Deep-seated large-scale toppling failure in metamorphic rocks：a case study of the Erguxi slope in southwest China

Deep-seated large-scale toppling failure presents unique challenges in the study of natural slope deformation process in mountainous regions.An active deep-seated toppling process was identified in the Erguxi slope located in southwest China,which affected a large area and damaged critical transport...

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Published in	Journal of mountain science Vol. 13; no. 12; pp. 2094 - 2110
Main Authors	Liu, Ming, Liu, Fang-zhou, Huang, Run-qiu, Pei, Xiang-jun
Format	Journal Article
Language	English
Published	Heidelberg Science Press 01.12.2016 Springer Nature B.V
Subjects	Case studies Deformation Earth and Environmental Science Earth Sciences Ecology Environment Geography Grading Hydroelectric power Infrastructure Metamorphic rocks Mountain Hazards Mountain regions Natural slope Quantitative research Shear strength Slope stability 中国西南部交通基础设施建设倾倒破坏倾倒过程深变质岩深部边坡变形边坡稳定性 China Metamorphic rock Slope stability Largescale toppling Deep-seated slope deformation
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Abstract	Deep-seated large-scale toppling failure presents unique challenges in the study of natural slope deformation process in mountainous regions.An active deep-seated toppling process was identified in the Erguxi slope located in southwest China,which affected a large area and damaged critical transportation infrastructure with the volume of the deforming rock mass exceeding 24×10~6 m~3.It poses significant risks to the downstream Shiziping Hydropower Station by damming the Zagunao River.Field investigation and monitoring results indicate that the deformation of the Erguxi slope is in the advanced stage of deep-seated toppling process,with the formation of a disturbed belt but no identifiable master failure surface.It was postulated that the alternating tensile and shear strength associated with the hard/soft laminated rock strata of metasandstone and phyllite layers preclude the development of either a tensile or shear failure surface,which resulted in the continuous deformation and displacement without a catastrophic mass movement.The slope movement is in close association with the unfavorable geological conditions of the study area in addition to the construction of transportation infrastructure and the increase of the reservoir level.On the basis of the mechanism and intensity of the ongoing toppling deformation,a qualitative grading system was proposed to describe the toppling process and toevaluate the slope stability.This paper summarized the field observation and monitoring data on the toppling deformation for better characterizing its effect on the stability of the Erguxi slope.The qualitative grading system intends to provide a basis for quantitative study of large-scale deep-seated toppling process in metamorphic rocks.
AbstractList	Deep-seated large-scale toppling failure presents unique challenges in the study of natural slope deformation process in mountainous regions. An active deep-seated toppling process was identified in the Erguxi slope located in southwest China, which affected a large area and damaged critical transportation infrastructure with the volume of the deforming rock mass exceeding 24×106 m3. It poses significant risks to the downstream Shiziping Hydropower Station by damming the Zagunao River. Field investigation and monitoring results indicate that the deformation of the Erguxi slope is in the advanced stage of deep-seated toppling process, with the formation of a disturbed belt but no identifiable master failure surface. It was postulated that the alternating tensile and shear strength associated with the hard/soft laminated rock strata of metasandstone and phyllite layers preclude the development of either a tensile or shear failure surface, which resulted in the continuous deformation and displacement without a catastrophic mass movement. The slope movement is in close association with the unfavorable geological conditions of the study area in addition to the construction of transportation infrastructure and the increase of the reservoir level. On the basis of the mechanism and intensity of the ongoing toppling