提高道路网络对气候变化引起的地面移动影响的抵御能力——英国林肯郡的一项案例研究

IF 1.3 4区 工程技术 Q3 ENGINEERING, GEOLOGICAL Quarterly Journal of Engineering Geology and Hydrogeology Pub Date : 2023-05-17 DOI:10.1144/qjegh2023-002
A. Harrison, M. Heaton, D. Entwisle
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引用次数: 0

摘要

由于基础设施老化、气候变化和交通量增加,英国的公路网正在恶化。由于社区和经济对正常运行的道路系统的依赖,迫切需要建立韧性。由于潜在的地质条件,林肯郡南部的道路很容易受到地面运动的影响。泥炭、潮坪沉积物和冲积层等沉积物具有很高的压缩敏感性,特别是在负载时,或者由于气候变化或排水沟中的水减少而导致的含水量损失。林肯郡乡村发展道路的浅基础源于古老的泥道,施工不善,增加了它们的流动性。损伤类型包括纵向裂纹、边缘失效和不均匀的长截面轮廓。通过英国地质调查局和林肯郡议会之间的知识交流、数据共享和合作,证明了道路状况与地质灾害易感性之间的直接关系;显示可压缩地面与道路损坏的相关性比最初考虑的更大。这表明,更好地了解地质、气候和人为驱动力对地面移动和道路损坏之间的关系,可以更明智地确定维修优先级、决策支持,并改进定制的道路维修实践,提高道路网络未来的弹性。主题集:本文是工程地质学和水文地质学中气候变化和复原力集的一部分,可在以下网站获取:https://www.lyellcollection.org/topic/collections/climate-change-and-resilience-in-engineering-geology-and-hydrogeology
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Increasing road network resilience to the impacts of ground movement due to climate change – A case study from Lincolnshire, United Kingdom
The UK road network is deteriorating due to ageing infrastructure, climate change and increasing traffic. Due to community and economic reliance on a functioning road system, there is an urgent requirement to build resilience. The roads of south Lincolnshire have high susceptibility to ground movement due to the underlying geology. Deposits such as peat, tidal flat deposits, and alluvium have a high susceptibility to compress, particularly when loaded, or through loss of water content driven by climate change or lowering of water in drainage channels. The shallow foundations of Lincolnshire's rural evolved roads, originating from old mud tracks, are poorly constructed, increasing their vulnerability to movement. Types of damage include longitudinal cracking, edge failure, and uneven long section profiles. Through knowledge exchange, data sharing and collaboration between the British Geological Survey and Lincolnshire County Council, a direct relationship between road condition and geohazard susceptibility has been demonstrated; showing compressible ground has a greater correlation with road damage than originally considered. This suggests improved understanding of the relationships between the geological, climatic, and anthropogenic driving forces on ground movement and road damage enables more informed repair prioritisation, decision support, and improved bespoke road repair practices, increasing future resilience of road networks. Thematic collection: This article is part of the Climate change and resilience in Engineering Geology and Hydrogeology collection available at: https://www.lyellcollection.org/topic/collections/climate-change-and-resilience-in-engineering-geology-and-hydrogeology
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来源期刊
CiteScore
3.40
自引率
14.30%
发文量
66
审稿时长
6 months
期刊介绍: Quarterly Journal of Engineering Geology and Hydrogeology is owned by the Geological Society of London and published by the Geological Society Publishing House. Quarterly Journal of Engineering Geology & Hydrogeology (QJEGH) is an established peer reviewed international journal featuring papers on geology as applied to civil engineering mining practice and water resources. Papers are invited from, and about, all areas of the world on engineering geology and hydrogeology topics. This includes but is not limited to: applied geophysics, engineering geomorphology, environmental geology, hydrogeology, groundwater quality, ground source heat, contaminated land, waste management, land use planning, geotechnics, rock mechanics, geomaterials and geological hazards. The journal publishes the prestigious Glossop and Ineson lectures, research papers, case studies, review articles, technical notes, photographic features, thematic sets, discussion papers, editorial opinion and book reviews.
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