Application of multi-dimensional electrical resistivity tomography datasets to investigate a very slow-moving landslide near Ashcroft, British Columbia, Canada

Bertolini G, Guida M, Pizziolo M (2005) Landslides in Emilia-Romagna region (Italy): strategies for hazard assessment and risk management. Landslides 2(4):302–312

Best M, Bobrowsky P, Huntley D, Macciotta R, Hendry M (2018) Integrating terrestrial and waterborne ERT surveys at the Ripley Landslide, near Ashcroft, British Columbia. In: Proceedings Volume 31st SAGEEP Annual Meeting, Environmental and Engineering Geophysical Society, Nashville, Tennessee, USA, 1 p

Bobrowsky P, Sladen W, Huntley D, Qing Z, Bunce C, Edwards T, Hendry M, Martin D, Choi E (2014) Multi-parameter monitoring of a slow-moving landslide: Ripley Landslide, British Columbia, Canada. In: Proceedings of the International Association of Engineering Geologists, Turin, Italy, 5 p

Bobrowsky P, Huntley D, Neelands P, MacLeod R, Mariampillai D, Hendry M, Macciotta R, Reeves H, Chambers J (2017) Ripley Landslide – Canada’s premier landslide field laboratory., In: Proceedings Volume of the Geological Society of America Annual Meeting, Seattle, Washington, USA, 1 p

Bobrowsky P, Hendry M (2018) Landslide Monitoring and Critical Infrastructure: World Centre of Excellence Report Form. International Consortium on Landslides Project 202 icl.iplhq.org . Accessed 01 Dec 2018

Bunce C, Chadwick I (2012) GPS monitoring of a landslide for railways. In: Eberhardt et al. (eds) Landslides and engineered slopes: protecting society through improved understanding, pp 1373–1379

Canuti P, Margottini C, Fanti R, Bromhead E (2009) Cultural heritage and landslides: research for risk prevention and conservation. In: Sassa S, Canuti P (eds) Landslides – disaster risk reduction. Springer, Berlin, pp 401–433

Clague J, Evans S (2003) Geologic framework for large historic landslides in Thompson River valley, British Columbia. Environ Eng Geosci IX:201–212

Eshraghian A, Martin C, Cruden D (2007) Complex earth slides in the Thompson River Valley, Ashcroft, British Columbia. Environ Eng Geosci XIII:161–181

Eshraghian A, Martin C, Morgenstern N (2008) Movement triggers and mechanisms of two earth slides in the Thompson River Valley, British Columbia, Canada. Can Geotech J 45:1189–1209

Hendry M, Macciotta R, Martin D (2015) Effect of Thompson River elevation on velocity and instability of Ripley Slide. Can Geotech J 52(3):257–267

Holmes J, Chambers J, Donohue S, Huntley D, Bobrowsky P, Meldrum P, Uhlemann S, Wilkinson P, Swift R (2018) The use of near surface geophysical methods for assessing the condition of transport infrastructure. Civil Engineering Research Association, Special Issue on Structural Integrity of Civil Engineering Infrastructure, Journal of Structural Integrity and Maintenance, 6 p

Huntley D, Bobrowsky P (2014) Surficial geology and monitoring of the Ripley Slide, near Ashcroft, British Columbia, Canada. Geological Survey of Canada Open Files 7531 21 p

Huntley D, Bobrowsky P, Zhang Q, Zhang X, Lv Z, Hendry M, Macciotta R, Schafer M, Le Meil G, Journault J, Tappenden K (2016) Application of optical fibre sensing real-time monitoring technology at the Ripley Landslide, near Ashcroft, British Columbia, Canada. In: Proceedings Volume of Canadian Geotechnical Society Annual Meeting, GeoVancouver 2016, 13 p

Huntley D, Bobrowsky P, Charbonneau F, Journault J, Hendry M (2017a) Innovative landslide change detection monitoring: application of space-borne InSAR techniques in the Thompson River valley, British Columbia, Canada. In: Landslide Research and Risk Reduction for Advancing Culture and Living with Natural Hazards - Volume 3, 4th World Landslide Forum (ICL-IPL), Ljubljana, Slovenia, Springer Nature, 13 p

