Tephra zircon U-Pb geochronology of kimberlite maar sedimentary fills in subarctic Canada: Implications for Eocene paleoclimate and Late Cretaceous paleogeography

S. D. Buryak, Alberto V. Reyes, Christopher K. West, Britta J.L. Jensen, S. A. Dufrane, Joshua H. F. L. Davies, Yan Luo, Jennifer M. Galloway, P. Siver, J. Westgate, J. Reimink, D. G. Pearson, Alexander P. Wolfe
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Abstract

The Wombat and Giraffe kimberlite pipes in the Lac de Gras kimberlite field (64°N, 110°W) of the Northwest Territories, Canada, preserve unique post-eruptive lacustrine and paludal sedimentary records that offer rare insight into high-latitude continental paleoclimate. However, depositional timing—a key datum for atmospheric CO2 and paleoclimatic proxy reconstructions—of these maar infills remains ambiguous and requires refinement because of the large range in the age of kimberlites within the Lac de Gras kimberlite field. Existing constraints for the Giraffe pipe post-eruptive lacustrine and paludal maar sedimentary facies include a maximum Rb-Sr age of ca. 48 Ma (Ypresian, Eocene) based on kimberlitic phlogopite and a glass fission-track age of ca. 38 Ma (Bartonian, Eocene). The age of the Wombat pipe lacustrine maar sediments remains unclear, with unpublished pollen-based biostratigraphy suggesting deposition in the Paleocene (66−56 Ma). In this study, we examine distal rhyolitic tephra beds recovered from exploration drill cores intersecting the Wombat and Giraffe maar facies. We integrate zircon U-Pb laser ablation−inductively coupled plasma−mass spectrometry (LA-ICP-MS) and chemical abrasion−isotope dilution−thermal ionization mass spectrometry (CA-ID-TIMS) geochronology, glass fission-track dating, palynology, and tephra glass geochemistry to refine chronological frameworks for these sedimentary deposits. The Giraffe maar CA-ID-TIMS tephra zircon U-Pb dating yielded a Bayesian model age of 47.995 ± 0.082|0.087 Ma (Ypresian) for the upper portion of the lacustrine sediments, while a single zircon grain from tephra in the lowermost lacustrine sediments had an age of 48.72 ± 0.29|0.30 Ma. The revised geochronology for the Giraffe maar provides a working age model for the ∼50 m record of lacustrine silt and indicates an age ∼10 m.y. older than previously thought. The Wombat maar LA-ICP-MS zircon U-Pb dating yielded an age of 80.9 ± 1.0 Ma (Campanian), which indicates deposition during the Late Cretaceous. This first radiometric age for the Wombat maar deposits is substantially older than earlier biostratigraphic inferences of a Paleocene age. This new age suggests that the Wombat maar sediments preserve evidence of some of the oldest known freshwater diatoms and synurophytes and provide key constraints for the paleogeography of the Western Interior Seaway during the Late Cretaceous.
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加拿大亚北极地区金伯利岩玛尔沉积填充物的热液锆石 U-Pb 地球年代学:对始新世古气候和晚白垩世古地理的影响
加拿大西北地区 Lac de Gras 金伯利岩场(北纬 64°,西经 110°)的 Wombat 和 Giraffe 金伯利岩管保存了独特的爆发后湖相和古沉积记录,为了解高纬度大陆古气候提供了难得的资料。然而,由于 Lac de Gras 金伯利岩场内金伯利岩的年龄差异较大,这些玛珥充填物的沉积时间--大气二氧化碳和古气候代用指标重建的关键数据--仍不明确,需要进一步完善。长颈鹿管后喷发期湖泊和掌状maar沉积面的现有制约因素包括:基于金伯利岩辉绿岩的约48 Ma(Ypresian,始新世)最大Rb-Sr年龄和约38 Ma(Bartonian,始新世)的玻璃裂变轨迹年龄。Wombat 管道湖沼沉积物的年龄仍不清楚,未发表的基于花粉的生物地层学表明沉积于古新世(66-56 Ma)。在这项研究中,我们考察了从与袋獾和长颈鹿岩浆面相交的勘探钻芯中回收的远端流纹质凝灰岩床。我们整合了锆石 U-Pb 激光烧蚀-电感耦合等离子体质谱法(LA-ICP-MS)和化学磨蚀-同位素稀释-热电离质谱法(CA-ID-TIMS)地质年代学、玻璃裂变轨迹测年法、古植物学和凝灰岩玻璃地球化学,以完善这些沉积矿床的年代学框架。长颈鹿湖CA-ID-TIMS锆石U-Pb测年得出湖相沉积物上部的贝叶斯模型年龄为47.995±0.082|0.087Ma(Ypresian),而最下部湖相沉积物中的一个锆石颗粒的年龄为48.72±0.29|0.30Ma。修订后的长颈鹿湖地质年代学为湖相淤积物的∼50 m记录提供了一个工作年龄模型,并表明其年龄比以前认为的要早∼10 m.y.。Wombat maar LA-ICP-MS 锆石 U-Pb 测定得出的年龄为 80.9 ± 1.0 Ma(坎帕年),表明沉积于晚白垩世。这是对温巴特玛尔沉积的首次放射性测定年龄,大大早于早先生物地层学推断的古新世年龄。这一新的年龄表明,袋鼠沼泽沉积物保留了一些已知最古老的淡水硅藻和合藻的证据,并为晚白垩世西部内陆海道的古地理提供了关键的制约因素。
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