Archaeological dating of colluvial and lacustrine deposits in a GIS environment investigating the multi-period site Gortz 1 on Oberer Beetzsee, Brandenburg

J. Reichel, Sophie F. Heisig, T. Schenk, Thomas Schatz
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引用次数: 1

Abstract

Abstract. From the mid-14th century CE onwards, extensive soil erosion, caused by intensive agricultural practices, has led to the destruction of landscape structures in Central Europe. In 2016, the University of Applied Sciences in Berlin investigated the colluvial deposits at the site of Gortz in western Brandenburg (Germany), which had accumulated on the lower slopes and were caused by the processes just mentioned. The mapping of each individual archaeological find made it possible to project all finds onto one profile running along the slope. Transformation of the finds' coordinates from profile view to plan view enabled the visualization in a Geographical Information System (GIS). The combination of adjacent strata into larger units using a pedological and sedimentological approach enabled an improved dating of colluvial deposits. In addition, the method facilitated the dating of historical water levels in the Beetzsee chain of lakes, which are part of the Havel river system. As a result, it could be demonstrated that substantial anthropogenic activity, such as clay quarrying and bank straightening, took place during the Late Slavic Period. An interlocking horizon of colluvial and lacustrine deposits indicates that the water level of the lake Oberer Beetzsee rose from a value under 29.4 m above sea level (a.s.l.) in the 11th/12th century CE to approximately 29.8 m a.s.l. in the 13th century CE. However, isolated flooding events during the 13th century CE can be recorded up to a height of 30.5 m a.s.l. A modern colluvial deposit of 1 m in thickness indicates an acute endangerment of the archaeological site by modern agriculture.
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在GIS环境下对勃兰登堡Oberer Beetzsee的多时期遗址Gortz 1进行的崩塌和湖泊沉积物的考古测年
摘要从公元14世纪中期开始,集约化的农业生产造成了大面积的水土流失,导致中欧的景观结构遭到破坏。2016年,柏林应用科学大学(University of Applied Sciences In berlin)对德国勃兰登堡西部戈尔茨(Gortz)遗址的崩塌沉积物进行了调查,这些沉积物积聚在较低的斜坡上,是由上述过程造成的。对每一个考古发现的测绘使得所有的考古发现都有可能在沿着斜坡的一条剖面上进行投影。将发现的坐标从剖面视图转换为平面视图,使其在地理信息系统(GIS)中可视化。利用土壤学和沉积学方法将相邻地层组合成更大的单元,可以改进对崩积矿床的定年。此外,该方法还有助于确定哈维尔河水系的一部分比茨湖的历史水位。因此,可以证明大量的人类活动,如粘土采掘和河岸矫直,发生在晚期斯拉夫时期。崩塌和湖泊沉积物的交错层位表明Oberer Beetzsee湖的水位从公元11 /12世纪海拔29.4 m (a.s.l)以下的值上升到大约29.8 m a.s.l。公元13世纪然而,公元13世纪的个别洪水事件可以记录到海拔30.5米的高度。1米厚的现代崩塌沉积物表明,现代农业对考古遗址造成了严重的危害。
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