Top

Bulletin of Engineering Geology and the Environment

Published in:

07-08-2018 | Case History

Quantitative relationship between weather seasonality and rock fall occurrences north of Hope, BC, Canada

Authors: Christopher Pratt, Renato Macciotta, Michael Hendry

Published in: Bulletin of Engineering Geology and the Environment | Issue 5/2019

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

The relationship between rock falls and weather conditions has been widely recognized and attempts have been made to develop weather-based approaches for rock fall hazard management. This dependency of rock fall occurrences on weather suggests that rock fall trends and their associated risks will vary following climatic changes. In this regard, tools that quantify the relationship of weather seasonality and climate with rock fall trends provide an opportunity to forward model potential variations in rock fall trends considering diverse climate scenarios. This paper illustrates the application of one such tool along a section of a transportation corridor through the Canadian Cordillera. von Mises probability distributions are fitted to monthly trends of precipitation and freeze–thaw cycles and combined to develop a probability density model of rock fall occurrences. The methodology is outlined in detail and the model shown to fit the rock fall database with a correlation coefficient of 0.97. Further, the paper discusses limitations of the approach and potential opportunities for improvement, encouraging the use of the method at other sites and building a robust case study database for further enhancement of the approach.

previous article Reconstruction of landslide model from ERT, geotechnical, and field data, Nargeschal landslide, Iran

next article Numerical investigation of post-seismic debris flows in the epicentral area of the Wenchuan earthquake

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Baecher GB, Christian JT (2003) Reliability and statistics in geotechnical engineering. John Wiley & Sons, Chichester, West Sussex, 605 pp

Bentley J (2006) Modelling circular data using a mixture of von Mises and uniform distributions. Department of Statistics and Actuarial Science, Simon Fraser University. A project submitted in partial fulfillment of the requirements for the degree of Master of Science

Bunce CM, Cruden DM, Morgenstern NR (1997) Assessment of the hazard from rock fall on a highway. Can Geotech J 34:344–356CrossRef

Bush EJ (2015) Plenary 2: climate change in Canada: observations and projected changes. In: Proceedings of Mine Water Solutions in Extreme Environments, Vancouver, Canada, April 2015, pp 6–19

Bush EJ, Loder JW, James TS, Mortsch LD, Cohen SJ (2014) An overview of Canada’s changing climate. In: Warren FJ, Lemmen DS (ed) Canada in a changing climate: sector perspectives on impacts and adaptation. Government of Canada, Ottawa, pp 23–64

Cloutier C, Locat J, Geerstema M, Jakob M, Schnorbus M (2017) Potential impacts of climate change on landslides occurrence in Canada. In: Ho K, Lacasse S, Picarelli L (eds) Slope safety preparedness for impact of climate change. CRC Press, Taylor & Francis Group, London, pp 71–104CrossRef

Coe JA (2017) Landslide hazards and climate change: a perspective from the United States. In: Ho K, Lacasse S, Picarelli L (eds) Slope safety preparedness for impact of climate change. CRC Press, Taylor & Francis Group, London, pp 479–523CrossRef

Delonca A, Gunzburger Y, Verdel T (2014) Statistical correlation between meteorological and rockfall databases. Nat Hazards Earth Syst Sci 14:1953–1964CrossRef

Douglas GR (1980) Magnitude frequency study of rockfall in Co. Antrim, N. Ireland. Earth Surf Process 5:123–129CrossRef

Environment Canada (2017) Government of Canada, Meteorological Service of Canada. http://climate.weather.gc.ca. Accessed June 2017

Evans SG, Hungr O (1993) The assessment of rockfall hazard at the base of talus slopes. Can Geotech J 30:620–636CrossRef

Frayssines M, Hantz D (2006) Failure mechanisms and triggering factors in calcareous cliffs of the Subalpine Ranges (French Alps). Eng Geol 86:256–270CrossRef

Higgins JD, Andrew RD (2012) Rockfall types and causes. In: Turner AK, Schuster RL (ed) Rockfall characterization and control. Transportation Research Board, Washington, DC, pp 21–55

