The deglaciation of Upernavik trough, West Greenland, and its Holocene sediment infill: processes and provenance

IF 2.4 3区 地球科学 Q2 GEOGRAPHY, PHYSICAL Boreas Pub Date : 2023-06-16 DOI:10.1111/bor.12626
Jens Weiser, Jürgen Titschack, Dierk Hebbeln
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Abstract

Under glacial climates, continental ice sheets such as, e.g., the Greenland Ice Sheet, extended onto the continental shelves and often carved out deep cross-shelf troughs. The sedimentary infill of such troughs commonly is a product of the complex interactions between the ice sheets, largely driving sediment input into the ocean, and the surrounding water masses. Off West Greenland, research has focused on the Disko and Uummannaq troughs, leaving the northerly adjacent Upernavik trough relatively understudied. Hence, neither the chronology of deglaciation nor the details of its postglacial infill are sufficiently well understood. Here, we combine computed tomography image-derived information with geochemical and granulometric data from four sediment cores recovered from the Upernavik trough that point to (i) deglaciation of the mid-shelf probably around 13.4 cal. ka BP that was most likely driven by a northward advection of warmer Atlantic waters during the Bølling–Allerød, (ii) the presence of widespread mass wasting around 8 cal. ka BP on the inner shelf and (iii) the complex interplay between various modes of sediment input, transport and deposition under hemipelagic sedimentation afterwards. While this interplay complicates provenance studies, we identify two major sediment delivery mechanisms that control transport and deposition from four sediment source areas. Through the Early Holocene the relative contributions of sediments from the various sources changed from a predominantly local origin to more southerly sources, mainly driven by decreasing input from the local sources. The integration of relative sediment source contributions with varying sedimentation rates challenges previous studies postulating intensified sediment delivery from the south through a greater influence of the West Greenland Current and highlights the need for the integration of sediment input and transport mechanisms into provenance studies in the area.

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格陵兰岛西部Upernavik槽的冰川消融及其全新世沉积物填充:过程和物源
在冰川气候下,大陆冰盖,如格陵兰冰盖,延伸到大陆架上,并经常形成深的跨大陆架槽。这种槽的沉积填充通常是冰盖之间复杂相互作用的产物,在很大程度上推动沉积物进入海洋和周围的水团。在格陵兰岛西部,研究的重点是Disko和Uummannaq槽,使北部相邻的Upernavik槽研究相对不足。因此,无论是冰川消退的年代还是冰川后填充的细节都没有得到充分的了解。在这里,我们将计算机断层扫描图像衍生的信息与从Upernavik槽回收的四个沉积物岩心的地球化学和粒度数据相结合,这些数据表明(i)中陆架的冰川消退可能在13.4卡左右。 ka BP,最有可能是由Bølling–Allerød期间温暖的大西洋水域的向北平流驱动的,(ii)存在大约8卡的大范围质量浪费。 ka BP在内陆架上,以及(iii)之后在半上层沉积下沉积物输入、运输和沉积的各种模式之间的复杂相互作用。虽然这种相互作用使物源研究复杂化,但我们确定了两种主要的沉积物输送机制,它们控制着四个沉积物源区的运输和沉积。在全新世早期,来自不同来源的沉积物的相对贡献从主要的本地来源变为更偏南的来源,主要是由本地来源的输入减少驱动的。将相对沉积物来源贡献与不同沉积速率相结合,挑战了先前的研究,即假设通过西格陵兰洋流的更大影响从南部加强沉积物输送,并强调了将沉积物输入和输送机制纳入该地区物源研究的必要性。
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来源期刊
Boreas
Boreas 地学-地球科学综合
CiteScore
5.90
自引率
4.50%
发文量
36
审稿时长
>12 weeks
期刊介绍: Boreas has been published since 1972. Articles of wide international interest from all branches of Quaternary research are published. Biological as well as non-biological aspects of the Quaternary environment, in both glaciated and non-glaciated areas, are dealt with: Climate, shore displacement, glacial features, landforms, sediments, organisms and their habitat, and stratigraphical and chronological relationships. Anticipated international interest, at least within a continent or a considerable part of it, is a main criterion for the acceptance of papers. Besides articles, short items like discussion contributions and book reviews are published.
期刊最新文献
Issue Information Boreas Reviewers, volume 53 Late Middle Pleistocene (MIS 11-6) in Europe – introduction Late Middle Pleistocene Wolstonian Stage (MIS 6) glaciation in lowland Britain and its North Sea regional equivalents – a review Issue Information
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