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地层方面,进一步发现海相侏罗纪地层;新发现一批化石和化石组合;华南新元古年代裂谷盆地从82 0Ma接受沉积;在高黎贡山地区的中二叠世地层中新发现了迷齿类两栖脊椎动物化石。构造方面,在鲜水河断裂带北东边界断裂首次发现一条大型韧性剪切带;黔中古陆发育有区域性的滑脱构造带。岩石方面,获得若干岩体的同位素年龄;黔中地区新元古界下江群底部新发现基性火山岩。 相似文献
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新疆北部脊椎动物化石层位及其有关问题的讨论 总被引:3,自引:1,他引:3
新疆北部脊椎动物化石较为系统的研究始于1928年,袁复礼等在吉木萨尔、乌鲁木齐、吐鲁番一带进行了考察和采集。解放以来,在新疆北部广大地区自二叠系以上的地层中普遍发现脊椎动物化石的踪迹,尤其是六十年代中期,古脊椎所考察队在准噶尔盆地和吐鲁番盆地,进行了系统的调查和发掘,为研究新疆北部二叠系以上地层和脊椎动物化石提供了有力的依据。新疆北部二叠纪一第四纪的陆相地层出露完整,剖面基本连续,为世界上所少有。本文是在编制《西北地区区域地层表新疆维吾尔自治区分册》(下面简称新疆地层表)和古生物图册的基础上对脊椎动物化石的层位和有关问题作初步的总结和讨论。 相似文献
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地层古生物研究工作对促进基础地质发展,指导矿产勘查等具有十分重要的意义。近年来山东省地质科学研究院通过对全省地层古生物化石研究,在生物地层、年代地层方面取得了重要进展;通过开展全国古生物化石保护工程规划研究、山东省重要古生物化石保护规划研究、胶莱盆地白垩纪脊椎动物化石保护、开发方案与规划研究等,为古生物化石保护、开发规划及其编制提供了科学依据;通过对济南、临沭、诸城、莱阳、临朐、莒南等地质公园古生物化石的调查研究,为地质公园的科学定位、科学研究、科学普及以及地学旅游发展提供了重要的科学指导,对推动社会经济可持续发展起到了支撑作用;通过开展地层古生物研究,为相关的地质找矿工作提供了基础理论依据;通过以上工作,为山东省培养了一批地层古生物人才,建立了一支技术过硬、力量雄厚、结构合理的专家团队。 相似文献
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《沉积与特提斯地质》2005,25(1):119-122
地层方面,进一步发现海相侏罗纪地层;新发现一批化石和化石组合;华南新元古年代裂谷盆地从820Ma接受沉积;在高黎贡山地区的中二叠世地层中新发现了迷齿类两栖脊椎动物化石。构造方面,在鲜水河断裂带北东边界断裂首次发现一条大型韧性剪切带;黔中古陆发育有区域性的滑脱构造带。岩石方面,获得若干岩体的同位素年龄;黔中地区新元古界下江群底部新发现基性火山岩。 相似文献
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分子地层学,也可称作分子古生物学(Molecular Palaeontology),是研究沉积地层中被称做“分子化石”(Molecular fossil)的学科。所谓分子化石是指沉积物(岩)中那些来自生物遗体、具有一定沉积、地层和古生物学意义的有机分子,虽然经历过成岩作用的变化,但它们仍保留有原来的化学结构。分子地层学是一门介于沉积、地层、古生物学和生物学、有机化学之间的边缘杂交学科。60年代后期,G.Eglinton和M.Calvin(1967)发表了“化学化石”的著名论文。随后,M.Calvin(1969)在《化学进化》一书中撰写了“分子古生物学”的章节。70年代后期,B.P.Tissot和D.H.Welte(1978)对“地球化学化石”的研究进行了总结。这些 相似文献
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根据昌乐、临朐一带古近-新近纪地层重点勘查成果及发现的孢粉、微体及腹足类化石等资料,认为昌乐五图组中的煤及油页岩地层年代为古近纪中始新世;临朐牛山七贤店山沟中出露的一套粘土岩、泥岩夹含油泥岩,可与五图组上煤段对比,其地层年代为中始新世晚期;临朐山旺村山沟中出露的一套粘土岩夹硅藻岩等,前人认为地层年代为中新世山旺组.本次勘查获得的孢粉谱对其提供了佐证;柳山坪南头村山顶上出露一套厚层花岗质含砾粗砂岩(底部夹泥煤一层),平覆在花岗片麻岩山顶,依孢粉谱与山旺组对比,其地层年代要晚于山旺组,可与尧山花岗片麻岩山顶的尧山组相比。地层年代属于上新世尧山组。 相似文献
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山东临朐产出的中新世山旺组化石群,保存精美、属种分异度高。50多年来,经发掘和研究,目前已从约30余米的硅藻页岩沉积中报导了真菌、硅藻、介形虫、孢粉、昆虫、鱼类、两栖动物、爬行类、鸟类、哺乳动物及遗迹化石等十几个门类的化石,共计400余属700多种。本文总结了化石与周围无机界的关系、化石的埋藏特征、形成原因以及相关古生态学问题――古气候、古温度、古纬度、古地形、山旺湖的水文性质、湖水的季节性变化与硅藻页岩的纹层、动植物群的营养结构以及山旺盆地的沉积历史。 相似文献
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山旺古火山口的发现与山旺化石的形成环境 总被引:3,自引:2,他引:1
鲁西山旺组地层由于层理极簿和保存有大量精美化石而著称。过去曾认为山旺组是沉积在深度不大的淡水剥蚀盆地之中,1981年经笔者实地考察,发现所谓的“山旺盆地”实际上是一个典型的双重式火山口,定名为“山旺古火山口”。山旺组岩层皆沉积在火山口中,属火口湖相。在山旺火山口中,由于水质和水温异常,除硅藻外其它正常生物很难生存,外界生物落入其中,既不能生活,死后也不能被其它生物所食或被细菌分解,因而,可以被完整地保存下来,成为有骨有肉,有毛有羽的精美化石, 相似文献
