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1.
古植代陆地维管植物的多样演化和绝灭 总被引:1,自引:0,他引:1
本文描述了石炭-二叠纪陆地维管植物在物种,生态和遗传方面的多样性,并根据古生代末这些植物在时空上的演化过程和数量统计数字,确认二叠-三叠纪集群绝灭事件同样在植物中存在,进而还探讨了植物集群绝灭事件发生的原因,笔者认为其直接外部原因,可能是局部地质事件(如:构造活动,火山爆发)引起热带雨林大面积消失,使气候变干埋所致。又根据当今对化石植物生殖生物学的研究结果,认为当时大部分植物(即古植代植物)的生殖 相似文献
2.
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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塔里木北缘晚二叠世外区植物入侵事件 总被引:2,自引:1,他引:2
塔里木北缘二叠纪植物可划分为Autunia-Conferta组合,CalliPteris-Comia—In-iopteris组合,Callipteris-Schizoneura组合。晚二叠世发生了准噶尔区安加拉植物入侵塔里木区事件。在我国北方这是一次普遍的植物事件。早二叠世在塔里木发育的欧美—华夏型植物绝灭。安加拉植物入侵的重要因素,除了陆表海闭合外,还有气候的变化。晚二叠世古特提斯洋暖流对塔里木已无直接影响,温带气候影响增加,同时气候转向干旱。大多数欧美—华夏型植物不能适应这样的气候条件,而温带气候对安加拉区植物是适宜的。因此如有干旱转向潮湿的间隙,就有安加拉植物的繁衍,并占领了欧美—华夏植物原来的生态空间。 相似文献
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晚泥分世弗拉斯—法门期(Frasnian—Famennian)之间存在一次全球性生物绝灭事件(简称F—F事件).本文简介了F—F事件的生物绝灭、事件界线、事件成因及近年国内研究情况弗拉斯末期,大量的海生无脊椎动物,尤其是热带、亚热带浅水区造礁及附来礁生物绝灭.绝灭的生物包括层孔虫、珊瑚、腕足类、竹节石、三叶虫、菊石及浮游植物等门类中的很大一部分成员.F-F件发生在牙形石的palmatolepis gigas带和Palmatolepis triangularis带之间,最可能发生在Palmatolepis gigas最上亚带.事件发生的原因有各种不同解释:1)海平面变化说;2)古气候变冷说;3)天文事件说等.目前国内对F—F事件的研究较少,侯鸿飞、王士涛(1985)曾总结了华南等地F—F界线附近的生物群变化.笔者等研究了西秦岭中带F—F事件,探讨了这次事件的可能成因. 相似文献
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中国扬子海盆奥陶纪末期生物集群绝灭事件 总被引:2,自引:1,他引:2
<正> 近年来,奥陶纪末期生物集群绝灭事件的研究,越来越为人们所关注。Raup和Sepkoski(1982)认为,在晚奥陶世大约有22%科的生物绝灭,是显生宙生物集群绝灭5个最大幕之一。这次事件造成了所有海洋无脊椎动物的分异度和丰度的降低。Brenchley(1990)把晚奥陶世绝灭的若干类群的重要变化作了如下概述:阿什极尔中期的38科三叶虫,仅有14科存活到志留纪;在或接近奥陶-志留系界线,有13科腕足类绝灭,27科穿 相似文献
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冀北滦平盆地大店子组叶肢介生物地层特征与陆相侏罗系—白垩系界线 总被引:1,自引:1,他引:0
大店子组是滦平盆地大北沟组之上、西瓜园组之下的一个岩石地层单元,建组剖面在滦平火斗山乡大店子东沟。在滦平火斗山乡张家沟,该组自下而上可进一步划分为4个岩性段,产有丰富的叶肢介化石,统属于东方叶肢介群(Eosestheria Fauna)。加之狼鳍鱼Lycoptera和女星介Cypridea与之共生,构成典型的热河动物群(Jehol Fauna)。根据叶肢介化石组合序列、叶肢介动物群的发展阶段与可能的演化谱系,将大店子组自下而上连续划分为5个叶肢介带。在大北沟组与大店子组界线的上下,尼斯托叶肢介群(Nestoria Fauna)和东方叶肢介群(Eosestheria Fauna)相继发生了集群绝灭和集群新生的重大生物事件。