P.W. Hoebe , K.M. Cohen , F.S. Busschers , S. van Heteren , J.H.M. Peeters
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引用次数: 0
摘要
海平面上升是西北欧全新世早期环境变化的一个关键因素。海平面上升影响了中石器时代的狩猎采集者群落,淹没了目前北海的大片地区,即通常所说的多格兰德(Doggerland)。在本文中,我们介绍了北海南部的新型淹没模型,直观地展示了海平面上升导致的横向淹没,并将其与考古遗址放射性碳年代的频率分析联系起来。我们为北海南部的东部地区构建了一个古DEM(更新世顶部的复合高程网格);并构建了海平面,该海平面结合了分别为英国和斯堪的纳维亚半岛南部优化的冰川-等静力调整模型得出的相对海平面曲线。我们根据构造背景海盆沉降对古海平面模型进行了修正,并在淹没模型中考虑了沿海地区泥炭压实前的海拔高度。我们评估了这些模型要素对结果的影响,并描述了多格尔兰可能的淹没历史。我们提出的淹没时间比以前的模型预测的要早,表明在公元前 10.5-10 ka 年左右出现了显著的面积损失。采用复合核密度估计和排列测试求和概率分布来代表人类活动的能见度、性质和强度。结果表明,数据集中记录了增长和衰退的关键时期,以及增长率的地区差异,其中一些与淹没阶段相关。我们主要发现,德国西北部和荷兰在 10.5-10 ka 前后的增长率较高,与上述大面积消失的阶段同时出现,而且与中石器时代早期遗址的文化和习俗的变化同时出现。我们讨论了淹没模型和沉积物数据在理解地貌岩石学如何影响考古格局方面的重要性,特别是在 "日期即数据 "方法中的重要性。
Early Holocene inundation of Doggerland and its impact on hunter-gatherers: An inundation model and dates-as-data approach
Sea-level rise was a key factor changing environments during the Early Holocene in Northwest Europe. It affected Mesolithic hunter-gatherer communities by inundating large areas in the current North Sea, commonly referred to as Doggerland. In this paper we present novel inundation models for the southern North Sea providing visualisations of lateral inundation driven by sea-level rise and relate it to frequency analysis of radiocarbon dates from archaeological sites. These improve on previous studies that relied on bathymetric data, which includes post-inundation overprints of Holocene sedimentation and erosion, and thus significantly underestimates the timing of inundation in some areas.
We constructed a paleoDEM (a composite elevation grid of the top of the Pleistocene) for the eastern part of the southern North Sea; and sea level surfaces that combine relative sea-level curves from glacio-isostatic adjustment models optimised for Britain and southern Scandinavia respectively. We corrected our paleoDEMs for tectonic background basin subsidence, and in the inundation modelling account for pre-compaction elevation of peat in coastal areas. We evaluated the impact of these model components on our results and describe the possible inundation history of Doggerland. We suggest earlier inundation than predicted by previous models, showing significant area loss around 10.5–10 ka cal BP.
Palaeogeographic changes are compared with archaeological radiocarbon data using a dates-as-data approach. Composite Kernel Density Estimate and permutation tested Summed Probability Distributions are used as a proxy for the visibility, nature and intensity of human activity. Results indicate key periods of growth and decline recorded in the dataset, as well as regional differences in growth rate, some correlating with inundation phases. Chiefly, we find elevated growth rates around 10.5–10 ka in northwest Germany and the Netherlands, contemporaneous with the abovementioned phase of extensive area loss, and moreover, with changes in culture and practices on Early Mesolithic sites.
However, the spatiotemporal distribution of archaeological data is significantly influenced by accessibility and preservation of sediments of a certain age. We discuss the importance of inundation modelling and sediment data in understanding how landscape taphonomy affects archaeological patterning, especially in dates-as-data approaches.
期刊介绍:
Quaternary International is the official journal of the International Union for Quaternary Research. The objectives are to publish a high quality scientific journal under the auspices of the premier Quaternary association that reflects the interdisciplinary nature of INQUA and records recent advances in Quaternary science that appeal to a wide audience.
This series will encompass all the full spectrum of the physical and natural sciences that are commonly employed in solving Quaternary problems. The policy is to publish peer refereed collected research papers from symposia, workshops and meetings sponsored by INQUA. In addition, other organizations may request publication of their collected works pertaining to the Quaternary.