Progress and review of the studies on the end-Triassic mass extinction event

The mass extinction at the end-Triassic is one of the five biggest in the Phanerozoic. However,it is the least well understood among these five events, and only till last decade it became a great academic interesting subject to geologists. The evidences for this event come obviously from bivalves, brachiopods, ammonites, corals, radiolaria, ostracods and foraminifera of marine habitats, and plants and tetrapods of terrestrial realm. By contrast, for some of other groups, such as marine gastropods and marine vertebrates, no mass extinction has been recog-nized yet. The extinction event is strongly marked at specific level but shown a complicated situa-tion at generic and family levels. Dramatic changing of the environment, such as the temperature raise due to the greenhouse effect, the marine anoxic habitats caused by a sudden transgression after the regression at the end of Triassic, has been claimed to be the main cause of the extinction. Many hypotheses have been suggested to demonstrate the mechanisms of the environment changing, among which two popular ones are the bolide impact and volcanic eruption. The Triassic-Jurassic (Tr-J) boundary mass extinction event is still poorly understood because no enough data have been obtained from the Tr-J boundary successional sections of both marine and terrestrial sediments, and most of these studies were regionally restricted. The basic aspects of the event and its associated environmental conditions remain poorly characterized and the causal mechanism or mechanisms are equivocal. Some authors even doubt its occurrence. China has many successionally developed terrestrial and marine Tr-J sections. Detailed studies of these sections may be important and significant for well understanding of the event.

Terrestrial End-Triassic Mass Extinction and the Triassic/Jurassic Boundary of the Junggar Basin,NW China:A Brief Review

1 Introduction The end-Triassic mass extinction event is one of the five global mass extinctions,and destroyed both the marine and terrestrial biological worlds.Though years the marine endTriassic mass extinction(ETE)event has been widely studied and discussed,and the standard marine Triassic/Jurassic boundary(TJB)(base-Jurassic)has also been determined.However.

Stratigraphical Time——Correlation and Mass Extinction Event Near Permian——Triassic Boundary in South China

Shaw's method used to correlate 40 sections across the Permo-Triassic boundary in South China is applied in the paper. Two steps are adopted to get an Integral Composite Section (ICS) by synthesizing these data : First , South China is divided into five areas and composite section developed for each area . Then the second step . the Changxing composite section is regarded as a composite standard (CSRS) while the ICS is produced by matching the CSRS with composite sections of the other areas. Three biozones in the Changxingian and two biozones in the Griesbachian can be discerned on the basis of computing Z values in the ICS. These biozones are marked by the Z values which quantitatively represent their time ranges ; therefore , they may increase accuracy of stratigraphic time correlation . The mass extinction at the end of the Permian is an abrupt event that is supported by the relative rate of extinction near the P/T boundary . About 90% of invertebrate species died out by the end of the Permian . The duration of the mass extinction is rather short ,approximately 0.018Ma .

Beef and cone-in-cone calcite fibrous cements associated with the end-Permian and end-Triassic mass extinctions： Reassessment of processes of formation

This paper reassesses published interpretation that beef and cone-in-cone （B-CIC） fibrous calcite cements were precipitated contemporaneously just below the sea floor in uncon- solidated sediment, in limestones associated with the end-Permian （P/T） and end-Triassic （T/J） mass extinctions. That interpretation introduced the concept of a sub-seafloor car- bonate factory associated with ocean acidification by raised carbon dioxide driven by volcanic eruption, coinciding with mass extinction. However, our new fieldwork and petrographic analysis, with literature comparison, reveals several problems with this concept. Two key points based on evidence in the T/J transition of the UK are： （I） that B-CIC calcite deposits form thin scattered layers and lenses at several horizons, not a distinct deposit associated with volcanic activity; and （2） B-CIC calcite is more common in Early Jurassic sediments after the extinction and after the end of the Central Atlantic Magmatic Province volcanism proposed to have supplied the carbon dioxide required. Our samples from Late Triassic, Early Jurassic and Early Cretaceous limestones in southern UK show that B-CIC calcite occurs in both marine and non-marine sediments, therefore ocean processes are not mandatory for its formation. There is no proof that fibrous calcite was formed before lithification, but our Early Jurassic samples do prove fibrous calcite formed after compaction, thus interpretation of crystal growth in uncon- solidated sediment is problematic. Furthermore, B-CIC crystals mostly grew both upwards and downwards equally, contradicting the interpretation of the novel carbonate factory that they grew preferentially upwards in soft sediment. Finally, Early Jurassic and Early Cretaceous examples are not associated with mass extinction. Three further key points derived from the literature include： （I） B-CIC calcite is wide- spread geographically and stratigraphically, not clustered around mass extinctions or the Paleocene-Eocene Thermal Maximum （PETM） event; （2） isotope signatures suggest B-CIC calcite formed under high pressure in burial at 70-120℃, incompatible with interpretation of formation of B-CIC calcite at the redox boundary below the ocean floor; and （3） B-CIC calcite reported in P/T boundary microbialites in one site in Iran is the only occurrence known despite extensive published studies of similar shallow marine settings, demon- strating its formation is localized to the Iran site. Based on the above evidence, our opinion is that B-CIC calcite is best explained as a later diagenetic feature unrelated to rapid Earth-surface environmental change associated with mass extinctions; thus a novel carbonate factory is highly unlikely.

