A 1100-year multi-proxy palaeoenvironmental record from Lake Höglwörth, Bavaria, Germany

IF 1.3 Q2 GEOLOGY E&G Quaternary Science Journal Pub Date : 2023-11-14 DOI:10.5194/egqsj-72-219-2023

Sudip Acharya, Maximilian Prochnow, Thomas Kasper, Linda Langhans, Peter Frenzel, Paul Strobel, Marcel Bliedtner, Gerhard Daut, Christopher Berndt, Sönke Szidat, Gary Salazar, Antje Schwalb, Roland Zech

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Abstract

Abstract. Anthropogenic activities have exerted strong influence on ecosystems worldwide, particularly since 1950 CE. The local impact of past human activities often started much earlier and deserves detailed study. Here, we present an environmental record from a 278 cm long sedimentary core from Lake Höglwörth (Bavaria, Germany). Sedimentological and geochemical parameters indicate that the organic-rich bottom sediments of the record consist of peat that formed prior to 870-160+140 CE, when lake sediments started to accumulate. After 870-160+140 CE, distinct shifts in lithology, elemental composition, and the biological record are visible and are interpreted to result from the construction of a monastery on the lake peninsula in 1125 CE and/or the damming of the lake. From 1120±120 to 1240-120+110 CE, the lake environment was relatively stable. This period was followed by enhanced deforestation that led to a more open landscape and soil erosion, visible in increased allochthonous input from 1240-120+110 to 1380-110+90 CE. This was accompanied by high aquatic productivity and bottom or interstitial water anoxia from 1310-120+100 to 1470-100+90 CE, possibly triggered by increased nutrient availability. Enhanced allochthonous input and a substantial shift in the aquatic community can be assigned to the construction of a flour mill and related rerouting of a small creek in 1701 CE. High aquatic productivity and bottom or interstitial water anoxia after 1960±10 CE correspond to recent eutrophication resulting from accelerated local anthropogenic activities. The sedimentary record from Lake Höglwörth exemplarily demonstrates that anthropogenic activities have had substantial environmental impacts on aquatic environments during the past millennium.

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德国巴伐利亚Höglwörth湖1100年多代用古环境记录

摘要人类活动对全球生态系统产生了强烈的影响，特别是自1950年以来。过去人类活动对当地的影响往往开始得更早，值得详细研究。在这里，我们介绍了来自德国巴伐利亚Höglwörth湖的278厘米长的沉积岩心的环境记录。沉积学和地球化学参数表明，记录的富有机质底部沉积物是在870-160+140 CE之前形成的泥炭，此时湖泊沉积物开始积聚。公元870-160+140年之后，岩石学、元素组成和生物记录的明显变化是可见的，这被解释为公元1125年在湖半岛上建造修道院和/或筑坝的结果。1120±120 ~ 1240 ~ 120+110 CE，湖泊环境相对稳定。这一时期之后，森林砍伐加剧，导致景观更加开放和土壤侵蚀，从公元1240-120+110年到1380-110+90年的外来输入增加可见一睹。在1310-120+100至1470-100+90 CE期间，伴随着高水生生产力和底部或间隙水缺氧，这可能是由养分有效性增加引起的。公元1701年，一个面粉厂的建设和一条小溪的改道导致了外来投入的增加和水生群落的实质性转变。1960±10 CE之后的高水生生产力和底部或间隙水缺氧与最近由局部人为活动加速引起的富营养化相对应。Höglwörth湖的沉积记录举例说明，在过去一千年中，人类活动对水生环境产生了重大的环境影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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