Ho KKS, Lacasse S, Picarelli L (2017) Preparedness for climate change impact on slope safety. In: Ho K, Lacasse S, Picarelli L (eds) Slope safety preparedness for impact of climate change. CRC Press, Taylor & Francis Group, London, pp 104–146CrossRef

Hungr O, Evans SG, Hazzard J (1999) Magnitude and frequency of rock falls and rock slides along the main transportation corridors of southwestern British Columbia. Can Geotech J 36:224–238CrossRef

Kromer RA, Hutchinson DJ, Lato MJ, Gauthier D, Edwards T (2015) Identifying rock slope failure precursors using LiDAR for transportation corridor hazard management. Eng Geol 195(C):93–103CrossRef

Lan H, Martin CD, Zhou C, Lim CH (2010) Rockfall hazard analysis using LiDAR and spatial modeling. Geomorphology 118:213–223CrossRef

Lark RM, Clifford D, Waters CN (2014) Modelling complex geological circular data with the projected normal distribution and mixtures of von Mises distributions. Solid Earth 5(2):631–639CrossRef

Lato MJ, Diederichs MS, Hutchinson DJ, Harrap R (2012) Evaluating roadside rockmasses for rockfall hazards using LiDAR data: optimizing data collection and processing protocols. Nat Hazards 60(3):831–864CrossRef

Logan T, Charron I, Chaumont D, Houle D (2011) Atlas de scénarios climatiques pour la forêt québécoise. Ouranos, Ministère des Ressources Naturelles et de la Faune du Québec (MRNF). Available from: http://www.ouranos.ca/media/publication. Accessed 10 June 2018

Luckman BH (1976) Rockfalls and rockfall inventory data: Some observations from surprise valley, Jasper National Park, Canada. Earth Surf Process 1:287–298CrossRef

Macciotta R, Hendry MT (2017) Rock falls – a deterministic process with nonlinear behavior? In: De Graff JV, Shakoor A (eds) Proceedings of the 3rd North American Symposium on Landslides, Roanoke, Virginia, June 2017, pp 597–606

Macciotta R, Martin CD (2013) Role of 3D topography in rock fall trajectories and model sensitivity to input parameters. In: Pyrak-Nolte LJ, Chan A, Dershowitz W, Morris J, Rostami J (eds) Proceedings of the 47th US Rock Mechanics/Geomechanics Symposium, San Francisco, California, June 2013, pp 1–9

Macciotta R, Cruden DM, Martin CD, Morgenstern NR (2011) Combining geology, morphology and 3D modelling to understand the rock fall distribution along the railways in the Fraser River Valley, between Hope and Boston Bar. In: Eberhardt E, Stead D (eds) Slope Stability 2011: Proceedings of the 2011 International Symposium on Rock Slope Stability in Open Pit Mining and Civil Engineering, Vancouver, Canada, September 2011. Canadian Rock Mechanics Association (CARMA), Vancouver

Macciotta R, Cruden DM, Martin CD, Morgenstern NR, Petrov M (2013) Spatial and temporal aspects of slope hazards along a railroad corridor in the Canadian Cordillera. In: Dight P (ed) Slope Stability 2013: Proceedings of the 2013 International Symposium on Slope Stability in Open Pit Mining and Civil Engineering, Brisbane, Queensland, Australia, September 2013, pp 1171–1186

Macciotta R, Martin CD, Cruden DM (2015a) Probabilistic estimation of rockfall height and kinetic energy based on a three-dimensional trajectory model and Monte Carlo simulation. Landslides 12(4):757–772CrossRef

Macciotta R, Martin CD, Edwards T, Cruden DM, Keegan T (2015b) Quantifying weather conditions for rock fall hazard management. Georisk 9(3):171–186

Macciotta R, Martin CD, Morgenstern NR, Cruden DM (2016) Quantitative risk assessment of slope hazards along a section of railway in the Canadian Cordillera—a methodology considering the uncertainty in the results. Landslides 13(1):115–127CrossRef

Macciotta R, Martin CD, Cruden DM, Hendry M, Edwards T (2017a) Rock fall hazard control along a section of railway based on quantified risk. Georisk 11(3):272–284

Macciotta R, Hendry M, Cruden DM, Blais-Stevens A, Edwards T (2017b) Quantifying rock fall probabilities and their temporal distribution associated with weather seasonality. Landslides 14(6):2025–2039CrossRef