Paleoecological Response of Corals to the End-Triassic Mass Extinction： An Integrational Analysis

The end-Triassic （also Triassic-Jurassic） mass extinction severely affected life on planet Earth 200 million years ago. Paleoclimate change triggered by the volcanic eruptions of the Central Atlantic Magmatic Province （CAMP） caused a great loss of marine biodiversity, among which 96% coral genera were get lost. However, there is precious little detail on the paleoecology and growth forms lost between the latest Triassic extinction and the Early Jurassic recovery. Here a new pilot study was conducted by analyzing corallite integration levels among corals from the latest Triassic and Early Jurassic times. Integration levels in corals from the Late Triassic and Early Jurassic were determined through both the Paleobiology Database as well as from a comprehensive museum collection of fossil corals. Results suggest that in addition to a major loss of diversity following the end-Triassic mass extinction, there also was a significant loss of highly integrated corals as clearly evidenced by the coral data from the Early Jurassic. This confirms our hypothesis of paleoecological selectivity for corals following the end-Triassic mass extinction. This study highlights the importance of assigning sim- ple to advanced paleoecological characters with integration levels, which opens a useful approach to understanding of mass extinction and the dynamics of the recovery.

硫对地球早期演化和重大地质事件的制约

硫是地球上的关键元素,是重要的氧化剂、示踪剂和挥发分元素,在约束地球演化和诸多地质过程方面起着至关重要的作用。硫是地核中最主要的轻元素之一,在核幔分异过程中,大量硫进入地核;整体硅酸盐地球与球粒陨石的δ^(34)S差异暗示核幔分异过程中可能存在硫同位素分馏或地球早期存在显著的H_(2)S逃逸。硫同位素非质量分馏(S-MIF)是限定大氧化事件发生、起始时间以及增氧过程最重要的手段,陆壳出露海面造成火山喷气硫种型的变化可能是大氧化事件形成机制之一;海相硫酸盐与沉积硫化物的δ^(34)S差异是反演地史上海水硫酸盐含量进而限定大气氧含量的有效工具。此外,古老克拉通地体金刚石中S-MIF信号揭示了板块构造的启动时间,特殊地层中S-MIF异常指示了超级火山喷发与生物大灭绝的成因联系,海水δ^(34)S突变可能记录了大火成岩省及其诱发的环境剧变事件。本文对硫在地球早期演化和重大地质事件方面所扮演的角色进行了较为系统的综述和总结。

奥陶纪-志留纪边界附近火山活动记录:来华南周缘钾质斑脱岩的信息

扬子地台内奥陶纪顶部的五峰组到志留纪底部的龙马溪组间存在着多个粘土岩层。前人研究结果认为这些粘土岩层为钾质斑脱岩,是火山喷发的凝灰质物质在海相环境沉积、蚀变的产物。这些斑脱岩广泛分布于扬子地台周缘,对理解奥陶纪-志留纪时华南所处的大地构造位置和相应的构造事件具有重要的意义。本文对采自扬子地台内湖北宜昌地区和贵州桐梓地区奥陶纪-志留纪界线剖面的斑脱岩层进行了矿物学及地球化学工作,旨在判定其形成的构造环境。矿物学研究表明上述岩石除了含有粘土矿物外,还含有石英、长石、黑云母、磷灰石、锆石等中酸性岩浆岩中的常见矿物,属典型的钾质斑脱岩。本文利用在风化过程中不活动元素对斑脱岩的原岩进行了恢复,结果也表明其原岩为中酸性火山岩,包括安山岩-英安岩-及流绞岩等。微量元素特征显示多数样品具有典型的岛弧火山岩的特征,很可能与北面早古生代秦岭洋的闭合过程中的板块俯冲有关,也可能是早古生代在华南板块东南缘外侧存在的一古老洋壳向华南板块的俯冲。有一个样品(YC0711)没有Nb的负异常,但是具有明显的Ti负异常,在Th/Yb-Nb/Yb判别图上落在岛弧区附近,其原岩可能是富铌玄武岩之类的特殊岛弧岩石。火山活动的峰期为晚奥陶世赫南特阶时代,与地质历史上第二大的生物大灭绝事件同时。前人认为该生物灭绝事件与冈瓦纳冰川有关。考虑到华南以及欧洲、北美等地均出现大规模晚奥陶世-早侏罗纪钾质斑脱岩,奥陶纪-志留纪边界的火山事件是具有全球规模的,所喷发的岩石多是富含挥发份的中酸性岩,对大气圈和生物圈具有十分重要的影响,本文认为火山活动很可能是造成晚奥陶世的生物大灭绝事件和冈瓦纳冰川的主要诱导因素。