Huntley D, Bobrowsky P, Zhang Q, Zhang X, Lv Z (2017b) Fibre Bragg grating and Brillouin optical time domain reflectometry monitoring manual for the Ripley Landslide, near Ashcroft, British Columbia. Geological Survey of Canada Open Files 8258 66 p

Huntley D, Bobrowsky P, Parry N, Bauman P, Candy C, Best M (2017c) Ripley Landslide: the geophysical structure of a slow-moving landslide near Ashcroft, British Columbia, Canada. Geological Survey of Canada Open Files 8062 59 p

Huntley D, Bobrowsky P, Best M (2017d) Combining terrestrial and waterborne geophysical surveys to investigate the internal composition and structure of a very slow-moving landslide near Ashcroft, British Columbia, Canada. In: Landslide Research and Risk Reduction for Advancing Culture and Living with Natural Hazards - Volume 2, 4th World Landslide Forum (ICL-IPL), Ljubljana, Slovenia, Springer Nature, 15 p

Huntley D, Bobrowsky P, Sattler K, Elwood D, Holmes J, Chambers J, Meldrum P, Holmes J, Wilkinson P, Hendry M, Macciotta R. (2019) PRIME installation in Canada: protecting national railway infrastructure by monitoring moisture in an active landslide near Ashcroft, British Columbia. 32nd SAGEEP, Environmental and Engineering Geophysical Society. Proceedings Volume of the Annual Meeting, 1 page, Portland, Oregon, USA

Journault J, Macciotta R, Hendry M, Charbonneau F, Huntley D, Bobrowsky P (2018) Measuring displacements of the Thompson River valley landslides, south of Ashcroft, B.C., Canada, using satellite InSAR. Landslides 15(4):621–636

Lacasse S, Nadim F (2009) Landslide risk assessment and mitigation strategy. In: Sassa S, Canuti P (eds) Landslides – disaster risk reduction. Springer, Berlin, pp 31–61

Macciotta R, Hendry M, Martin D, Elwood D, Lan H, Huntley D, Bobrowsky P, Sladen W, Bunce C, Choi E, Edwards T (2014) Monitoring of the Ripley Slide in the Thompson River Valley, B.C. In: Proceedings and Abstracts Volume Geohazards 6 Symposium, Kingston, Ontario, Canada, 1 p

Merritt A, Chambers J, Murphy W, Wilkinson P, West L, Gunn D, Meldrum P, Kirkham M, Dixon N (2014) 3D ground model development for an active landslide in Lias mudrocks using geophysical, remote sensing and geotechnical methods. Landslides 11(4):537–550

Porter M, Savigny K, Keegan T, Bunce C, MacKay C (2002) Controls on stability of the Thompson River landslides. In: proceedings of the 55th Canadian Geotechnical Conference: Ground and Water – Theory to Practice, Canadian Geotechnical Society, pp 1393–1400

RES2DINV (2012) Rapid 2-D Resistivity & IP inversion using the least-squares method, Geoelectrical Imaging 2D & 3D Geotomo Software, Penang, Malaysia, www.geotomosoft.com . Accessed 25 Dec 2018

Sattler K, Elwood D, Hendry M, Macciotta R, Huntley D, Bobrowsky P, Meldrum, P (2018) Real-time monitoring of soil water content and suction in slow-moving landslide. GeoEdmonton 2018, Proceedings Paper, 8 p

Schafer M, Macciotta R. Hendry M, Martin D, Bobrowsky P, Huntley D, Bunce C, Edwards T (2015) Instrumenting and monitoring a slow moving landslide. GeoQuebec 2015 – challenges from North to South, Paper 7 p

Uhlemann S, Chambers J, Wilkinson P, Maurer H, Merritt A, Meldrum P, Kuras O, Gunn D, Smith A, Dijkstra T (2017) Four-dimensional imaging of moisture dynamics during landslide reactivation. J Geophys Res Earth Surf 122:398–418

Zêzere J, Oliveira S, Garcia R, Reis E (2007) Landslide risk analysis in the north of Lisbon (Portugal): evaluation of direct and indirect costs resulting from a motorway disruption by slope movements. Landslides 4(2):123–136