老的动物群的集群绝灭和新的动物群的集群新生,预示着一个大的时代界线的存在。在大北沟组与大店子组界线上C/O同位素有一高异常值和明显的降温事件,这可能就是这一集群绝灭和集群新生重大生物事件的原因。这一降温事件与世界范围内侏罗纪—白垩纪之间的降温事件相吻合。据此,中国乃至东亚陆相侏罗系—白垩系界线应置于大北沟组与大店子组之间,并以东方叶肢介Eosestheria属的出现为特征,以古老东方叶肢介Eosestheria antiqua的首现为标志,为大北沟阶的结束与张家沟阶的开始。其界线候选层型初步定于滦平县火斗山乡张家沟下营-上营剖面第9层之底和滦平县火斗山乡小东沟剖面第10-2层之底。 相似文献
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大店子组是滦平盆地大北沟组之上、西瓜园组之下的一个岩石地层单元,建组剖面在滦平火斗山乡大店子东沟。在滦平火斗山乡张家沟,该组自下而上可进一步划分为4个岩性段,产有丰富的叶肢介化石,统属于东方叶肢介群(Eosestheria Fauna)。加之狼鳍鱼Lycoptera和女星介Cypridea与之共生,构成典型的热河动物群(Jehol Fauna)。根据叶肢介化石组合序列、叶肢介动物群的发展阶段与可能的演化谱系,将大店子组自下而上连续划分为5个叶肢介带。在大北沟组与大店子组界线的上下,尼斯托叶肢介群(Nestoria Fauna)和东方叶肢介群(Eosestheria Fauna)相继发生了集群绝灭和集群新生的重大生物事件。老的动物群的集群绝灭和新的动物群的集群新生,预示着一个大的时代界线的存在。在大北沟组与大店子组界线上C/O同位素有一高异常值和明显的降温事件,这可能就是这一集群绝灭和集群新生重大生物事件的原因。这一降温事件与世界范围内侏罗纪—白垩纪之间的降温事件相吻合。据此,中国乃至东亚陆相侏罗系—白垩系界线应置于大北沟组与大店子组之间,并以东方叶肢介Eosestheria属的出现为特征,以古老东方叶肢介Eosestheria antiqua的首现为标志,为大北沟阶的结束与张家沟阶的开始。其界线候选层型初步定于滦平县火斗山乡张家沟下营-上营剖面第 9层之底和滦平县火斗山乡小东沟剖面第10-2层之底。 相似文献
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江西修水二叠纪·三叠纪界线地层海平面下降的岩石学证据 总被引:6,自引:3,他引:6
在江西修水四都镇东岭村发现了一个连续的、出露完好的二叠纪-三叠纪界线地层剖面。在剖面中有一段厚约2.1m 的地层具有指示海平面下降的岩石组构。这段地层的底部为红色的碳酸盐颗粒岩。红色是颗粒表面的红色铁染,成分为褐铁矿,是出露地表风化形成的。这层红色颗粒岩之上有约2.0 m 的去白云石化灰岩,其中保留了原来粉晶白云石的晶形。去白云石化作用是白云岩受淡水影响而发生的,指示海平面下降事件。这段地层之上是厚1m 的颗粒岩和灰泥岩,代表浅水潮下环境。其上是二叠系-三叠系的界线。这段地层之下的地层中生物丰富多样,并且有复(蜒)、钙藻等大绝灭前的生物。这段地层及其以上的地层中生物种类很少,(蜓)、钙藻等已经消失,表明集群绝灭事件开始于这段地层之下,生物大绝灭的发生与海平面下降事件的发生是基本同时的。由此认为,可能是海平面下降有关的环境剧变事件引发了二叠纪末的集群绝灭事件。 相似文献
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二叠—三叠纪过渡期灾变事件研究进展 总被引:6,自引:0,他引:6
本文简介了80年代以来二叠一三叠纪过渡期地质灾变事件研究最新进展,包括生物集群绝灭事件,海水进退事件,火山爆发事件.铱等元素异常与撞击事件,稀土元素、δ~(13)C、δ~(18)O异常与灾变事件,微球粒与灾变事件,灾变群及其与集群绝灭的关系. 相似文献
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约在奥陶纪末(440百万年前),海洋无脊椎动物曾发生过大规模绝灭。据Sepkoski认为,阿石极期(奥陶纪末)这一绝灭事件,可能是显生宙时期第二次最重大的生物危机,科一级约消失20%。阿尔瓦茉士(Alvarez)等人曾指出白垩—第三纪界限的生物绝灭现象,并提出可能是大型流星或彗星与地球碰撞导致产生大量铱所致。奥尔什(Orth) 相似文献
11.