泥盆系弗拉阶/法门阶之交事件沉积和海平面变化

在华南板块南部被动大陆边缘和西伯利亚板块南部活动大陆边缘弗拉阶 /法门阶之交识别出 7种物理事件相 :细粒钙屑浊积岩相、钙质角砾岩相、软变形灰岩相、含微球粒的粒泥灰岩相、凝灰质砾岩相、黑色页岩相和火山喷溢相 .它们在法门阶下Palmatolepistriangularis带底部和 /或上Palmatolepisrhenana带底部具有广泛的分布 ,可能是两次陨击事件记录 ,是良好的高分辨率年代地层对比标志 .弗拉期 /法门期之交的海平面变化不具有同步性和一致性 ,可分辨出 2种型式 (阶跃型和渐进型 )和 5种状态 (弗拉期最末期下降→法门期最初期上升、弗拉期最末期上升→法门期最初期下降、弗拉期最末期上升→法门期最初期上升、弗拉期最末期下降→法门期最初期下降、弗拉期最末期与法门期最初期海平面变化不明显 ) .弗拉阶/法门阶之交生物的阶梯状绝灭可能与从上Palmatolepisrhenana带底部至Palmatolepiscrep ida带不均匀分布的

地外撞击作用与地球灾变环境

撞击理论是美国物理学家Alvarez等(1980)根据白垩系-第三系(K/T)界线粘土层中发现的贵金属元素铱的异常所提出的。十几年过去了,科学家们围绕着这一理论开展了广泛的争论和多方面的研究,取得了不少成果。到目前为止,在世界各地白垩系-第三系界线上发现的铱异常已有百余处。不少地方还发现了冲击变质矿物和冲击层。研究还发现显生宙以来生物的大量绝灭和地外物体的撞击具有近乎一致的周期性,大约为26Ma。最近又在墨西哥Yucatan半岛发现了一个隐伏的环形构造,被认为是与K-T撞击事件有关的陨击坑。虽然如此,撞击理论仍面临着不少问题。特别是关于异常铱的来源、陨击坑的确定、撞击作用对地球环境的影响以及生物绝灭的机制等方面还存在着不少疑问。深入的研究工作仍待继续。

广西丹池盆地F-F界线事件沉积及成因分析

广西丹池(南丹—河池)盆地内部在上泥盆统弗拉斯阶与法门阶分界线上普遍发育事件沉积作用,自台地边缘到台内裂陷槽盆地事件沉积分为碎屑流、颗粒流和浊流,沉积岩石分别为砾屑灰岩、含砾砂屑灰岩、递变层砂屑灰岩等。该事件沉积具有等时性、成因相关性和广布性。事件沉积绝大部分位于linguiformis带和triangularis带之间。这些事件沉积可以和广西横县六景、桂林杨堤、德保都安、武宣南峒、象州香田、崇左那艺、上林云攀以及比利时的Hony剖面、美国内华达的Devil sGate剖面、摩洛哥的Atrous剖面、南乌拉尔、俄罗斯西伯利亚东北部的Fore-Kolyma、波兰—摩拉维亚盆地南部(Holy Cross山脉,Cracow和Brno地区)法门阶底部的浊积岩和角砾岩对比。如此广泛的全球性分布的等时性的事件沉积可以和巨大的外行星撞击地球而引起的全球性海啸相联系。

古—中生代之交的全球变化与生物效应

古—中生代之交是显生宙以来最大的一次生物绝灭期 ,其形成机制一直是地学界长期探讨的热点课题之一。地史重大转折期是地球内、外各圈层长期作用下 ,各种量变达到阀值 ,加之可能的外因激化 ,在短时间内以连锁反应形式相继质变 ,形成了全球变化 (包括生物绝灭 )的地球突变期。文中从可能的外因 (外星体撞击事件 )及内因 (岩石圈的变化 ,地球表层的变化和生物圈的变化 )

