非鸟类恐龙生物地理学简评:现状与展望。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2024-10-01 Epub Date: 2024-10-30 DOI:10.1098/rsbl.2024.0429
Paul Upchurch, Alfio Alessandro Chiarenza
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引用次数: 0

摘要

恐龙可能起源于距今2.45-2.35亿年前的冈瓦纳中高纬度地区,可能一直被低纬度干旱地区限制在较凉爽潮湿的地区,直到大约距今2.15亿年前,气候的改善使得恐龙可以向北扩散。然而,这种假设受到了新的卡尼安劳拉西亚化石的挑战,而且有证据表明,即使是最早的恐龙也有适应干旱条件的能力。恐龙在侏罗纪早中期(200-160 Ma)成为全球分布动物后,在潘加群岛破碎化的驱动下经历了沧桑。区域性灭绝和跨洋扩散也发挥了作用,短暂陆地连接的形成意味着较早的沧海桑田模式被较晚的沧海桑田模式反复覆盖,形成了网状的生物地理历史。古气候塑造了扩散障碍和走廊,包括对不同类型恐龙产生不同影响的过滤器。恐龙生物地理研究面临着许多挑战,其中最重要的是化石记录的零散性。然而,新的化石、广泛的数据库和改进的分析方法有助于区分信号和噪音,并产生新的视角。未来,开发量化和改善取样偏差的技术以及建立恐龙扩散能力模型可能会成为我们现代研究计划的两个关键组成部分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A brief review of non-avian dinosaur biogeography: state-of-the-art and prospectus.

Dinosaurs potentially originated in the mid-palaeolatitudes of Gondwana 245-235 million years ago (Ma) and may have been restricted to cooler, humid areas by low-latitude arid zones until climatic amelioration made northern dispersals feasible ca 215 Ma. However, this scenario is challenged by new Carnian Laurasian fossils and evidence that even the earliest dinosaurs had adaptations for arid conditions. After becoming globally distributed in the Early-Middle Jurassic (200-160 Ma), dinosaurs experienced vicariance driven by Pangaean fragmentation. Regional extinctions and trans-oceanic dispersals also played a role, and the formation of ephemeral land connections meant that older vicariance patterns were repeatedly overprinted by younger ones, creating a reticulate biogeographic history. Palaeoclimates shaped dispersal barriers and corridors, including filters that had differential effects on different types of dinosaurs. Dinosaurian biogeographic research faces many challenges, not the least of which is the patchiness of the fossil record. However, new fossils, extensive databasing and improved analytical methods help distinguish signal from noise and generate fresh perspectives. In the future, developing techniques for quantifying and ameliorating sampling biases and modelling the dispersal capacities of dinosaurs are likely to be two of the key components in our modern research programme.

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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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