115 years of sediment deposition in a reservoir in Central Europe: Effects of the industrial history and environmental protection on heavy metals and microplastic

IF 2.8 3区 地球科学 Q2 GEOGRAPHY, PHYSICAL
Georg Stauch, Philipp Schulte, Christina Schwanen, Eberhard Andreas Kümmerle, Lukas Dörwald, Alexander Esch, Frank Lehmkuhl, Janek Walk
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Abstract

Humans have considerably influenced accumulation rates and sediment composition in lake deposits. Due to near-continuous accumulation, lakes and reservoirs are an excellent archive of these anthropogenic influences. The Urft Reservoir in the Eifel Mountains, western Germany, provides a unique record of the human influence on the landscape for the past 115 years. In 2020 and 2021, 24 cores and 23 surface samples were obtained from the bottom of the, by that time drained, reservoir. Grain size, heavy metals, weathering signatures and microplastic were analysed. For the chronology, caesium-137 and microplastic were used. Using the first occurrence of microplastic as well as different plastic types for dating was not successful. However, a distinct layer with a high number of microplastic particles could be traced back to a fire in 1991 and was used as an additional stratigraphic marker in the age-depth model. A period of relatively high accumulation rates in the reservoir occurred in the mid-1950s and was related to enhanced construction works in the local valleys. Analysis of heavy metal content in the reservoir sediments shows a strong connection to historical changes in ore industry in the valley of the Urft. Stricter environmental protection laws and the decline of the metal processing industry resulted in a reduced input of lead, copper and zinc in the reservoir until the mid-1980s. Since then, heavy metal content has remained relatively constant. A major flooding event in July 2021 did not lead to the remobilisation of older contaminated deposits as indicated by low heavy metal content in flood deposits. Accordingly, also the microplastic content is not increasing following the extreme event. Due to the degree of weathering of the flood deposits, it is argued that mainly hillslope material was transported into the Urft and subsequently into the Urft Reservoir during this event.

Abstract Image

中欧一个水库 115 年的沉积物沉积:工业历史和环境保护对重金属和微塑料的影响
人类在很大程度上影响了湖泊沉积物的堆积速度和沉积成分。由于湖泊和水库几乎持续不断地积累,因此是这些人为影响的绝佳档案。位于德国西部艾菲尔山脉的乌尔夫特水库(Urft Reservoir)为过去 115 年人类对地貌的影响提供了独一无二的记录。2020 年和 2021 年,从当时已经干涸的水库底部采集了 24 个岩心和 23 个表面样本。对粒度、重金属、风化特征和微塑料进行了分析。在年代学方面,使用了铯-137 和微塑料。使用首次出现的微塑料以及不同类型的塑料进行年代测定并不成功。不过,一个含有大量微塑料颗粒的明显层可以追溯到 1991 年的一场火灾,并在年龄-深度模型中用作额外的地层标记。20 世纪 50 年代中期,水库中出现了一个相对较高的堆积率时期,这与当地山谷中加强建筑工程有关。对水库沉积物中重金属含量的分析表明,这与乌尔夫特河流域矿石工业的历史变迁密切相关。更严格的环境保护法和金属加工业的衰落导致水库中铅、铜和锌的输入量减少,直至 20 世纪 80 年代中期。此后,重金属含量一直保持相对稳定。2021 年 7 月的一次大洪水并没有导致旧污染沉积物的重新移动,洪水沉积物中的重金属含量较低就说明了这一点。因此,在这次极端事件之后,微塑料的含量也没有增加。根据洪水沉积物的风化程度,可以认为在这次事件中,主要是山坡物质被运入厄夫特河,随后进入厄夫特水库。
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来源期刊
Earth Surface Processes and Landforms
Earth Surface Processes and Landforms 地学-地球科学综合
CiteScore
6.40
自引率
12.10%
发文量
215
审稿时长
4 months
期刊介绍: Earth Surface Processes and Landforms is an interdisciplinary international journal concerned with: the interactions between surface processes and landforms and landscapes; that lead to physical, chemical and biological changes; and which in turn create; current landscapes and the geological record of past landscapes. Its focus is core to both physical geographical and geological communities, and also the wider geosciences
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