湖南锡矿山剖面晚泥盆世底栖介形类及其大灭绝

研究的底栖介形类化石采自湖南锡矿山剖面晚泥盆世地层,共30属61种,含1新属,2未定属,13新种和20未定种。在晚泥盆世F/F生物集群灭绝事件之前和以后,根据底栖介形类的演化特征,分为正常期,包括3—5层;灭绝期,即6层;残存期,包括7,8,9a-c,11—13,15层;和复苏期,即20层以上地层。在湖南锡矿山上泥盆统剖面上,底栖介形类动物群遭受到F/F灭绝事件的重创,正常期的37种中仅11种在残存期中幸免于难,24种在本剖面上消失,灭绝种约占65%。对于F/F生物集群灭绝事件的发生机制,虽有多种解释,但造成底栖介形类灭绝的主要原因更可能是缺(贫)氧或含毒环境和气候变化。根据底栖介形类生态组合特征,正常期的介形类动物群代表近岸浅水开阔海台地环境;复苏期的介形类动物群可能代表半局限海台地环境。根据正常期、残存期和复苏期介形类动物群的组成特征,它们所生存的海底为正常的含氧环境。

上扬子二叠系─三叠系初海相碳酸盐岩的碳同位素组成与生物绝灭事件

本文报道了贵州罗甸沫阳、四川广元上寺和重庆中梁山二叠系及二叠－三叠系界线附近海相碳酸盐岩的碳同位素测定结果。注意到早二叠世及晚二叠世吴家坪期的δ１３Ｃ具有极大的正值，反映了这段地质历史时期生物过渡繁盛和有机碳的高速埋藏。晚二叠世长兴（大隆）期的δ１３Ｃ值急剧降低，并在三叠纪初步达到极小值，反映了二叠－三叠系界线附近生物的迅速衰亡和集体绝灭。界线附近生物的集体绝灭事件除与二叠纪末的火山作用、环境与气候变迁有关外，还与晚二叠世的碳循环平衡失调造成广泛缺氧事件有着密切关系，实际上是几种因素共同作用的结果。

集群绝灭与生物复苏研究进展

近年来，科学家们开始把研究重点从生物绝灭转移到大绝灭后生态系的复苏上。本文简要介绍了目前国际上对集群绝灭－残存－复苏过程的研究宗旨和研究方法，截止１９９４年底在显生宙各大绝灭与复苏事件研究上所取得的主要进展及取得的一些有意义的成果和认识。

泥盆纪末期生物大灭绝事件及在新疆西准噶尔的体现

新疆西准噶尔泥盆—石炭系之交地层发育良好,是研究泥盆纪末期生物大灭绝事件(Hangenberg事件)的重要地区。以往对Hangenberg事件的研究主要依据世界其他地区资料,对西准噶尔资料关注不多。基于对沙尔布尔提山地区3个代表性剖面地层学分析,表明西准噶尔缺乏其他地区普遍发育的Hangenberg黑色页岩事件层。作为Hangenberg事件的响应,西准噶尔的弓石燕类(Austrospirifer?sp.)动物群更替为管孔石燕-石燕贝(Syringothyris-Spirifer)动物群;Hangenberg事件中,海神石类Cymaclymenia、若干棱菊石类分子及极少数镜眼虫科三叶虫分子在西准噶尔残存。该事件后,至杜内期早期,新类型棱菊石类Acutimitoceras出现于西准噶尔。

二叠纪—三叠纪之交全球海平面变化研究

二叠纪—三叠纪界线附近的全球海平面变化是当前沉积学研究的热点和难点问题,其与当时的显生宙最大规模生物灭绝事件存在一定关联,具有重要的研究意义。然而二叠纪—三叠纪界线附近的全球海平面变化存在较多争议,受单剖面或区域范围内相对海平面变化研究程度的制约,在缺乏从沉积学角度的综合对比研究的情况下,可能会影响对全球海平面变化过程与持续时间的判识。综述了二叠纪—三叠纪界线附近的海平面变化研究进展,整合了多位学者的研究剖面、主要观点及认识,梳理了全球海平面变化的主要观点("上升论"和"下降—上升论"),包括其各自的发展历程、代表剖面及海平面变化识别特征、海平面上升/下降的原因以及海平面变化与生物灭绝的关系等,并在此基础上,探讨了二叠纪—三叠纪全球海平面变化研究过程中产生争议的原因。本文旨在为二叠纪—三叠纪界线(PTB)附近海平面变化研究提供线索,同时为研究全球PTB地质事件发生的背景及差异性原因提供基础证据。

