南极东部萨布丽娜海岸前冰期古环境条件的快照:新的孢粉学和生物标志物证据

IF 1.6 4区 地球科学 Q2 PALEONTOLOGY
Meghan Duffy , Emily J. Tibbett , Catherine Smith , Sophie Warny , Sarah J. Feakins , Gilles Escarguel , Rosemary Askin , Amy Leventer , Amelia E. Shevenell
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引用次数: 2

摘要

奥罗拉冰下盆地(Aurora Subglacial Basin, ASB)集水区包含3-5米的相当于海平面的冰量,通过Totten冰川系统流入南极洲东部的萨布丽娜海岸。观测到的Totten冰川变薄和退缩表明区域对海洋和大气变暖的敏感性。气候敏感流域的古气候研究是了解南极东部冰盖及其出口冰川系统演变的必要条件。Sabrina海岸最近的地震和沉积物研究记录了ASB流域EAIS的演变,表明该地区长期以来对气候变化很敏感。本文介绍了来自萨布丽娜海岸大陆架沉积物的孢粉学和生物标志物的新数据。从四个短巨型活塞岩心(JPC;NBP14-02 JPC-30, -31, -54和-55),能够重建新生代EAIS发育之前和期间的区域植被和环境。Sabrina植物区系以被子植物为主,Gambierina spp.占总组合的40%以上,Proteaceae、Battenipollis spp.、Forcipites spp.、Nothofagidites spp.、蕨类和针叶林等种类繁多,显示出开放的灌木生态系统。Gambierina spp.集群保存完好且频繁出现,表明Sabrina Flora的大部分组合与沉积是准同生的;然而,这种沉积是发生在晚白垩世还是古近纪还存在一些不确定性。尽管存在这种不确定性,但高丰度的Gambierina spp.和Battenipollis spp.,加上相对较低(<10%)的Nothofagidites spp.丰度表明,Sabrina植物群在南极洲是独一无二的。生物标记物的评估发现了准同时期和再加工成分的证据。准同生C30正烷烃酸的δ13C值为−30.2±0.5‰,与开阔林冠林地或灌丛开阔植被的δ13C值一致。它们的氢同位素(δD)值为- 215±4.5‰,表明降水同位素组成(δ dprecp)为- 130‰,与今天同一地区的沿海积雪相似。Sabrina Flora palynomorph和植物蜡的数据共同表明,南极洲东部极光盆地的沿海植被更干燥、更开放,而不是白垩纪到古近纪期间南极洲其他地区经常描述的封闭雨林植被。为了直接比较南极周围的记录,需要更多的具有更好的生物地层学约束的长沉积记录。这些记录将有助于确定区域气候梯度或小气候,并允许评估驱动观测到的差异的环境条件和机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Snapshots of pre-glacial paleoenvironmental conditions along the Sabrina Coast, East Antarctica: New palynological and biomarker evidence

The Aurora Subglacial Basin (ASB) catchment contains 3–5 m of sea-level equivalent ice volume that drains to the Sabrina Coast, East Antarctica via the Totten Glacier system. Observed thinning and retreat of Totten Glacier indicate regional sensitivity to oceanographic and atmospheric warming. Paleoclimate studies of climatically sensitive catchments are required to understand the evolution of the East Antarctic Ice Sheet (EAIS) and its outlet glacier systems. Recent seismic and sediment studies from the Sabrina Coast document the evolution of the EAIS in the ASB catchment, suggesting that the region has long been sensitive to climatic changes. This study presents new palynological and biomarker data from Sabrina Coast continental shelf sediments. Detailed palynological records were obtained from four short jumbo piston cores (JPC; NBP14-02 JPC-30, -31, -54 and -55), enabling reconstructions of regional vegetation and environments prior to and during Cenozoic EAIS development. The Sabrina Flora is dominated by angiosperms, with Gambierina spp. often exceeding 40% of the assemblage, and diverse Proteaceae, Battenipollis spp., Forcipites spp., Nothofagidites spp., fern, and conifer palynomorphs indicative of an open shrubby ecosystem. Excellent preservation and frequent occurrence of Gambierina spp. clusters suggest that a majority of the Sabrina Flora assemblage is penecontemporaneous with sedimentation; however, some uncertainties remain whether this sedimentation occurred in the Late Cretaceous or the Paleogene. Despite that uncertainty, high abundances of Gambierina spp. and Battenipollis spp., in combination with relatively low (<10%) Nothofagidites spp. abundances indicate that the Sabrina Flora is unique in Antarctica. Evaluation of biomarkers finds evidence for penecontemporaneous and reworked components. The penecontemporaneous C30 n-alkanoic acids have δ13C values of −30.2 ± 0.5‰, consistent with δ13C values in an open canopy woodland or shrubby open vegetation. Their hydrogen isotope (δD) values of −215 ± 4.5‰, indicate precipitation isotopic composition (δDprecip) of −130‰, similar to coastal snow in the same region today. Together, Sabrina Flora palynomorph and plant wax data suggest a drier, more open coastal vegetation in the Aurora Basin of East Antarctica rather than the closed rainforest vegetation often described from other parts of Antarctica for the Cretaceous to Paleogene. To directly compare records from the circum-Antarctic, additional long sedimentary records with improved biostratigraphic constraints are required. Such records will enable identification of regional climate gradients or micro-climates, and allow assessment of the environmental conditions and mechanisms driving observed differences.

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来源期刊
Geobios
Geobios 地学-古生物学
CiteScore
3.30
自引率
6.20%
发文量
28
审稿时长
6-12 weeks
期刊介绍: Geobios publishes bimonthly in English original peer-reviewed articles of international interest in any area of paleontology, paleobiology, paleoecology, paleobiogeography, (bio)stratigraphy and biogeochemistry. All taxonomic groups are treated, including microfossils, invertebrates, plants, vertebrates and ichnofossils. Geobios welcomes descriptive papers based on original material (e.g. large Systematic Paleontology works), as well as more analytically and/or methodologically oriented papers, provided they offer strong and significant biochronological/biostratigraphical, paleobiogeographical, paleobiological and/or phylogenetic new insights and perspectices. A high priority level is given to synchronic and/or diachronic studies based on multi- or inter-disciplinary approaches mixing various fields of Earth and Life Sciences. Works based on extant data are also considered, provided they offer significant insights into geological-time studies.
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