Refereed Journal Papers

AuthorsTitleYearPublication DetailsKeywords
Acharaya, M.P., & Hendry, M.T.A Formulation for Estimating the Compression of Fibrous Peat Using Three Parameters
2018https://doi.org/10.1061/(ASCE)GM.1943-5622.0001333History, Soil settlement, Stress strain relations, Compression, Triaxial tests, Parameters (statistics), Compression tests, Field tests
Bartz, J.R., Martin, C.D., & Hendry, M.T.Analysis and Design of Sheet Pile Ribs for Slope Stabilization2018https://doi.org/10.7939/R3833NC3RSheet pile, Slope stabilization, Soil-pile interaction, Landslides
Hendry, M.T, Smith, L.A. & Hendry, M.J.Analysis of measured pore pressure response to atmospheric pressure changes to evaluate small-strain moduli: methodology and case studies2018https://doi.org/10.1139/cgj-2016-0584Barometric efficiency, Modulus, Pore pressures, Small strain
Huntley, D., Bobrowsky, P., Hendry, M.T., Macciotta, R., Best, M.Multi-technique geophysical investigation of a very slow-moving landslide near Ashcroft, British Columbia, Canada2018https://doi.org/10.1007/978-3-319-53498-5_21Railway infrastructure, Landslide, Surficial geology mapping, Geophysical surveys, Electrical resistivity tomography, Fixed frequency electromagnetic terrain conductivity, Ground penetrating radar Seismic refraction, Multi-spectral surface wave analysis, Borehole conductivity, Natural gamma, Magnetic susceptibility
Macciotta, R., Hendry, M.T., Martin, C.D., & Robataille, S.Hazard Ranking for Railway Transport of Dangerous Goods in Canada.2018https://doi.org/10.1016/j.cstp.2017.11.006Rail transportation, Dangerous goods, Hazard analysis
Mulhall, C., Balideh, S., Macciotta, R., Hendry, M.T., Martin, C.D., & Edwards, T. Large-scale Laboratory Testing of the Lateral Resistance of a Wood Tie2018https://doi.org/10.7939/R30R9MK2W
Track superstructure
Lateral resistance
Railway
Timber tie
Track substructure
Tie-ballast interface
Ballast

Pratt, C., Macciotta, R., & Hendry, M.TQuantitative relationship between climate and rock fall occurrences north of Hope, BC, Canada2018https://doi.org/10.1007/s10064-018-1358-7Rock falls Weather seasonality Triggers von Mises distribution
Wheeler, L.N., Hendry, M.T., Take, W.A., Hoult, N.A. Field Performance of a Peat Railway Subgrade Reinforced with Helical Screw Piles2018https://doi.org/10.1139/cgj-2017-0594helical screw piles, rail track, rehabilitation, monitoring, sensors
Acharya, M.P., Hendry, M.T. & Martin, C.D. Quantification of the settlement of an embankment constructed on peat due to the expulsion of gases2017https://doi.org/10.1061/(ASCE)GM.1943-5622.0000770Deformation (mechanics), Thermal properties, Soil settlement, Dissolved gases, Structural settlement, Pore pressure, Laboratory tests, Subgrades
Acharya, M.P., Hendry, M.T. & Martin, C.D.Creep behaviour of remoulded and intact fibrous peat2017https://doi.org/10.1007/s11440-017-0545-1Creep test Fibrous peat Strain and strain rate Stress Triaxial test
Carlà, T., Macciotta, R., Hendry, M.T., Martin, C.D., Edwards, T., Evans, T., Intrieri, E., Farina, P., Casagli, N.Displacement of a landslide retaining wall and application of an enhanced failure forecasting approach based on inverse velocity2017https://doi.org/10.1007/s10346-017-0887-7Landslide monitoring Landslide retrogression Slope deformation analysis Retaining wall Failure prediction Inverse velocity
Irwin, K., Beaulne, D., Braun, A., and Fotopoulos, G. Fusion of SAR, Optical Imagery and Airborne LiDAR for Surface Water Detection2017https://doi.org/10.3390/rs9090890 TerraSAR-X; SAR; LiDAR; WorldView-2; surface water; NDVI; NDWI; decision tree
Journault, J., Macciotta, R., Hendry, M.T., Charbonneau, F., Huntley, D. & Bobrowsky, P.Measuring the Activity of the Thompson River Valley Landslides, South of Ashcroft, BC, Canada, Using Satellite InSAR2017https://doi.org/10.7939/R37W67J1T
Thompson River Valley
Persistent Scatterer Interferometry
Remote Sensing
RADARSat-2
Ashcroft
Landslides
InSAR
Kromer, R.A., Abellan, A., Hutchinson, D.J., Lato, M., Chanut, M-A., Dubois, L., and Jaboyedoff, M.Automated terrestrial laser scanning with near-real-time change detection – monitoring of the Séchilienne landslide 2017https://doi.org/10.5194/esurf-5-293-2017
Kromer, R., Lato, M., Hutchinson, D.J., Gauthier, D., and Edwards, T. Managing rockfall risk through baseline monitoring of precursors using a terrestrial laser scanner2017https://doi.org/10.1139/cgj-2016-0178risk assessment, terrestrial laser scanning, rock slope hazard, landslide risk management
Leishman, E.M., Hendry, M.T. & Martin, C.D. Canadian main track derailment trends, 2001 to 20142017https://doi.org/10.7939/R3WS8HZ6J
Canada
Derailments

