极端的生态系统不稳定状态使热带地区恐龙的主导地位被压制了三千万年。

Extreme ecosystem instability suppressed tropical dinosaur dominance for 30 million years.

作者信息

Whiteside Jessica H, Lindström Sofie, Irmis Randall B, Glasspool Ian J, Schaller Morgan F, Dunlavey Maria, Nesbitt Sterling J, Smith Nathan D, Turner Alan H

机构信息

Ocean and Earth Science, National Oceanography Centre Southampton, University of Southampton, Southampton SO14 3ZH, United Kingdom;

Department of Stratigraphy, Geological Survey of Denmark and Greenland, DK-1350 Copenhagen K, Denmark;

出版信息

Proc Natl Acad Sci U S A. 2015 Jun 30;112(26):7909-13. doi: 10.1073/pnas.1505252112. Epub 2015 Jun 15.

DOI:10.1073/pnas.1505252112

PMID:26080428

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4491762/

Abstract

A major unresolved aspect of the rise of dinosaurs is why early dinosaurs and their relatives were rare and species-poor at low paleolatitudes throughout the Late Triassic Period, a pattern persisting 30 million years after their origin and 10-15 million years after they became abundant and speciose at higher latitudes. New palynological, wildfire, organic carbon isotope, and atmospheric pCO2 data from early dinosaur-bearing strata of low paleolatitudes in western North America show that large, high-frequency, tightly correlated variations in δ(13)Corg and palynomorph ecotypes occurred within a context of elevated and increasing pCO2 and pervasive wildfires. Whereas pseudosuchian archosaur-dominated communities were able to persist in these same regions under rapidly fluctuating extreme climatic conditions until the end-Triassic, large-bodied, fast-growing tachymetabolic dinosaurian herbivores requiring greater resources were unable to adapt to unstable high CO2 environmental conditions of the Late Triassic.

摘要

恐龙崛起一个主要未解决的方面是，为什么在整个晚三叠世时期，早期恐龙及其近亲在低古纬度地区稀少且物种贫乏，这种模式在它们起源3000万年后以及在高纬度地区变得丰富且物种多样1000 - 1500万年后仍持续存在。来自北美西部低古纬度早期含恐龙地层的新孢粉学、野火、有机碳同位素和大气pCO₂数据表明，在pCO₂升高且不断增加以及普遍存在野火的背景下，δ(13)Corg和孢粉形态生态型出现了大规模、高频且紧密相关的变化。虽然伪鳄类主龙主导的群落能够在这些相同地区快速波动的极端气候条件下一直存续到三叠纪末期，但需要更多资源的大体型、生长迅速的高代谢恐龙食草动物却无法适应晚三叠世不稳定的高二氧化碳环境条件。

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