Sequence stratigraphical and palaeoenvironmental implications of Cenomanian–Santonian dinocyst assemblages from the Trans-Sahara epicontinental seaway: a multivariate statistical approach

IF 1.9 3区 地球科学 Q1 GEOLOGY
Musa B. Usman, David W. Jolley, Alexander T. Brasier, Adrian J. Boyce
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Abstract

The Cretaceous was punctuated by episodic flooding of continental margins forming epicontinental seas. The Trans-Sahara Seaway was one of these epicontinental seas, connecting the Gulf of Guinea with the Tethys Ocean. In this study, data including microplankton abundances, stable carbon isotopes of organic material and elemental geochemistry were integrated with traditional sedimentological analyses from the Trans-Sahara Seaway. The carbon isotopic data provide the first evidence that oceanic anoxic event 2 was present in the Trans-Sahara Seaway, and palynology shows it was associated with an increase in peridinioid dinocyst abundance. A combined study of microplankton assemblages and sedimentology reveals palaeoenvironmental trends linked to sea-level change. Lowstand system tracts were characterised by increased siliciclastic grain size, low microplankton diversity, and were dominated by Chlorophyceae. Transgressive system tracts were associated with diversity increases during rising sea level, with open marine gonyaulacoid dinocysts dominating the assemblages. Maximum flooding surfaces were recognised by the highest increase in biological diversity in argillaceous deposits. As sea level started to fall, the peridinioid dinocysts became dominant, with decreased microplankton diversity during highstand systems tracts. This combination of sedimentology and interpretation of dinocyst assemblages allows the identification of shallow to deeper marine depositional sequences of Cenomanian–Santonian strata within the Yola Sub-basin. This approach could be used to delineate marine depositional sequences where using conventional sedimentological methods alone is very challenging.

Abstract Image

跨撒哈拉大陆外海海道仙人掌-山童统恐龙囊组合的地层序列和古环境意义:多元统计方法
白垩纪期间,大陆边缘时常发生洪水泛滥,形成外大陆海。跨撒哈拉海道就是其中之一,它连接着几内亚湾和特提斯洋。在这项研究中,包括微浮游生物丰度、有机物的稳定碳同位素和元素地球化学在内的数据与跨撒哈拉海道的传统沉积学分析相结合。碳同位素数据首次证明了跨撒哈拉海道曾出现过大洋缺氧事件 2,而古生物学研究则表明,大洋缺氧事件 2 与围岩二胞丰度的增加有关。微浮游生物组合和沉积学的综合研究揭示了与海平面变化相关的古环境趋势。低海平面系统带的特点是硅质颗粒尺寸增大,微浮游生物多样性低,并以叶绿藻为主。在海平面上升过程中,跨海平面系统带的多样性也随之增加,其中以开阔海域的龙宫二叠体为主。最大洪水面是由生物多样性增加最多的砾质沉积物决定的。随着海平面开始下降,围岩类恐龙囊开始占主导地位,高地系统道中的微浮游生物多样性减少。结合沉积学和对恐龙囊组合的解释,可以确定约拉次盆地内仙人掌-山童统地层从浅到深的海洋沉积序列。在仅使用传统沉积学方法非常困难的地方,可以使用这种方法来划分海洋沉积序列。
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来源期刊
CiteScore
4.10
自引率
16.70%
发文量
42
审稿时长
16 weeks
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