Calibrating geologic strata, dinosaurs, and other fossils at Dinosaur Provincial Park (Alberta, Canada) using a new CA-ID-TIMS U–Pb geochronology

IF 1.3 4区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY

Canadian Journal of Earth Sciences Pub Date : 2023-07-05 DOI:10.1139/cjes-2023-0037

D. Eberth, David C Evans, J. Ramezani, S. Kamo, Caleb M. Brown, P. Currie, D. R. Braman

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Abstract

The 100 m thick stratigraphic section exposed at Dinosaur Provincial Park (DPP, southern Alberta) contains bentonites that have been used for more than 30 years to date DPP's rocks and fossils using the K-Ar decay scheme. Limited reproducibility among different vintages of K-Ar and 40Ar/39Ar ages inhibited the development of a high resolution chronostratigraphy. Here we employ and further test a recently completed CA-ID-TIMS U–Pb geochronology and associated age-stratigraphy model to update temporal constraints on the Park’s bentonites, formational contacts, and other markers. In turn, we document rock accumulation rates, and calibrate ages and durations of informal megaherbivore dinosaur assemblage zones and other biozones. Weighted mean 206Pb/238U ages from five bentonites range from 76.718 ± 0.020 Ma to 74.289 ± 0.014 Ma (2σ internal uncertainties) through an interval of 88.75 m, indicating a duration of ~2.43 Myr and an overall rock accumulation rate of 3.65 ± 0.04 cm/ka. An increase in rate above the Oldman-Dinosaur Park formational contact conforms to a regionally expressed pattern of increased accommodation at ~76.3 Ma across Alberta and Montana. Palynological biozone data suggest a condensed section/hiatus in the uppermost portion of the Oldman Formation. Dinosaur assemblage zones exhibit durations of ~600–700 kyr and are significantly shorter than those in the overlying Horseshoe Canyon Formation. A decreased rate in dinosaur-assemblage turnovers in the last eight million years of the Mesozoic in western Canada may be explained by withdrawal of the Western Interior Seaway and the expansion of ecologically homogenous lowlands in its wake.

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使用新的CA-ID-TIMS U-Pb地质年代学校准加拿大亚伯达省恐龙省立公园的地质地层、恐龙和其他化石

在阿尔伯塔省南部的恐龙省立公园(DPP)出土的100米厚的地层剖面中含有膨润土，使用K-Ar衰变方案对DPP的岩石和化石进行了30多年的测定。不同年份K-Ar和40Ar/39Ar年龄的可重复性有限，抑制了高分辨率年代学的发展。在这里，我们采用并进一步测试了最近完成的CA-ID-TIMS U-Pb地质年代学和相关的年龄-地层学模型，以更新公园膨润土、地层接触和其他标志的时间限制。反过来，我们记录了岩石堆积速率，并校准了非正式的巨型食草恐龙组合带和其他生物带的年龄和持续时间。5个膨润土的加权平均206Pb/238U年龄范围为76.718±0.020 Ma ~ 74.289±0.014 Ma (2σ内部不确定度)，间隔为88.75 m，持续时间为~2.43 Myr，总体堆积速率为3.65±0.04 cm/ka。在奥德曼-恐龙公园地层接触面以上的增加速率符合阿尔伯塔和蒙大拿州~76.3 Ma增加可容纳性的区域表达模式。孢粉生物带资料显示，在Oldman组的最上部有一个浓缩剖面/裂孔。恐龙组合带的持续时间约为600-700 kyr，明显短于其上的马蹄峡谷组。在加拿大西部中生代的最后800万年里，恐龙组合的更替率下降，这可能是由于西部内陆海道的退缩和其后生态上同质的低地的扩张。

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来源期刊

Canadian Journal of Earth Sciences 地学-地球科学综合

CiteScore

2.80

自引率

7.10%

发文量

审稿时长

6-12 weeks

期刊介绍： The Canadian Journal of Earth Sciences reports current research in climate and environmental geoscience; geoarchaeology and forensic geoscience; geochronology and geochemistry; geophysics; GIS and geomatics; hydrology; mineralogy and petrology; mining and engineering geology; ore deposits and economic geology; paleontology, petroleum geology and basin analysis; physical geography and Quaternary geoscience; planetary geoscience; sedimentology and stratigraphy; soil sciences; and structural geology and tectonics. It also publishes special issues that focus on information and studies about a particular segment of earth sciences.