《Journal of African Earth Sciences》1999,28(1):145-167
Charting the broad patterns of vascular plant evolution for Gondwana againstthe major global environmental shifts and events is attempted here for the first time. This is based on the analysis of the major vascular plant-bearing formations of the southern continents (plus India) correlated against the standard geological time-scale. Australia, followed closely by South America, are shown to yield by far the most complete sequences of productive strata. Ten seminal turnover pulses in the unfolding evolutionary picture are identified and seen to be linked to continental drift, climate change and mass global extinctions. The rise of vascular plants along the tropical belt, for instance, followed closely after the end-Ordovician warming and extinction. Equally remarkable is that the Late Devonian extinction may have caused both the terrestrialisation of the vertebrates and the origin of the true gymnosperms. The end-Permian extinction, closure of Iapetus, together with warming, appears to have set in motion an unparalleled, explosive, gymnosperm radiation; whilst the Late Triassic extinction dramatically curtailed it. It is suggested that the latitudinal diversity gradient clearly recognised today, where species richness increases towards the tropics, may have been partly reversed during phases of Hot House climate. Evidence hints at this being particularly so at the heyday of the gymnosperms in the Late Triassic super-Hot House world. As for the origin of terrestrial, vascular, plant life, the angiosperms seem closely linked to a phase of marked shift from Ice House to Hot House.Insect and tetrapod evolutionary patterns are discussed in the context of the plants providing the base of the ever-changing ecosystems. Intimate co-evolution is often evident. This isn't always the case, for example the non-linkage between the dominant, giant, long-necked, herbivorous sauropod dinosaurs and the dramatic radiation of the flowering plants in the Mid Cretaceous. 相似文献
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《Gondwana Research》2014,26(4):1308-1337
Geologists and palaeontologists have expressed mixed views about the effects of the end-Permian mass extinction on continental habitats and on terrestrial life. Current work suggests that the effects on land were substantial, with massive erosion following the stripping of vegetation, associated with long-term aridification and short-term bursts of warming and acid rain. Wildfires at the Permo-Triassic boundary contributed to the removal of forests and the prolonged absence of forests from the Earth's surface for up to 10 Myr. These physical crises on land impinged on the oceans, suggesting tight interlocking of terrestrial and marine crises. Levels of extinction on land may well have been as high as in the sea, and this is certainly the case for tetrapods. The mass extinction seems to have been less profound for plants and insects, but it is hard at present to disentangle issues of data quality from reductions in abundance and diversity. Several killing agents have been proposed, and of these tetrapods may have succumbed primarily to acid rain, mass wasting, and aridification. Plants may have been more affected by the sudden effects of heating and wildfires, and the crisis for insects has yet to be explored. 相似文献