Mardia KV (1972) Statistics of directional data. Academic Press, London, 357 pp

McTaggart KC, Thompson RM (1967) Geology of part of the northern Cascades in southern British Columbia. Can J Earth Sci 4:1199–1228CrossRef

Monger JWH (1970) Hope map-area, west half, British Columbia, paper 69-47. Geological Survey of Canada, Department of Energy, Mines and Resources

Paranunzio R, Laio F, Nigrelli G, Chiarle M (2015) A method to reveal climatic variables triggering slope failures at high elevation. Nat Hazards 76:1039–1061CrossRef

Paranunzio R, Laio F, Chiarle M, Nigrelli G, Guzzetti F (2016) Climate anomalies associated with the occurrence of rockfalls at high-elevation in the Italian Alps. Nat Hazards Earth Syst Sci 16:2085–2106CrossRef

Peckover FL, Kerr JWG (1977) Treatment and maintenance of rock slopes on transportation routes. Can Geotech J 14(4):487–507CrossRef

Pierson LA, Davis SA, VanVickle R (1990) Rockfall Hazard Rating System: implementation manual. FHWA report FHWA-OR-EG-90-01. FHWA, U.S. Department of Transportation

Piteau DR (1977) Regional slope stability controls and engineering geology of the Fraser Canyon, British Columbia. Rev Eng Geol 3:85–111CrossRef

Ravanel L, Deline P (2011) Climate influence on rockfalls in high-Alpine steep rockwalls: the north side of the Aiguilles de Chamonix (Mont Blanc massif) since the end of the ‘Little Ice Age’. Holocene 21(2):357–365CrossRef

Ravanel L, Deline P (2015) Rockfall hazard in the Mont Blanc massif increased by the current atmospheric warming. In: Lollino G, Manconi A, Clague J, Shan W, Chiarle M (eds) Engineering geology for society and territory, vol 1. Climate change and engineering geology. Springer International Publishing, Cham, Switzerland, pp 425–428

Rodriguez JL, Macciotta R, Hendry M, Edwards T, Evans T (2017) Slope hazards and risk engineering in the Canadian railway network through the Cordillera. In: DellAcqua G, Wegman F (eds) Proceedings of the AIIT International Congress on Transport Infrastructure and Systems (TIS 2017), Rome, Italy, April 2017, pp 163–168

van Veen M, Hutchinson DJ, Kromer R, Lato M, Edwards T (2017) Effects of sampling interval on the frequency–magnitude relationship of rockfalls detected from terrestrial laser scanning using semi-automated methods. Landslides 14(5):1579–1592CrossRef

Wieczorek GF, Jäger S (1996) Triggering mechanisms and depositional rates of postglacial slope-movement processes in the Yosemite Valley, California. Geomorphology 15:17–31CrossRef

Yavuz H (2010) Effect of freeze–thaw and thermal shock weathering on the physical and mechanical properties of an andesite stone. Bull Eng Geol Environ 70(2):187–192CrossRef

Title: Quantitative relationship between weather seasonality and rock fall occurrences north of Hope, BC, Canada
Authors: Christopher Pratt
Renato Macciotta
Michael Hendry
Publication date: 07-08-2018
Publisher: Springer Berlin Heidelberg
Published in: Bulletin of Engineering Geology and the Environment / Issue 5/2019
Print ISSN: 1435-9529
Electronic ISSN: 1435-9537
DOI: https://doi.org/10.1007/s10064-018-1358-7

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Technik"

Springer Professional "Wirtschaft+Technik"

Other articles of this Issue 5/2019

Risk assessment of water inrush in karst tunnels excavation based on normal cloud model

Physical modeling of the controlled shaft deformation law during the solid backfill mining of ultra-close coal seams

Development characteristics and formation analysis of Baixiang earth fissure on North China plain

The dry closure of the Almagrera tailings dam: detailed modelling, monitoring results and environmental aspects

Auscultation géologique, géophysique et géotechnique du site du barrage de Tabellout, Nord-Est Algérien

Dynamic process of the massive Xinmo landslide, Sichuan (China), from joint seismic signal and morphodynamic analysis