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史家沟组的时代归属一直存在争议。在系统梳理山东省史家沟组地层划分沿革的基础上,对蓬莱、长岛和无棣3个地区的11个史家沟组露头剖面进行系统采样,获取了14个K-Ar年龄和2个ESR年龄,通过与前人测年数据对比分析,发现在山东境内仅在无棣碣石山(0.87 Ma)和蓬莱市北沟镇迎口山(1.51 Ma)出露有第四纪更新世玄武岩,其他测试年龄均为新近纪(9.24~5.02 Ma)。蓬莱和长岛地区的玄武岩地层多属中新世晚期(蓬莱北沟镇迎口山除外)尧山组,仅有少量属第四纪史家沟组。建议将无棣大山、蓬莱北林院迎口山区域玄武岩划为第四纪,其他区域出露的第四纪史家沟组划为新近纪。 相似文献
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黑龙江鸡东盆地是受古、新近纪敦密断裂带作用而形成的断陷含煤盆地。依据该盆地91-205钻孔永庆组的岩性变化特点和盆地构造演化阶段,识别和阐述了中中新世湖盆发育的3个阶段,即早期湖泊形成发展阶段、中期湖泊扩张最大阶段和晚期湖泊收缩衰退阶段,并揭示湖泊阶段性发展的旋回性特征。根据孢粉资料,恢复湖盆各个不同发育阶段的古植被面貌,重建当时的古气候。结果表明植被经历了北亚热带含常绿阔叶成分的落叶阔叶林、暖温带—北亚热带落叶阔叶林以及含亚高山针叶树种的暖温带—北亚热带落叶阔叶林阶段,鸡东盆地中中新世湖泊的演变和植被更替存在着潜在的关联。 相似文献
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山东临朐山旺地区中新世山旺组硅藻土极为发育。通过对该地区硅藻土纹层的研究,确定其分类和成因,为进一步确立年纹层的存在、利用其进行高分辨率测年、探讨高频古气候旋回奠定基础。山旺组硅藻土的单层纹层厚度一般为100μm左右。依据纹层的物质成分,单层纹层可分为硅藻纹层、有机纹层和粘土纹层三种类型。各类单层纹层组合成为明暗相间的层偶,层偶厚度一般为100~400μm,常常表现为浅色的硅藻纹层逐渐向深色的粘土纹层或有机质纹层渐变过渡。纹层层偶可分为:薄层硅藻纹层-有机质层偶,厚层藻纹层-有机质层偶,薄层粘土纹层-有机质层偶,厚层粘土纹层-有机质层偶和硅藻纹层-粘土纹层层偶。山旺组硅藻土中不同类型的单层纹层以及层偶的形成主要受控于当时湖盆内粘土物质的沉积速率、硅藻的繁盛程度和有机物质的沉积和保存条件。 相似文献
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Sedimentary facies, depositional environments and palaeogeographic evolution of the Neogene Denizli Basin, SW Anatolia, Turkey 总被引:2,自引:0,他引:2
The Denizli Basin (southwestern Anatolia, Turkey) contains a record of environmental changes dating since the Early Miocene. Detailed facies analysis of the Neogene formations in this half-graben enables us to document successive depositional regimes and palaeogeographic settings. Sedimentation commenced in the Early Miocene with the deposition of alluvial-fan and fluvial facies (K?z?lburun Formation). At this stage, alluvial fans sourced from elevated areas to the south prograded towards the basin centre. The Middle Miocene time saw the establishment of marginal lacustrine and wetland environments followed by the development of a shallow lake (Sazak Formation). The uppermost part of this unit consists of evaporitic saline lake and saline mudflat facies that grade upward into brackish lacustrine deposits of Late Miocene-Pliocene age (Kolankaya Formation). The lake became shallower at the end of the Pliocene time, as is indicated by expansion shoreface/foreshore facies. In the Early Quaternary, the Denizli Basin was transformed into a graben by the activation of ESE-trending normal faults. Alluvial fans were active at the basin margins, whereas a meandering river system occupied the basin central part.Oxygen isotope data from carbonates in the successive formations show an alternation of wetter climatic periods, when fresh water settings predominated, and very arid periods, when the basin hosted brackish to hypersaline lakes. The Neogene sedimentation was controlled by an active, ESE-trending