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黑碳和燃烧源多环芳烃作为大火燃烧的产物有很强的化学惰性及生物惰性,能够在地层中长期稳定地保存,所以成为恢复古代大火历史的最常用指标。近年来世界各地二叠系—三叠系(P-Tr)界线地层中相继发现了黑碳(木炭等)和燃烧源多环芳烃等记录,特别是在煤山P-Tr界线地层,黑碳和燃烧源多环芳烃含量在生物灭绝线附近(25~26层)出现极高的峰值,据此首次明确地提出了P-Tr界线大火事件。P-Tr界线大火的规模、性质如何,与P-Tr界线生物灭绝有什么关系等,值得深入讨论和研究。大火事件发生在陆地上,通过其燃烧及排放的烟尘等,把陆地、大气和海洋密切联系起来,有利于通过系统的整体观来研究当时的气候环境变迁。因此,在回顾和总结P-Tr界线地层中的大火燃烧记录基础上,评述了大火事件与生物灭绝及相关地质事件和环境变化之间的联系,以期引起国内外专家学者的关注,为P-Tr界线生物灭绝及相关研究提供新的思路。 相似文献
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Following the greatest known end-Permian mass extinction plants have low diversity. Lycopsids and conifers dominated on land. A new gymnosperm Xinjiangoxylon gen. nov. is proposed based on a woody stem specimen collected from the Upper Permian (latest, Changhsingian) Upper Guodikeng Formation of the Taoshuyuan section, Turpan, Xinjiang Uygur Autonomous Region, Northwest China. The decorticated stem is characterized by a complex pith, endarch primary xylem and a thick secondary xylem cylinder. Numerous petrified woods were found in the Changhsingian at this section. However, there are rare wood fossils in the Early Triassic. The abrupt decrease of fossil woods worldwide relates to the crisis at the end of the Permian. Xinjiangoxylon turpanense gen et. sp. nov. appears to represents one gymnosperm that existed in the latest Permian. 相似文献
15.
瓜德鲁普末期生物灭绝是由峨眉山大火成岩省(LIP)引起的吗? 总被引:1,自引:1,他引:1
瓜德鲁普统末期生物灭绝是发生在二叠末期生物灭绝之前的一次独立的生物灭绝事件。该次生物灭绝事件对当时海洋底栖生物危害的严重性曾被认为可与五大生物灭绝事件对生物的影响程度相提并论。近年来,随着地层年龄数据的逐渐增多,地层的年代归属逐渐明朗,瓜德鲁普末期生物灭绝的严重性受到越来越多的质疑。同时,曾被认为是该次生物灭绝的主要原因--峨眉山大火成岩省(LIP)也受到质疑。峨眉山LIP是否仍是该次生物灭绝的主要原因?为了阐明上述问题,文章综述了瓜德鲁普末期生物灭绝、峨眉山LIP的喷发、卡匹敦阶碳、锶同位素变化以及引起该次生物灭绝的主要原因。结合研究数据认为:①瓜德鲁普末期生物灭绝事件对浅海底栖生物的影响不是特别严重,生物多样性减少幅度比五大生物灭绝事件要小;②瓜德鲁普统-乐平统(G-L)界线附近碳同位素负偏受成岩作用和相变的影响较大,卡匹敦阶碳同位素比值的变化存在两次负偏,第一次发生在卡匹敦中期(幅度约为1.0‰至1.5‰),第二次发生在G-L界线(幅度约为1.4‰至2‰);③该次生物灭绝的主要原因很可能不是峨眉山大火成岩省,而可能是大规模海退和海洋缺氧。 相似文献
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Five great taxonomic extinctions (the so‐called ‘Big Five Mass Extinctions’) are widely recognized in life history, at the end of the Ordovician, Frasnian (Late Devonian), Permian, Triassic and Cretaceous. All of them were originally identified in the marine fossil record and have been interpreted as the result of abrupt global environmental changes. Previous evidence has suggested that terrestrial biota were also subjected to ecological disruption during these events, but it is unknown whether they suffered the same level of large‐scale taxonomic disruption as marine organisms. Here we show that the plant fossil record in fact only provides evidence of two mass taxonomic extinction events, one through the Carboniferous‐Permian transition, the other during middle‐late Permian times. This differs significantly from the mass extinctions recognized in the marine realm and suggests that vascular plants have a special capacity for surviving abrupt environmental changes. 相似文献
18.