Analysis of platinum-group elements in drill core samples from the Meishan Permian-Triassic boundary section, China

There is a long-standing controversy of what triggered the extinction at the Permian-Triassic boundary, the most severe mass extinction in the geologic record, including flood basaltic volcanism and/or bolide impact hypothesis. In order to clarify various pieces of evidence for the mass extinction event at the Permian-Triassic boundary, some researchers from some laboratories throughout the world have made a comprehensive study on a group of samples from the Meishan area of China. Some fresh core samples from the Permian-Triassic boundary in the Meishan area were analyzed in this study. The results showed that there is no Ir anomaly. Moreover, the PGEs patterns of those samples show obvious differentiation characteristics, that is different from the case encountered in meteorites. So no evidence supports the hypothesis of extraterrestrial impact. In contrast, the PGEs patterns are similar to those of Siberian and Emeishan basalts, which indicates that those PGEs are derived mainly from the basalts, lending a support to the correlation between mass extinction at the Permian-Triassic boundary and flood basaltic volcanism. This study has also confirmed the results for samples from section C prior to the analysis of the samples.

Applications of mercury stable isotopes for tracing volcanism in the geologic record

Mercury(Hg)enrichments in ancient sediments have been used as a proxy of volcanism,especially large igneous province(LIP)eruptions.However,considering the existence of other potential Hg sources besides volcanoes and the diverse factors(e.g.,organic matters,clay minerals,sulfide minerals and Fe oxides)that can affect Hg sequestration,there are considerable uncertainties to simply regard sedimentary Hg anomalies as signatures of volcanic activities.Mercury stable isotopes,a promising tool for tracing the origins and transformations of Hg,have been increasingly used for determining the causes of Hg spikes and understanding the geochemical behavior of Hg in the geologic record.To date,lots of researches have applied Hg concentrations and Hg isotopes to identify LIP volcanisms linking with significant geological events such as mass extinctions,ocean anoxic events and other environmental perturbations that mainly occurred in the Phanerozoic.However,the results in previous studies clearly show that not all Hg enrichments are derived from volcanic inputs,which emphasize the need for more caution in using Hg as a fingerprint of volcanism.With a better understanding of Hg isotopes in the future,there will be important implications for Hg isotopes to reconstruct volcanic activities in the rock records and their impacts on biological evolution.

End-Permian catastrophic event of marine acidification by hydrated sulfuric acid:Mineralogical evidence from Meishan Section of South China

The event Permian-Triassic boundary (EPTB) is well marked by the famous 'white clay' of bed 25 in Mei-shan Section located in Changxing county, Zhejiang province of China. In this note, the white clay as well as its overlying and underlying sequences is investigated particularly for mineralogical records. The investigation yields three findings that contribute to better understanding the scenario of the EPTB mass extinction. (i) A red goethite-rich microlayer (0.3 mm) is first recognized to be horizontally widespread on the base of the white clay in the section. The microlayer should be considered as a macro geochemical indicator naturally tracing a catastrophic initiation at the EPTB. (ii) An interruption of marine carbonate deposition is discovered due to blank of carbonate minerals in the white clay. The discovery provides significant evidence of a marine acidification event that would occur in the paleo-ocean with marine acidity estimated at pH【4.0 at least and be triggered by the ultimate

Devonian Frasnian-Famennian transitional event deposits of Guangxi, South China and their possible tsunami origin

A suite of event deposits, isochronous and interrelated in origin, occurs widely near the Frasnian- Famennian boundary in Guangxi, South China. It is mainly distributed in the facies areas of the platform-margin slope and inter-platform rift-trough. The rudstone or calcirudite occur in the Liujing section of Hengxian and Luoxiu and Baqi sections of Xiangzhou in the facies area of platform-margin slope. The turbidites are observed in the sections of Yangdi and Baisha of Guilin, Du'an of Debao, Nandong and Sanli of Wuxuan, Xiangtian, Ma'anshan of Xiangzhou, Nayi of Chongzuo, Yunpan of Shanglin in the facies area of inter-platform rift-trough. The massive homogenites occur in sections of Mangchang, Luofu and Road from Nandan to Tian'e and Ma'anshan etc in the facies area of inter-platform rift-trough. Herein event deposits can be correlated in stratohorizon to the turbidite in the bottom of the Lower triangularis Zone in Hony railroad cut of Belgium, Devils Gate of Nevada, USA, Atrous of Morocco, South Urals and Fore-Kolyma of northeastern Siberia of Russia, and erosional discontinuities and brecciation in the Frasnian-Famennian boundary in South Polish-Moravian shelf. The event deposits could be caused by a violent tsunami related to bolide impacts into ocean.