major normal fault along the basin's southern margin and by climatically induced lake-level changes. The deposition was more or less continuous from the Early Miocene to Late Pliocene time, with local unconformities developed only in the uppermost part of the basin-fill succession. The unconformable base of the overlying Quaternary deposits reflects the basin's transformation from a half-graben into a graben system. 相似文献
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Neogene Paleoseismic Events and the Shanwang Biota’s Burial in the Linqu Area, Shandong Province, China 总被引:2,自引:0,他引:2
Several paleoseismic events are recorded in the Neogene Linqu Group, exposed in the Linqu area, Shandong Province, China. The events were interpreted on the basis of fieldwork and laboratory analysis, which showed the presence of seismites with plastically deformed soft-sediment deformation structures in the Shanwang Formation, and of seismic volcanic rocks in the Yaoshan Formation which show brittle deformation. The earthquake-triggered soft-sediment deformations in the seismites include load structures, ball-and-pillow structures, flame structures, pillow-like beds, boudinage structures, slump folds, syn-depositional faults, veins of liquefied sand, and dikes of liquefied sandy lime-mud. The seismic activity is also reflected in what might be called ‘brittle seismites'; these originated when, under the influence of seismic vibrations, semi-consolidated conglomerate was shattered. Moreover, volcanic activity is related to intense earthquakes that affected basalts intercalated with sand layers; these successions are known as ‘seismic volcanic rocks', which are characterized by veins of liquefied sand intruding the basalts. All above traces of paleoseismic activity were left from one single time span of 4 Ma with active seismicity that took place 14–10 Ma. This time span is known as ‘the Linqu Neogene Paleoseismic Active Period', which is divided into four paleoseismic episodes, which were responses to tectonic extension and basin rifting in this area. It even includes the activity of the Yishu Fault Zone during the Miocene and the Neogene. The ratios of trace elements in the seismites, w(La)/w(Sc) and w(La)/w(Th) are higher than the average value of the upper crust, but w(Th)/w(Sc) is lower; this is geochemical evidence for the basin rifting that resulted in a high sedimentation rate. The intense and frequent paleo-earthquakes are held responsible for the rapid burial of the Shanwang Biota. Secondary earthquake-induced processes(e.g. slumping of a lake shore and the strongly increased lacustrine sedimentation rate) contributed to the rapid burial of the biota. 相似文献