Large-Scale Mapping of the Historical Underground Limestone Quarries Using Mobile Laser Scanning, a Case Study in Riemst, Belgium

IF 2.3 2区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY Geoheritage Pub Date : 2024-07-12 DOI:10.1007/s12371-024-00981-7
Mike Franciscus Aliene Lahaye, Tim De Kock
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Abstract

The cross-border Krijtland region in Belgium and the Netherlands encloses hundreds of historical underground limestone quarries. The municipality of Riemst, Belgium, is used as a case study because of the high density of underground quarries found there, and which are prone to frequent collapses related to the historical underground exploitation. As not all underground quarries have been mapped, a mobile laser scanner has been employed to aid the mapping surveys. This paper investigates how this method and its data can be used in the field of geoheritage and safety studies of underground quarries. The mobile laser scanner is an effective tool in mapping the vast underground networks, as well as georeferencing and mapping underground voids that are inaccessible for normal surveyors using a total station. The large amount of data, obtained by various surveys provides a high level of detail in which different structures and features can be identified. The results demonstrate the presence of different typologies of entrances, gallery morphologies and outlines in various underground quarries. It also appears to be a valuable tool in visualizing and identifying geological and stability features, such as karst, pillar instability and collapse areas. It can be concluded that in the field of safety management and geoheritage studies a mobile laser scanner proves to be an efficient method for mapping, documenting the underground landscape and describing different structural elements of underground quarries.

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利用移动激光扫描对历史上的地下石灰石采石场进行大规模测绘,比利时里姆斯特案例研究
比利时和荷兰的克里特兰跨境地区拥有数百个历史悠久的地下石灰石采石场。比利时里姆斯特市被作为案例进行研究,因为该市地下采石场密度很高,而且由于历史上的地下开采,经常发生坍塌事故。由于并非所有地下采石场都已绘制地图,因此采用了移动式激光扫描仪来辅助绘图勘测。本文探讨了如何将这种方法及其数据用于地下采石场的地质遗产和安全研究领域。移动式激光扫描仪是绘制庞大的地下网络图的有效工具,还能对普通测量人员使用全站仪无法进入的地下空隙进行地理参照和绘图。通过各种勘测获得的大量数据提供了高水平的细节,可以识别不同的结构和特征。结果表明,在各种地下采石场中存在不同类型的入口、巷道形态和轮廓。它似乎也是一种宝贵的工具,可以直观地识别地质和稳定性特征,如岩溶、岩柱不稳定性和塌陷区。可以得出的结论是,在安全管理和地质遗产研究领域,移动激光扫描仪被证明是绘制地图、记录地下景观和描述地下采石场不同结构元素的有效方法。
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来源期刊
Geoheritage
Geoheritage GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
5.10
自引率
34.50%
发文量
107
期刊介绍: The Geoheritage journal is an international journal dedicated to discussing all aspects of our global geoheritage, both in situ and portable. The journal will invite all contributions on the conservation of sites and materials - use, protection and practical heritage management - as well as its interpretation through education, training and tourism. The journal wishes to cover all aspects of geoheritage and its protection. Key topics are: - Identification, characterisation, quantification and management of geoheritage; - Geodiversity and geosites; - On-site science, geological and geomorphological research: - Global scientific heritage - key scientific geosites, GSSPs, stratotype conservation and management; - Scientific research and education, and the promotion of the geosciences thereby; - Conventions, statute and legal instruments, national and international; - Integration of biodiversity and geodiversity in nature conservation and land-use policies; - Geological heritage and Environmental Impact Assessment studies; - Geological heritage, sustainable development, community action, practical initiatives and tourism; - Geoparks: creation, management and outputs; - Conservation in the natural world, Man-made and natural impacts, climate change; - Geotourism definitions, methodologies, and case studies; - International mechanisms for conservation and popularisation - World Heritage Sites, National Parks etc.; - Materials, data and people important in the history of science, museums, collections and all portable geoheritage; - Education and training of geoheritage specialists; - Pedagogical use of geological heritage - publications, teaching media, trails, centres, on-site museums; - Linking the United Nations Decade of Education for Sustainable Development (2005- 2014) with geoconservation.
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