Abstract
Dali County is located in the eastern Weihe Basin where frequent ground fissure disasters occur. Dali ground fissures are macroscopically part of the ground fissure group in the Weihe Basin and have caused serious damage to infrastructure and agricultural production in this area. In this paper, 25 ground fissures in Dali County are identified through investigation, and two typical ground fissures in Fengcun and Weizhuang are selected for research. Through field investigation, trench excavation, geophysical exploration, soil water content tests and collapsibility coefficient tests, the basic features, shallow structural characteristics, deep structural characteristics and genetic mechanisms of the two ground fissures are revealed. The strike of the Fengcun ground fissure is 45°, almost parallel to the Shuangquan-Linyi Fault; the length is 2 km, and the profile is ladder-like and extends deep with synsedimentary characteristics. The Weizhuang ground fissures are circular in plan view with a length of 315 m and trumpet-shaped in profile; they disappear in the paleosol layer. The mechanism of the Fengcun ground fissure is related to basin extension and fault activity. The ground fissures are the surface reflections of deep faults. The mechanism of the Weizhuang ground fissures is related to loess collapsibility and seepage. The Malan loess has differential settlement in collapsible and noncollapsible areas, and ground fissures are the boundary line for differential settlement of loess. Finally, based on the genetic mechanisms of ground fissures, Dali ground fissures can be divided into two types: tectonic and nontectonic.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ayalew L, Yamagishi H, Reik G (2004) Ground cracks in Ethiopian Rift Valley: facts and uncertainties. Eng Geol 75(3–4):309–324
Bankher KA, Al-Harthi AA (1999) Earth fissuring and land subsidence in western Saudi Arabia. Nat Hazards 20(1):21–42
Budhu M (2010) Earth fissure formation from the mechanics of groundwater pumping. Int J Geomech 11(1):1–11
Chen MY, Wang SJ, Huang KX, Wang GR (1998) Cenozoic composite extensional tectonic system in eastern Weibei, Shaanxi. J Geol Min Res North China 03:6–14. (In Chinese)
Chen ZX, Yuan ZH, Peng JB, Li XA, Mao SL, Hui XH (2007) Basic characteristics of ground fissure development in Weihe Basin. J Eng Geol 15(4):441–447. (In Chinese)
Deng QD, Zhang YM, Xu GL, Fan FT (1979) On the tectonic stress field in China and its relation to plate movement. Seimol Geol 1(1):11–22
Etchecopar A, Vasseur G, Daignieres M (1981) An inverse problem in microtectonics for the determination of stress tensors from fault striation analysis. J Struct Geol 3(1):51–65
Haneberg WC, Reynolds CB, Reynolds IB (1992) Geophysical characterization of soil deformation associated with earth fissures near San Marcial and Deming, New Mexico. In: International journal of rock mechanics and mining sciences and geomechanics abstracts, vol 29, no 4, Elsevier Science, pp 235–235
Hauksson E (1983) Episodic rifting and volcanism at Krafla in North Iceland: growth of large ground fissures along the plate boundary. J Geophys Res-Solid Earth 88(B1):625–636
Holzer TL (1984) Ground failure caused by groundwater withdrawal from unconsolidated sediments-United States. In: Third international symposium on land subsidence, international association of the science of hlydrology
Holzer TL, Pampeyan EH (1981) Earth fissures and localized differential subsidence. Water Resour Res 17(1):223–227
Jachens RC, Holzer TL (1979) Geophysical investigations of ground failure related to ground-water withdrawal-Picacho Basin, Arizona. Groundwater 17(6):574–585
Leonard RJ (1929) An earth fissure in southern Arizona. J Geol 37(8):765–774