deformation, a qualitative grading system was proposed to describe the toppling process and to evaluate the slope stability. This paper summarized the field observation and monitoring data on the toppling deformation for better characterizing its effect on the stability of the Erguxi slope. The qualitative grading system intends to provide a basis for quantitative study of large-scale deep-seated toppling process in metamorphic rocks. Deep-seated large-scale toppling failure presents unique challenges in the study of natural slope deformation process in mountainous regions.An active deep-seated toppling process was identified in the Erguxi slope located in southwest China,which affected a large area and damaged critical transportation infrastructure with the volume of the deforming rock mass exceeding 24×10~6 m~3.It poses significant risks to the downstream Shiziping Hydropower Station by damming the Zagunao River.Field investigation and monitoring results indicate that the deformation of the Erguxi slope is in the advanced stage of deep-seated toppling process,with the formation of a disturbed belt but no identifiable master failure surface.It was postulated that the alternating tensile and shear strength associated with the hard/soft laminated rock strata of metasandstone and phyllite layers preclude the development of either a tensile or shear failure surface,which resulted in the continuous deformation and displacement without a catastrophic mass movement.The slope movement is in close association with the unfavorable geological conditions of the study area in addition to the construction of transportation infrastructure and the increase of the reservoir level.On the basis of the mechanism and intensity of the ongoing toppling deformation,a qualitative grading system was proposed to describe the toppling process and toevaluate the slope stability.This paper summarized the field observation and monitoring data on the toppling deformation for better characterizing its effect on the stability of the Erguxi slope.The qualitative grading system intends to provide a basis for quantitative study of large-scale deep-seated toppling process in metamorphic rocks. Deep-seated large-scale toppling failure presents unique challenges in the study of natural slope deformation process in mountainous regions. An active deep-seated toppling process was identified in the Erguxi slope located in southwest China, which affected a large area and damaged critical transportation infrastructure with the volume of the deforming rock mass exceeding 24×10 6 m 3 . It poses significant risks to the downstream Shiziping Hydropower Station by damming the Zagunao River. Field investigation and monitoring results indicate that the deformation of the Erguxi slope is in the advanced stage of deep-seated toppling process, with the formation of a disturbed belt but no identifiable master failure surface. It was postulated that the alternating tensile and shear strength associated with the hard/soft laminated rock strata of metasandstone and phyllite layers preclude the development of either a tensile or shear failure surface, which resulted in the continuous deformation and displacement without a catastrophic mass movement. The slope movement is in close association with the unfavorable geological conditions of the study area in addition to the construction of transportation infrastructure and the increase of the reservoir level. On the basis of the mechanism and intensity of the ongoing toppling deformation, a qualitative grading system was proposed to describe the toppling process and to evaluate the slope stability. This paper summarized the field observation and monitoring data on the toppling deformation for better characterizing its effect on the stability of the Erguxi slope. The qualitative grading system intends to provide a basis for quantitative study of large-scale deep-seated toppling process in metamorphic rocks.
Author	LIU Ming LIU Fang-zhou HUANG Run-qiu PEI Xiang-jun
AuthorAffiliation	State Key Laboratory of Geohazard Prevention and C-eoenvironment Protection, Chengdu University of Technology, Chengdu 610059, China School of Civil and Environmental Engineering, Georgia Institute of Technology, Atlanta, GA 30332, USA
