Ostracods of the Toarcian (Jurassic) of Peniche, Portugal: taxonomy and evolution across and beyond the GSSP interval

IF 1.5 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Bulletin of Geosciences Pub Date : 2020-08-09 DOI:10.3140/bull.geosci.1778
M. C. Cabral, A. Lord, S. Pinto, L. V. Duarte, A. C. Azerêdo
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引用次数: 5

Abstract

totype Section and Point (GSSP) for the base of the Toarcian Stage at Peniche, western Portugal (Rocha et al. 2016), all stages of the Early Jurassic are now defined thus providing the essential stratigraphic frame work for developing understanding of global envir onmental conditions and biota for that period of time (201.4–174.2 Ma, Ogg et al. 2016). The Toarcian stage represents a very special phase of Earth history when, to cite Xu et al. (2018, pp. 396–397): “The Toarcian stage (~183–174 Ma) is considered to be the warmest interval of the Jurassic period encompassing a transient temperature rise of up to ~7 °C in mid-latitudes (Dera et al. 2011, Gradstein et al. 2012, Korte et al. 2015). The stage is also marked by one of the most intense and geographically widespread developments of anoxic/euxinic oceanic conditions of the Mesozoic era (Jenkyns 2010). This phenomenon of extreme redox changes is therefore termed the Toarcian Oceanic Anoxic Event (T-OAE, at ~183 Ma) and is marked by large-scale organic-carbon burial in shelf-sea settings, deeper marine basins, and lakes (Jenkyns 1985, 1988; Xu et al. 2017). The T-OAE was characterized by a severe perturbation to the global carbon cycle...”. We give this quotation at length because it is an efficient introduction to Toarcian times, which are currently the subject of a large and rapidly growing literature which it is not our purpose to summarize here. Current work links the growth of a late Pliensbachian cryosphere and its decline in the early Toarcian with climate change and sea level fluctuations, broadly Pliensbachian regression and early Toarcian transgression, and freshwater input into the oceans with greenhouse gases released into the atmosphere and reflected in the carbon isotope record (Ruebsam at al. 2019). This phase of the Earth history also records a widely documented mass extinction (e.g. Hallam 1961, Little & Benton 1995, Caswell et al. 2009, Caruthers et al. 2013, Danise et al. 2013) which is clearly demonstrated in an important group
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葡萄牙Peniche Toarcian(侏罗纪)介形类:GSSP区间的分类和进化
葡萄牙西部佩尼切托阿尔阶基底的原型剖面和点(GSSP)(Rocha等人,2016),现在已经确定了早侏罗世的所有阶段,从而为了解这一时期的全球环境条件和生物群提供了重要的地层框架工作(201.4–174.2 Ma,Ogg等人,2016年)。托阿尔阶段代表了地球历史上一个非常特殊的阶段,引用徐等人(2018,第396–397页):“托阿尔阶(~183–174 Ma)被认为是侏罗纪最热的时期,包括中纬度地区高达~7°C的短暂温升(Dera等人,2011,Gradstein等人,2012,Korte等人,2015)该阶段还标志着中生代缺氧/缺氧海洋条件的最强烈和地理分布最广的发展之一(Jenkyns 2010)。因此,这种极端氧化还原变化的现象被称为蟾蜍海洋缺氧事件(T-OAE,约183 Ma),其特征是陆架海环境、更深的海洋盆地和湖泊中的大规模有机碳埋藏(Jenkyns 19851988;Xu等人2017)。T-OAE的特点是对全球碳循环的严重干扰……”。我们之所以长篇大论地引用这句话,是因为它是对托阿尔时代的有效介绍,托阿尔时代目前是大量快速增长的文献的主题,我们的目的不是在这里总结。目前的工作将晚普林斯巴奇亚冰冻圈的增长及其在托阿尔纪早期的衰退与气候变化和海平面波动、广泛的普林斯巴奇亚海退和托阿尔纪海侵以及淡水流入海洋以及温室气体释放到大气中并反映在碳同位素记录中联系起来(Ruebsam等人,2019)。地球历史的这一阶段也记录了广泛记录的大规模灭绝(例如,Hallam 1961,Little&Benton 1995,Caswell等人2009,Caruthers等人2013,Danise等人2013),这在一个重要的群体中得到了明确的证明
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来源期刊
Bulletin of Geosciences
Bulletin of Geosciences 地学-地球科学综合
CiteScore
3.10
自引率
5.30%
发文量
18
审稿时长
>12 weeks
期刊介绍: The Bulletin of Geosciences is an international journal publishing original research papers, review articles, and short contributions concerning palaeoenvironmental geology, including palaeontology, stratigraphy, sedimentology, palaeogeography, palaeoecology, palaeoclimatology, geochemistry, mineralogy, geophysics, and related fields. All papers are subject to international peer review, and acceptance is based on quality alone.
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