Li XA, Hong B, Li LC, Wang L (2017) Experimental study on the effect of loess collapsibility on permeability coefficient. Chin J Highway Transport 30(06):198–208. (In Chinese)
Liu H, Deng KZ, Lei SG, Bian ZF (2015) Mechanism of formation of sliding ground fissure in loess hilly areas caused by underground mining. Int J Min Sci Technol 25(4):553–558
Lu QZ, Qiao JW, Peng JB, Liu ZH, Liu C, Tian LY, Zhao JY (2019) A typical Earth fissure resulting from loess collapse on the loess plateau in the Weihe Basin, China. Eng Geol 10:5189
Pampeyan EH, Holzer TL, Clark MM (1988) Modern ground failure in the Garlock fault zone, Fremont Valley, California. Geol Soc Am Bull 100(5):677–691
Peng JB (2012) Ground fissure disaster in Xi’an. Science Press, Beijing
Peng JB, Zhang J, Su SR, Mi FS (1992) Active faults and geological disasters in Weihe Basin. Northwest University Press, Xi’an
Peng JB, Chen LW, Huang QB, Men YM, Fan W, Yan JK (2013) Physical simulation of ground fissures triggered by underground fault activity. Eng Geol 155:19–30
Peng JB, Qiao JW, Leng YQ, Wang FY, Xue SZ (2016) Distribution and mechanism of the ground fissures in Wei River Basin, the origin of the Silk Road. Environ Earth Sci 75(8):718
Peng JB, Wang FY, Cheng YX, Lu QZ (2018) Characteristics and mechanism of Sanyuan ground fissures in the Weihe Basin, China. Eng Geol 247:48–57
Qiang ZJ, Zhang LR (1984) Quaternary active fault zoning and seismic activity in China. Acta Seismol Sin 4:358–368. (In Chinese)
Qiao JW, Peng JB, Deng YH, Leng YQ, Meng ZJ (2018) Earth fissures in Qinglong Graben in Yuncheng Basin, China. J Earth Syst Sci 127(1):10
Rogers TH (1967) Active extensional faulting north of Hollister near the Calaveras fault zone. Bull Seismol Soc Am 57(4):813–816
Rogers CDF, Dijkstra TA, Smalley IJ (1994) Hydroconsolidation and subsidence of loess: studies from China, Russia, North America and Europe: in memory of Jan Sajgalik. Eng Geol 37(2):83–113
Sarkar I (2004) The role of the 1999 Chamoli earthquake in the formation of ground cracks. J Asian Earth Sci 22(5):529–538
Sun P, Peng JB, Chen LW, Yin YP, Wu SR (2009) Weak tensile characteristics of loess in China-An important reason for ground fissures. Eng Geol 108(1–2):153–159
Wang WD (2009) Background study on regional stability dynamics of ground fissures formation in Xi ‘an. Ph.D. thesis. Chang ‘an University, pp 91–92. (In Chinese)
Wang FY, Peng JB, Lu QZ, Cheng YX, Meng ZJ, Qiao JW (2019) Mechanism of Fuping ground fissure in the Weihe Basin of northwest China: fault and rainfall. Environ Earth Sci 78(14):407
Xu ZH, Ge SM (1984) Inversion of stress field in Fuyun seismic fault zone by sliding direction fitting method. Acta Seismol Sin 4:395–404. (In Chinese)
Xu JS, Peng JB, An HB, Wang FY, Sun HY, Hu HW, Yang BT (2019) Paleochannel-controlled earth fissures in Daming, North China Plain and their implication for underground paleogeomorphology. Geomorphology 327:523–532
Youssef AM, Sabtan AA, Maerz NH, Zabramawi YA (2014) Earth fissures in Wadi Najran, Kingdom of Saudi Arabia. Nat Hazards 71(3):2013–2027
Zang MD, Peng JB, Qi SW (2019) Earth fissures developed within collapsible loess area caused by groundwater uplift in Weihe watershed, northwestern China. J Asian Earth Sci 173:364–373
Acknowledgements
This research was supported by funds from the National Geological Survey of China (DD20160264). The authors also acknowledge the help and support of the China Geological Survey and all those involved in this research.
Author information
Authors and Affiliations
Corresponding authors
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Jia, Z., Lu, Q., Peng, J. et al. Analysis and comparison of two types of ground fissures in Dali County in the Weihe Basin, China. Environ Earth Sci 79, 38 (2020). https://doi.org/10.1007/s12665-019-8783-1
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s12665-019-8783-1