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Cites_doi	10.1016/j.ijrmms.2008.01.009 10.1007/BF02591461 10.1139/t91-051 10.1016/S0013-7952(00)00053-3 10.1016/j.geomorph.2011.01.016 10.1016/j.ijrmms.2013.12.020 10.1016/0013-7952(92)90043-X 10.1144/GSL.QJEG.1985.018.03.09 10.1007/s10064-014-0672-y 10.1201/9780203885284-c213 10.1139/t02-027 10.1007/s10064-011-0403-6 10.1017/CBO9780511794827 10.1007/s10346-013-0436-y 10.1016/j.enggeo.2015.07.005 10.1139/T08-094 10.1007/978-3-319-09057-3_2 10.1201/9781482267099 10.1130/0016-7606(1982)93<804:UASITC>2.0.CO;2 10.1139/e90-024 10.1016/0148-9062(78)91472-9 10.1016/j.catena.2013.10.013 10.1139/t90-095 10.1061/(ASCE)1090-0241(2000)126:8(675) 10.1007/BF01024646 10.1016/j.ijrmms.2005.04.010 10.1016/0013-7952(94)90040-X
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Notes	Deep-seated slope deformation Largescale toppling Slope stability Metamorphic rock 51-1668/P Deep-seated large-scale toppling failure presents unique challenges in the study of natural slope deformation process in mountainous regions.An active deep-seated toppling process was identified in the Erguxi slope located in southwest China,which affected a large area and damaged critical transportation infrastructure with the volume of the deforming rock mass exceeding 24×10~6 m~3.It poses significant risks to the downstream Shiziping Hydropower Station by damming the Zagunao River.Field investigation and monitoring results indicate that the deformation of the Erguxi slope is in the advanced stage of deep-seated toppling process,with the formation of a disturbed belt but no identifiable master failure surface.It was postulated that the alternating tensile and shear strength associated with the hard/soft laminated rock strata of metasandstone and phyllite layers preclude the development of either a tensile or shear failure surface,which resulted in the continuous deformation and displacement without a catastrophic mass movement.The slope movement is in close association with the unfavorable geological conditions of the study area in addition to the construction of transportation infrastructure and the increase of the reservoir level.On the basis of the mechanism and intensity of the ongoing toppling deformation,a qualitative grading system was proposed to describe the toppling process and toevaluate the slope stability.This paper summarized the field observation and monitoring data on the toppling deformation for better characterizing its effect on the stability of the Erguxi slope.The qualitative grading system intends to provide a basis for quantitative study of large-scale deep-seated toppling process in metamorphic rocks. ObjectType-Case Study-2 SourceType-Scholarly Journals-1 content type line 14 ObjectType-Feature-3 ObjectType-Report-1
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TsouCYChigiraMMatsushiYChenSCDeep-seated gravitational deformation of mountain slopes caused by river incision in the Central Range, Taiwan: Spatial distribution and geological characteristicsEngineering Geology201519612613810.1016/j.enggeo.2015.07.005 ZhouHNieDLiSIntegrated analysis of formation mechanism for large-scale toppling rock mass of a hydropower station on Lancangjiang RiverAdvances in Science and Technology of Water Resources20123234852 CF Lee (3803_CR20) 1999 QL Deng (3803_CR7) 2000; 58 R Huang (3803_CR16) 2011; 71 MA Pritchard (3803_CR30) 1990; 27 E Mohtarami (3803_CR27) 2014; 67 RE Goodman (3803_CR9) 2013 O Hungr (3803_CR17) 2014; 11 E Hoek (3803_CR13) 1981 CY Tsou (3803_CR37) 2015; 196 M Chigira (3803_CR4) 1992; 32 ZQ Yue (3803_CR39) 2013 Q Li (3803_CR21) 2007 J Sjoberg (3803_CR36) 2000 3803_CR2 RE Goodman (3803_CR11) 2000; 126 T Ishida (3803_CR18) 1987; 20 SL Nichol (3803_CR28) 2002; 39 DJ Varnes (3803_CR38) 1978 L Zhang (3803_CR40) 2015; 33 Z Zhang (3803_CR41) 2015; 74 RE Goodman (3803_CR10) 1976 F Dramis (3803_CR8) 1994; 38 AD Regmi (3803_CR32) 2014; 114 R Huang (3803_CR15) 2015 DM Cruden (3803_CR6) 1996 JM Reitner (3803_CR33) 2009; 102 H Zhou (3803_CR42) 2012; 32 T Pánek (3803_CR29) 2011; 129 MJ Bovis (3803_CR3) 1990; 27 T Mahr (3803_CR26) 1977; 16 G Holmes (3803_CR14) 1985; 18 ISRM (3803_CR19) 1978; 15 CH Liu (3803_CR23) 2009; 46 RS Anderson (3803_CR1) 2010 MA Pritchard (3803_CR31) 1991; 28 Y Liu (3803_CR25) 2006; 61 C Liu (3803_CR22) 2009 CH Liu (3803_CR24) 2008; 45 C Sagaseta (3803_CR34) 2001; 43 Sichuan Provincial Bureau of Geology (3803_CR35) 1979 DM Cruden (3803_CR5) 1987 GS Halliday (3803_CR12) 2008