贵州盘县峨眉山玄武岩系顶部凝灰岩LA-ICP-MS 锆石U-Pb年龄:对峨眉山大火成岩省与生物大规模灭绝关系的约束 总被引:7,自引:3,他引:4
在20世纪90年代,有学者认为峨眉山大火成岩省(Emeishan Large Igneous Province, ELIP)大规模火山活动与二叠-三叠系之交(Permian-Triassic Boundary, P-TB)的生物大灭绝事件在时间上有耦合关系,随后的40Ar/39Ar同位素测年结果也显示峨眉山大火成岩省是晚二叠世形成的。但是,近些年大量的SHRIMP U-Pb测年结果表明,ELIP大规模火山喷发约在~260Ma;因此有研究认为,ELIP火山活动与中二叠世瓜德卢普期末(end-Guadalupian)的生物灭绝事件在时间上联系更加紧密。至于P-T界线生物大灭绝,现在多数学者认为是,由于西伯利亚大火成岩省火山强烈活动释放大量气体和火山灰所造成环境变化引起的。最近,我们在ELIP东部的贵州盘县峨眉山玄武岩系剖面中发现顶部发育厚度达近百米的凝灰岩层,其LA-ICP-MS U-Pb法测年结果为251.0±1.0Ma,与浙江煤山剖面中二叠系-三叠系边界处黏土层或火山灰层的锆石U-Pb年龄接近。因此,峨眉山玄武岩喷发结束的时间应该在P-T边界,与西伯利亚大火成岩省的主体喷发时间一致。新的测年结果暗示了ELIP火山活动与地球历史上最大的一次生物灭绝事件(P-T边界)可能存在着成因联系。 相似文献
19.
《Journal of Asian Earth Sciences》2010,37(6):491-502
A review of the tetrapod (amphibian and amniote) record across the Permo-Triassic boundary (PTB) indicates a global evolutionary turnover of tetrapods close to the PTB. There is also a within-Guadalupian tetrapod extinction here called the dinocephalian extinction event, probably of global extent. The dinocephalian extinction event is a late Wordian or early Capitanian extinction based on biostratigraphic data and magnetostratigraphy (the extinction precedes the Illawara reversal), so it is not synchronous with the end-Guadalupian marine extinction. The Russian PTB section documents two tetrapod extinction events, one just before the dinocephalian extinction event and the other at the base of the Lystrosaurus assemblage. However, generic diversity across the latter extinction remains essentially the same despite a total evolutionary turnover of tetrapod genera. The Chinese and South African sections document the stratigraphic overlap of Dicynodon and Lystrosaurus. In the Karoo basin, the lowest occurrence of Lystrosaurus is in a stratigraphic interval of reversed magnetic polarity, which indicates it predates the marine-defined PTB, so, as previously suggested by some workers, the lowest occurrence of Lystrosaurus cannot be used to identify the PTB in nonmarine strata. Correlation of the marine PTB section at Meishan, southern China, to the Karoo basin based primarily on magnetostratigraphy indicates that the main marine extinction preceded the PTB tetrapod extinction event. The ecological severity of the PTB tetrapod extinction event has generally been overstated, and the major change in tetrapod assemblages that took place across the PTB was the prolonged and complex “replacement” of therapsids by archosaurs that began before the end of the Permian and was not complete until well into the Triassic. The tetrapod extinctions are not synchronous with the major marine extinctions at the end of the Guadalupian and just before the end of the Permian, so the idea of catastrophic causes of synchronous PTB extinctions on land and sea should be reconsidered. 相似文献