寒武纪信息革命的显生宙后果:海洋动物的感官和认知复杂性

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-01-28 DOI:10.1017/pab.2021.46
Shannon Hsieh, R. Plotnick, Andrew M. Bush
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引用次数: 3

摘要

摘要寒武纪信息革命描述了生物驱动的信号、感官能力、行为互动和景观空间复杂性的增加如何在寒武纪辐射的同时推动了动物认知能力的快速增长。在这里,我们比较了寒武纪和后寒武纪海洋生态系统的认知复杂性,记录了寒武纪初始增加后动物认知的变化。在寒武纪和后寒武纪Lagerstätten的比较中,我们发现拥有两种宏观感觉器官(眼睛和化学感受器官,如触角、触角或鼻孔)的属的比例没有明显的趋势。一般神经系统的复杂性也没有趋势。这些结果表明,在显生宙早期的生态系统中,复杂的信息处理已经很普遍了,这与来自化石记录的行为证据相当。寒武纪生态系统中大多数能够处理复杂信息的分类群是全节肢动物,而软体动物和脊索动物在之后占据了更大的比例。在寒武纪和现在,即使是简单的神经系统,也可能有不同的生境层和摄食模式,但需要快速、有规律运动的生态生活方式几乎只与有大脑的类群有关,这表明它们与快速信息处理能力和身体反应有关。寒武纪认知复杂程度的全面提高可能是生命史上的一个独特事件,尽管一些谱系随后发展出更复杂的感觉系统和/或更大的大脑。
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The Phanerozoic aftermath of the Cambrian information revolution: sensory and cognitive complexity in marine faunas
Abstract. The Cambrian information revolution describes how biotically driven increases in signals, sensory abilities, behavioral interactions, and landscape spatial complexity drove a rapid increase in animal cognition concurrent with the Cambrian radiation. Here, we compare cognitive complexity in Cambrian and post-Cambrian marine ecosystems, documenting changes in animal cognition after the initial Cambrian increase. In a comparison of Cambrian and post-Cambrian Lagerstätten, we find no strong trend in the proportion of genera possessing two types of macroscopic sense organs (eyes and chemoreceptive organs such as antennae, feelers, or nostrils). There is also no trend in general nervous system complexity. These results suggest that sophisticated information processing was already common in early Phanerozoic ecosystems, comparable with behavioral evidence from the trace fossil record. Most taxa capable of complex information processing in Cambrian ecosystems were panarthropods, whereas mollusks and chordates made up larger proportions afterward. In both the Cambrian and the present day, ecological occupation of diverse habitat tiers and feeding modes is possible with even simple nervous systems, but ecological lifestyles requiring rapid, regular movement are almost exclusively associated within brain-bearing taxa, suggesting a connection with fast information-processing abilities and bodily responses. The overall rise in cognitive sophistication in the Cambrian was likely a unique event in the history of life, although some lineages subsequently developed more elaborate sensory systems and/or larger brains.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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