Improved chronostratigraphy and fine-tuned timing for Late Triassic palaeoenvironmental changes in SW Britain using coupled magnetic polarity and carbon isotope stratigraphy

IF 2.6 2区 地球科学 Q2 GEOGRAPHY, PHYSICAL Palaeogeography, Palaeoclimatology, Palaeoecology Pub Date : 2024-11-03 DOI:10.1016/j.palaeo.2024.112579
Mark W. Hounslow , Julian E. Andrews
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Abstract

Understanding the synchronicity of global climatic, environmental, and biotic events around the Norian-Rhaetian boundary (NRB) is problematic because of major international differences in biochronology. We instead use magnetostratigraphic and global carbon isotopic changes to produce more precise global correlation. This work focusses on the base and top of the Rhaetian, with principal age control from a new late Norian to latest Rhaetian magnetostratigraphy from Lavernock (southern Wales) which can be directly correlated to the proposed NRB sections at Pignola Abriola (Italy) and Steinbergkogel (Austria). A disconformity exists in the Lavernock section in its late Norian part (Branscombe Mudstone Formation), but the NRB interval is largely complete. The magnetostratigraphy and a composite δ13Corg stratigraphy from three British sections, demonstrate synchronous changes in both terrestrial and marine records. This analysis indicates the older proposed definition of the NRB from Steinbergkogel is in the upper few metres of the Branscombe Mudstone Formation, while the younger NRB definition from Pignola Abriola is in the upper parts of the Blue Anchor Formation. The latest Rhaetian magnetostratigraphy from Lavernock records reverse magnetochrons UT26r and UT28r which closely pre-date and post-date the widely recognised Marshi and Spelae carbon isotope excursions, respectively. Magnetochrons UT28r and UT27r were previously recognised at St Audrie's Bay (SW England), with relationships to the Newark Supergroup which tightly constrain the first phase of CAMP eruptions to overlap the Spelae excursion. The carbon isotope excursions present in the Blue Anchor Formation lacustrine successions, demonstrate the likely atmospheric, and global spread of these perturbations.
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利用磁极和碳同位素耦合地层学改进英国西南部晚三叠世古环境变化的年代地层学和微调时间
由于生物年代学方面的巨大国际差异,要理解纪-雷新世边界(NRB)附近全球气候、环境和生物事件的同步性是一个难题。我们转而使用磁地层学和全球碳同位素变化来产生更精确的全球相关性。这项工作的重点是雷蒂纪的底部和顶部,主要的年龄控制来自拉弗诺克(威尔士南部)新的晚纪至最新雷蒂纪磁地层,该地层可与皮尼奥拉-阿布里奥拉(意大利)和斯坦伯格科格尔(奥地利)的拟议 NRB 断面直接相关。拉弗诺克断面在其晚纪部分(布兰斯科姆泥岩地层)存在一个断裂,但北回归线区间基本完整。英国三个断面的磁地层学和综合 δ13Corg 地层学显示了陆地和海洋记录的同步变化。分析表明,Steinbergkogel 提出的较早的 NRB 定义位于 Branscombe 泥岩层的上部几米处,而 Pignola Abriola 提出的较早的 NRB 定义位于蓝锚层的上部。拉弗诺克(Lavernock)最新的雷蒂期磁地层记录了反向磁ochron UT26r 和 UT28r,它们分别紧跟在广为人知的马西(Marshi)和斯佩莱(Spelae)碳同位素偏移之前和之后。磁ochrons UT28r 和 UT27r 以前在 St Audrie's Bay(英格兰西南部)得到过确认,它们与 Newark 超群的关系严格限制了 CAMP 喷发的第一阶段与 Spelae 偏移的重叠。蓝锚地层湖沼演替中出现的碳同位素偏移表明,这些扰动可能在大气中和全球范围内扩散。
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来源期刊
CiteScore
5.90
自引率
10.00%
发文量
398
审稿时长
3.8 months
期刊介绍: Palaeogeography, Palaeoclimatology, Palaeoecology is an international medium for the publication of high quality and multidisciplinary, original studies and comprehensive reviews in the field of palaeo-environmental geology. The journal aims at bringing together data with global implications from research in the many different disciplines involved in palaeo-environmental investigations. By cutting across the boundaries of established sciences, it provides an interdisciplinary forum where issues of general interest can be discussed.
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