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ag体育_中国的古生物学家希望解释出动物的起源

7月 27th, 2021  |  科技

本文摘要:AMONG the mysteries of evolution, one of the most profound is what exactly happened at the beginning of the Cambrian period. Before that period, which started 541m years ago and ran on for 56m years, life was a modest thing. Bacteria had been around for about 3 billion years, but for most of this time they had had the Earth to themselves. Seaweed s, jellyfish -like creatures, sponges and the odd worm do start to put in an appearance a few million years before the Cambrian begins. But red in tooth and claw the Precambrian was not—for neither teeth nor claws existed.演化悬案中,最不具深远影响意义的是寒武纪的起源问题。

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AMONG the mysteries of evolution, one of the most profound is what exactly happened at the beginning of the Cambrian period. Before that period, which started 541m years ago and ran on for 56m years, life was a modest thing. Bacteria had been around for about 3 billion years, but for most of this time they had had the Earth to themselves. Seaweed s, jellyfish -like creatures, sponges and the odd worm do start to put in an appearance a few million years before the Cambrian begins. But red in tooth and claw the Precambrian was not—for neither teeth nor claws existed.演化悬案中,最不具深远影响意义的是寒武纪的起源问题。寒武纪之前(即5.41亿年前,倒数的5600万年)物种较较少。

细菌早已经常出现了30亿年,在这段时间里地球只有它们伴。在寒武纪来临前的几百万年前,海草、水母类生物、海绵和鬼蚯蚓开始露面。

但红牙利爪生物在寒武纪前没经常出现过。Then, in the 20m-year blink of a geological eye, animals arrived in force . Most of the main groups of the animal kingdom—arthropod s, brachiopod s, coelenterates , echinoderm s, molluscs and even chordate s, the branch from which vertebrate s went on to develop—are found in the fossil beds of the Cambrian. The sudden evolution of this megafauna is known as the Cambrian explosion. But two centuries after it was noticed, in the mountains of Wales after which the Cambrian period is named, nobody knows what detonated it.接着,2000万年的一眨眼时间里,大规模动物复活。人们在寒武纪化石床里找到了动物王国的主要动物集群,还包括腕足、腔肠、棘皮、软体和脊索(脊椎动物演化的分支)。

寒武愈演愈烈以巨型动物群的急遽演化闻名。当其被找到的两个世纪以后,在寒武纪命名的威尔士山,没有人知悉愈演愈烈的原因。

A group of Chinese scientists, led by Zhu Maoyan of the Nanjing Institute of Geology and Palaeontology, plan to change that with a project called “From the Snowball Earth to the Cambrian explosion: the evolution of life and environment 600m years ago”. The “Snowball Earth” refers to a series of ice ages that happened between 725m and 541m years ago. These were, at their maxima, among the most extensive glaciations in the Earth’s history. They alternated, though, with periods that make the modern tropics seem chilly: the planet’s average temperature was sometimes as high as 50°C. Add the fact that a supercontinent (illustrated above, viewed from the Earth’s south pole) was breaking up at this time, and you have a picture of a world in chaos. Just the sort of thing that might drive evolution. Dr Zhu and his colleagues hope to find out exactly how these environmental changes correspond to changes in the fossil record.一个中国科学家团队——以朱茂炎派的南京地质古生物所,计划启动取名为“从冰雪地球至寒武愈演愈烈:6亿年前的生命演化与环境”,以转变现场。“冰雪地球”指再次发生在7.25亿至5.41亿年前的一系列冰河时代。

这些时期的高峰段是地球历史上冰川运动最普遍的时候。尽管冰川活动在这些时期交错再次发生,使现代热带地区看上去很冷,但地球的平均温度有时也不会低约50摄氏度。再加超强大陆(如上图右图,坐落于南极附近)在这段时期分化,之后可想象获得此时的世界该是多么恐慌的一幅图画。

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他们指出,这些快速增长记录了氧在海水中下降的数量,因为更好的氧气意味著更好的有机化合物水解。那将获释碳12,与岩石融合。Each of Dr Chu’s oxidation events corresponds with an increase in the size, complexity and diversity of life, both plant and animal. What triggered what, however, is unclear. There may have been an increase in photosynthesis because there were more algae around. Or eroded material from newly formed mountains may have buried organic matter that would otherwise have reacted with oxygen, leading to a build-up of the gas.楚博士的每一个水解活动都预示着植物和动物的生命形状、复杂性和多样性的减少。然而,启动时的原因仍是个谜。

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由于周围的水藻变多了,可能会减少光合作用。或者是来自新的构成的山体中生锈的材料在消化有机化合物时,不会吸入氧气,构成气体。The last—and most dramatic—rise in oxygen took place towards the end of the Ediacaran. Follow-up work by Dr Zhu, in nine other sections of the Doushantuo formation, suggests this surge started just after the final Precambrian glacial period about 560m years ago, and went on for 9m years. These dates overlap with those of signs of oxidation found in rocks in other parts of the world, confirming that whatever was going on affected the entire planet. Dr Zhu suspects this global environmental shift propelled the evolution of complex animals.埃迪卡拉纪末期经常出现了最后且是最轻微的氧气减少。

