The cyclic expansion and contraction characteristics of a loess slope and implications for slope stability
Abstract Loess covers approximately 6.6% of China and forms thick extensive deposits in the northern and northwestern parts of the country. Natural erosional processes and human modification of thick loess deposits have produced abundant, potentially unstable steep slopes in this region. Slope defor...
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Nature Portfolio
2021
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oai:doaj.org-article:1fff8d12b0354f708dddcd23dd5e7bcb2021-12-02T10:48:03ZThe cyclic expansion and contraction characteristics of a loess slope and implications for slope stability10.1038/s41598-021-81821-42045-2322https://doaj.org/article/1fff8d12b0354f708dddcd23dd5e7bcb2021-01-01T00:00:00Zhttps://doi.org/10.1038/s41598-021-81821-4https://doaj.org/toc/2045-2322Abstract Loess covers approximately 6.6% of China and forms thick extensive deposits in the northern and northwestern parts of the country. Natural erosional processes and human modification of thick loess deposits have produced abundant, potentially unstable steep slopes in this region. Slope deformation monitoring aimed at evaluating the mechanical behavior of a loess slope has shown a cyclic pattern of contraction and expansion. Such cyclic strain change on the slope materials can damage the loess and contribute to slope instability. The site showing this behavior is a 70-m high loess slope near Yan’an city in Shanxi Province, northwest China. A Ground-Based Synthetic Aperture Radar (GB-SAR) sensor and a displacement meter were used to monitor this cyclic deformation of the slope over a one-year period from September 2018 to August 2019. It is postulated that this cyclic behavior corresponds to thermal and moisture fluctuations, following energy conservation laws. To investigate the validity of this mechanism, physical models of soil temperature and moisture measured by hygrothermographs were used to simulate the observed cyclic deformations. We found good correlations between the models based on the proposed mechanism and the exhibited daily and annual cyclic contraction and expansion. The slope absorbed energy from the time of maximum contraction to the time of maximum expansion, and released energy from the time of maximum expansion to the time of maximum contraction. Recoverable cyclic deformations suggest stresses in the loess are within the elastic range, and non-recoverable cyclic deformations suggest damage of the loess material (breakage of bonds between soil grains), which could lead to instability. Based on these observations and the models, we developed a quantitative relationship between weather cycles and thermal deformation of the slope. Given the current climate change projections of temperature increases of up to 3.5 °C by 2100, the model estimates the loess slope to expand about 0.35 mm in average, which would be in addition to the current cyclic “breathing” behavior experienced by the slope.Hengxing LanXiaoxia ZhaoRenato MacciottaJianbing PengLangping LiYuming WuYanbo ZhuXin LiuNing ZhangShijie LiuChenghu ZhouJohn J. ClagueNature PortfolioarticleMedicineRScienceQENScientific Reports, Vol 11, Iss 1, Pp 1-14 (2021) |
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Medicine R Science Q Hengxing Lan Xiaoxia Zhao Renato Macciotta Jianbing Peng Langping Li Yuming Wu Yanbo Zhu Xin Liu Ning Zhang Shijie Liu Chenghu Zhou John J. Clague The cyclic expansion and contraction characteristics of a loess slope and implications for slope stability |
| description |
Abstract Loess covers approximately 6.6% of China and forms thick extensive deposits in the northern and northwestern parts of the country. Natural erosional processes and human modification of thick loess deposits have produced abundant, potentially unstable steep slopes in this region. Slope deformation monitoring aimed at evaluating the mechanical behavior of a loess slope has shown a cyclic pattern of contraction and expansion. Such cyclic strain change on the slope materials can damage the loess and contribute to slope instability. The site showing this behavior is a 70-m high loess slope near Yan’an city in Shanxi Province, northwest China. A Ground-Based Synthetic Aperture Radar (GB-SAR) sensor and a displacement meter were used to monitor this cyclic deformation of the slope over a one-year period from September 2018 to August 2019. It is postulated that this cyclic behavior corresponds to thermal and moisture fluctuations, following energy conservation laws. To investigate the validity of this mechanism, physical models of soil temperature and moisture measured by hygrothermographs were used to simulate the observed cyclic deformations. We found good correlations between the models based on the proposed mechanism and the exhibited daily and annual cyclic contraction and expansion. The slope absorbed energy from the time of maximum contraction to the time of maximum expansion, and released energy from the time of maximum expansion to the time of maximum contraction. Recoverable cyclic deformations suggest stresses in the loess are within the elastic range, and non-recoverable cyclic deformations suggest damage of the loess material (breakage of bonds between soil grains), which could lead to instability. Based on these observations and the models, we developed a quantitative relationship between weather cycles and thermal deformation of the slope. Given the current climate change projections of temperature increases of up to 3.5 °C by 2100, the model estimates the loess slope to expand about 0.35 mm in average, which would be in addition to the current cyclic “breathing” behavior experienced by the slope. |
| format |
article |
| author |
Hengxing Lan Xiaoxia Zhao Renato Macciotta Jianbing Peng Langping Li Yuming Wu Yanbo Zhu Xin Liu Ning Zhang Shijie Liu Chenghu Zhou John J. Clague |
| author_facet |
Hengxing Lan Xiaoxia Zhao Renato Macciotta Jianbing Peng Langping Li Yuming Wu Yanbo Zhu Xin Liu Ning Zhang Shijie Liu Chenghu Zhou John J. Clague |
| author_sort |
Hengxing Lan |
| title |
The cyclic expansion and contraction characteristics of a loess slope and implications for slope stability |
| title_short |
The cyclic expansion and contraction characteristics of a loess slope and implications for slope stability |
| title_full |
The cyclic expansion and contraction characteristics of a loess slope and implications for slope stability |
| title_fullStr |
The cyclic expansion and contraction characteristics of a loess slope and implications for slope stability |
| title_full_unstemmed |
The cyclic expansion and contraction characteristics of a loess slope and implications for slope stability |
| title_sort |
cyclic expansion and contraction characteristics of a loess slope and implications for slope stability |
| publisher |
Nature Portfolio |
| publishDate |
2021 |
| url |
https://doaj.org/article/1fff8d12b0354f708dddcd23dd5e7bcb |
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