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River, Guangxi, China year: 1999 ident: 3803_CR20 – volume: 32 start-page: 157 issue: 3 year: 1992 ident: 3803_CR4 publication-title: Engineering Geology doi: 10.1016/0013-7952(92)90043-X – volume: 18 start-page: 287 issue: 3 year: 1985 ident: 3803_CR14 publication-title: Quarterly Journal of Engineering Geology and Hydrogeology doi: 10.1144/GSL.QJEG.1985.018.03.09 – start-page: 11 volume-title: Landslides-Analysis and control: National Academy of Sciences Transportation Research Board Special Report year: 1978 ident: 3803_CR38 – volume: 74 start-page: 943 issue: 3 year: 2015 ident: 3803_CR41 publication-title: Bulletin of Engineering Geology and the Environment doi: 10.1007/s10064-014-0672-y – volume: 32 start-page: 48 issue: 3 year: 2012 ident: 3803_CR42 publication-title: Advances in Science and Technology of Water Resources – volume-title: A small rock avalanche in toppled schist, Lake Wanaka, New Zealand year: 2008 ident: 3803_CR12 doi: 10.1201/9780203885284-c213 – start-page: 323 volume-title: International Symposium on Engineering Geological Environment in Mountainous Areas year: 1987 ident: 3803_CR5 – volume: 39 start-page: 773 issue: 4 year: 2002 ident: 3803_CR28 publication-title: Canadian Geotechnical Journal doi: 10.1139/t02-027 – volume: 71 start-page: 161 issue: 1 year: 2011 ident: 3803_CR16 publication-title: Bulletin of Engineering Geology and the Environment doi: 10.1007/s10064-011-0403-6 – volume-title: Geomorphology: the mechanics and chemistry of landscapes year: 2010 ident: 3803_CR1 doi: 10.1017/CBO9780511794827 – volume: 11 start-page: 167 issue: 2 year: 2014 ident: 3803_CR17 publication-title: Landslides doi: 10.1007/s10346-013-0436-y – volume: 61 start-page: 249 issue: 3 year: 2006 ident: 3803_CR25 publication-title: Acta Geographica Sinica – start-page: 485 volume-title: Natural gas eruption mechanism for earthquake landslides: illustrated with comparison between Donghekou and Papandayan Rockslide-debris flows year: 2013 ident: 3803_CR39 – 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publication-title: Canadian Journal of Earth Sciences doi: 10.1139/e90-024 – volume: 15 start-page: 319 issue: 6 year: 1978 ident: 3803_CR19 publication-title: International Journal of Rock Mechanics and Min Science & Geomechanics Abstract doi: 10.1016/0148-9062(78)91472-9 – volume: 114 start-page: 67 year: 2014 ident: 3803_CR32 publication-title: Catena doi: 10.1016/j.catena.2013.10.013 – volume: 27 start-page: 823 issue: 6 year: 1990 ident: 3803_CR30 publication-title: Canadian Geotechnical Journal doi: 10.1139/t90-095 – volume: 126 start-page: 675 issue: 8 year: 2000 ident: 3803_CR11 publication-title: Journal of Geotechnical and Geoenvironmental Engineering doi: 10.1061/(ASCE)1090-0241(2000)126:8(675) – volume: 33 start-page: 503 issue: 4 year: 2015 ident: 3803_CR40 publication-title: Mountain Research – volume: 20 start-page: 277 issue: 4 year: 1987 ident: 3803_CR18 publication-title: Rock Mechanics and Rock Engineering doi: 10.1007/BF01024646 – volume: 43 start-page: 336 issue: 2 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Snippet	Deep-seated large-scale toppling failure presents unique challenges in the study of natural slope deformation process in mountainous regions.An active... Deep-seated large-scale toppling failure presents unique challenges in the study of natural slope deformation process in mountainous regions. An active...
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SubjectTerms	Case studies Deformation Earth and Environmental Science Earth Sciences Ecology Environment Geography Grading Hydroelectric power Infrastructure Metamorphic rocks Mountain Hazards Mountain regions Natural slope Quantitative research Shear strength Slope stability 中国西南部交通基础设施建设倾倒破坏倾倒过程深变质岩深部边坡变形边坡稳定性
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Title	Deep-seated large-scale toppling failure in metamorphic rocks：a case study of the Erguxi slope in southwest China
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