根据朱博士对陡山沱两组地质层其他九个部分的研究,他指出氧气的减少正好再次发生在5.6亿年前的前寒武纪冰河时期,并持续了大约900万前。这些日期正好世界其他地区找到的岩石水解迹象相符,证实了所再次发生的一切影响了整个地球。朱博士庞加莱全球的环境变化促成了简单动物的演化。Dr Zhu also plans to push back before the Ediacaran period. Other researchers have found fossils of algae and wormlike creatures in rocks in northern China that pre-date the end of the Marinoan glaciation, 635m years ago, which marks the boundary between the Ediacaran and the Cryogenian period that precedes it. (The Cryogenian began 850m years ago.) Such fossils are hard to study, so Dr Zhu will use new imaging technologies that can look at them without having to clean away the surrounding rock, and are also able to detect traces of fossil organic matter invisible to the eye.朱博士还计划将研究倒推至埃迪卡拉纪以前。

其他研究者已在中国北部地区的岩石里找到水藻化石和蚯蚓类生物,是6.35亿年前的冰河世纪末,标志埃迪卡拉纪和成冰系时期的界限后脚。(出冰系开始于8.5亿年前)。这样的化石很难研究,所以朱博士将运用新型影像工程学看见它们,需要确切化石周围的岩石,并能肉眼寻找有机化合物化石的足迹。Besides digging back before the Ediacaran, the new project’s researchers also intend to analyse the unfolding of the Cambrian explosion itself by taking advantage of otherLagersttten—for China has several that date from the Cambrian. Dr Chen, indeed, first made his name in 1984, when he excavated one at Chengjiang in Yunnan province. It dates from 525m years ago, which make it 20m years older than the most famous Cambrian Lagersttte in the West, the Burgess shale of British Columbia, in Canada. The project’s researchers plan to see how, evolutionarily speaking, the variousLagersttten relate to one another, to try to determine exactly when different groups of organisms emerged.除了挖掘出埃迪卡拉纪以前的项目,新的项目的研究者们还想利用化其他化石宝库(因为中国不存在着许多来自寒武纪的化石宝库)分析寒武纪愈演愈烈的演进。

陈博士最先因1984年实地考察到了云南省澄江生物群而出名。云南澄江生物群情激愤源自5.25年前,比西方最知名的寒武纪化石宝库“不列颠哥伦比亚伯吉斯生物群”(加拿大)早于了2000万年。项目的研究者们想要告诉有所不同的化石宝库如何与其他相关联,并企图精确确认有所不同有机生物群体经常出现的时间。

They will also look at the chemistry of elements other than carbon and oxygen—particularly nitrogen and phosphorous, which are essential to life, and sulphur, which often indicates the absence of oxygen and is thus antithetical to much animal life. Dr Zhu hopes to map changes in the distribution of these chemicals across time and space. He will assess how these changes correlate, whether they are related to weathering, mountain building and the ebb and flow of glaciers, how they could have affected the evolution of life, and how plants and animals might themselves have altered the chemistry of air and sea.他们也想要研究除了碳和氧的其他化学元素——特别是在氮和磷,哪一个对生命来说是适当的;且硫指出其缺乏氧将对大部分动物危害。朱博士期望能绘制出有这些化学元素在时间和空间中的产于变化图。

他也将估定这些变化如何互相关联,它们否与风化、山体修建和冰川的潮汐有关,它们如何能影响到生命的演化,植物和动物如何转变空气和大海的化学成分。Most ambitiously, Dr Zhu, Dr Xiao and their colleagues hope to drill right through several fossiliferous sites in southern China where Ediacaran rocks turn seamlessly into Cambrian ones. Such places are valuable because in most parts of the world there is a gap, known as an unconformity, between the Ediacaran and the Cambrian. Unconformities are places where rocks have been eroded before new ones are deposited, and the widespread Ediacaran-Cambrian unconformity has been a big obstacle to understanding the Cambrian explosion. With luck, then, a mystery first noticed in the Welsh mountains in the early 19th century will be solved in the Chinese ones in the early 21st. If it is, the origin of the animal kingdom will have become clear, and an important gap in the history of humanity itself will have been filled.朱博士、肖博士及他们的同僚们最有志向的是,期望在中国南部地区,在埃迪古拉纪岩石与寒武纪岩石交错的化石遗址中展开钻测。由于世界的大部分的此地区都有裂缝,即不统合面,因此埃迪古拉纪和寒武纪之间的这些地方是变化多样的。

不统合面的岩石早在新的岩石产生前就早已生锈,埃迪古拉纪-寒武纪之间广布不统合面,它们是研究寒武愈演愈烈的极大妨碍。幸运地的是,19世纪早期首先在威尔士山脉被找到的一个秘密将答案21世纪中国人想告诉的问题。果真如此,动物王国的起源将渐渐明晰,人类历史的一个最重要鸿沟将被填平。

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