-frequency sequences, can be
correlated from the Tethyan to the boreal realm; (2) the sequence-stratigraphic interpretation given by Hardenbol et al. in
SEPM Publ 60 (chart) (1998) for northern Europe seems to be accurate and agrees with the sequence-stratigraphic framework established in the Swiss Jura;
(3) the Late Kimmeridgian of the Swiss Jura displays boreal influences; (4) integrated high-resolution sequence-stratigraphic
and cyclostratigraphic studies are a valuable approach for bridging the correlation gap between northern and southern Europe. 相似文献
16.
本文通过对辽西朝阳地区含鸟化石层附近侏罗-白垩系蓝旗组、土城子组、义县组地层共1252块古地磁样吕的测试与分析,建立了以上沉积地层的磁极性序列,发现蓝旗组、土城子组地层的磁极性序列具有频繁的正、反极性、而义县组则为单一正极性,结合现有古生物和同位素年龄资料,对比国际中生代地磁极性年表,表明土城子组的磁极性序列相当于提塘期、基末里期、牛津期和卡洛期,其主体的地质时代应属晚侏罗世(J3),土城子组底部的地质时代应属中侏罗世(J2);并且根据义县组含鸟化石层以上层位的磁性地层研究结果,认为义县组含鸟化石的正极性带可与M16正极性时相对应,义县组含鸟类化石层的时代应属早白垩世早期,辽西白垩系/侏罗系界线很有可能位于义县组/土城子组之间。 相似文献
17.
18.
旋回地层学是利用已知的地球轨道天文周期, 对地层记录的周期性变化进行识别、解释的地层学新兴分支学科。在过去近30年, 旋回地层学研究取得了一系列重要进展, 对于认识地质历史时期的气候变化、重大地质事件的天文驱动、天文运行规律等诸多科学问题做出了重要贡献;同时, 基于此研究建立的天文年代标尺, 也成为一种新的高精度地质定年方法, 被应用于国际地质年代表的编制以及地表地质过程年代及持续时间的精确标定。然而, 全球旋回地层学研究主要集中在显生宙, 并以中、新生代最为详细。对于更早的占地球历史约7/8 的前寒武纪时期, 相关研究较少, 但一些新研究显示了可靠的天文沉积旋回可能存在的证据。因此, 前寒武纪有可能成为旋回地层学研究新的突破方向。中国华北克拉通北缘元古代地层沉积旋回非常发育, 具有开展旋回地层学研究的潜力。 相似文献
19.
泥盆-石炭纪过渡期是地球演化过程中的一个重要阶段,发生了地球气候系统从温室向冰室转型和生物灭绝等重大事件。准确且高分辨率的年代格架是理解这些事件的基础。本文利用高分辨率磁化率作为古气候替代指标,对贵州省长顺县睦化Ⅱ剖面和大坡上剖面以及广西壮族自治区南丹县度里剖面的泥盆-石炭系界线附近深水沉积序列进行旋回地层学研究。识别出受到短偏心率、斜率和岁差控制的沉积旋回厚度分别为1.092.39、0.290.73、0.180.51 m。利用轨道短偏心率进行天文校准,结果证实泥盆纪晚期短偏心率、斜率、岁差周期分别为约100、32.227.2和20.915 ka。利用大坡上剖面已知的U-Pb放射性同位素年龄和天文校准结果建立高精度浮动天文年代标尺并进行旋回地层对比。确定了泥盆-石炭系界线附近牙形类生物带和Hangenberg生物灭绝事件的持续时间,并计算出泥盆-石炭系界线年龄为(359.58±1.9) Ma。 相似文献
20.
土库曼斯坦阿姆河盆地是世界上著名的大型含油气沉积盆地,然而目前盆地内卡洛夫—牛津阶的层序划分和地层对比依然存在争议。基于Vail经典层序地层学及沉积学相关理论,以阿姆河右岸B区29口井的岩心资料及50口井的测井资料为依据,结合地震、薄片、地球化学等手段,开展了阿姆河右岸B区卡洛夫-牛津阶的层序地层研究。将阿姆河右岸B区卡洛夫-牛津阶划分为5个三级层序和15个四级层序,其中卡洛夫阶包括2个三级层序(SQ1和SQ2),牛津阶分为3个三级层序(SQ3-SQ5)。在高精度层序划分的基础上,建立了研究区的层序地层格架,在垂向上,各级层序格架内部高位域生屑砂屑灰岩及礁滩体沉积更为发育;在平面上,根据不同层序沉积几何体和沉积相的分布,明确提出了卡洛夫期和牛津期发育两种不同的碳酸盐岩台地类型的观点:SQ1-SQ2时期(卡洛夫期)研究区应为缓坡型台地,初始具有西高东低的地貌,坡度较缓,沉积速率差别不大,主要发育缓坡台地层序地层模式;SQ3-SQ5时期(牛津期)则演化为镶边台地,研究区沉积速率远小于A区,随着海平面变化形成了差异巨大的西高东低沉积地貌。 相似文献