Macciotta, R., Hendry, M.T., Cruden, D.M., Blais-Stevens, A. & Edwards, T.Quantifying Rock Fall Probabilities and Their Temporal Distribution Associated with Weather Seasonality2017https://doi.org/10.1007/s10346-017-0834-7Rock falls Weather triggers Frequency Probability Railway corridor Canadian Cordillera
Macciotta, R., Martin, C.D., Cruden, D.M., Hendry, M.T. & Edwards, T. Rock fall hazard control along a section of railway based on quantified risk2017https://doi.org/10.1080/17499518.2017.1293273Rock falls, hazard, quantitative risk, slope stability
Rowe, E., Hutchinson, D.J., and Kromer, R.An Analysis of Failure Mechanism Constraints on Pre-Failure Rock Block Deformation using TLS and Roto-Translation Methods2017https://doi.org/10.1007/s10346-017-0886-8Rockfall Deformation Kinematics LiDAR Laser scanning Roto-translation
Acharya, M.P., Hendry, M.T. and Martin, C.D.Effects of Sampling Interval on the Frequency-Magnitude Relationship of Rockfalls Detected from Terrestrial Laser Scanning using Semi-Automated Methods2016https://doi.org/10.1007/s10346-017-0801-3Terrestrial laser scanning LiDAR Rockfall hazard Rockfall frequency-magnitude Change detection
Acharya, M.P., Hendry, M.T. and Martin, C.D.Thermally induced pore pressure response in peat beneath a railway embankment2016https://doi.org/10.7939/R3HT2GK7B
Creep behaviour of peat
Settlement due to expulsion of gas bubbles
Thermal induced pore pressure in peat
Expulsion of gasbubbles from peat

Acharya, M.P., Hendry, M.T. and Martin, C.D.Effect of gas bubbles on pore pressure response in peat beneath a railway embankment2016https://doi.org/10.7939/R3HT2GK7B
Creep behaviour of peat
Settlement due to expulsion of gas bubbles
Thermal induced pore pressure in peat
Expulsion of gasbubbles from peat

Acharya, M.P., Hendry, M.T. and Martin, C.D.Quantification of the settlement of an embankment constructed on peat due to the expulsion of gases2016https://doi.org/10.7939/R3HT2GK7B
Creep behaviour of peat
Settlement due to expulsion of gas bubbles
Thermal induced pore pressure in peat
Expulsion of gasbubbles from peat

Kromer, R., Hutchinson, D.J., Lato, M. and Edwards, T. Gestion des risques géologiques sur le corridor ferroviaire du Canadien National2016
Macciotta, R., Hendry, M.T. and Martin, C.D.Developing an early warning system for a very slow landslide based on displacement monitoring2016https://doi.org/10.1007/s11069-015-2110-2Landslide Landslide monitoring Early warning Hazard management
Delaloye, D., Walton, G., Hutchinson, D.J. and Diederichs, M.Sensitivity testing of the newly developed elliptical fitting method for the measurement of convergence in tunnels and shafts2015https://doi.org/10.1007/s00603-014-0566-0LiDAR Tunnel monitoring Deformation analysis
Hendry, M., Macciotta, R., Martin, C.D., Reich, B.Effect of Thompson River elevation on velocity and instability of Ripley Slide2015https://doi.org/10.1139/cgj-2013-0364limit equilibrium method, slope stability, slope velocity, slope monitoring, railway
Hutchinson D.J., Lato M., Gauthier D., Kromer R., Ondercin M., Mcgowan T. and Edwards T.Rock Slope Monitoring and Risk Management for Railway Infrastructure in the White Canyon2015https://doi.org/10.1007/978-3-319-09057-3_70Rockfall LiDAR scanning Railway Rockshed Risk mitigation
Kromer, R.A., Abellán, A., Hutchinson, D.J., Lato, M., Edwards, T. and Jaboyedoff, M.A 4D filtering and calibration technique for small-scale point cloud change detection with a Terrestrial Laser Scanner2015https://doi.org/10.7939/R39K46733Monitoring, Terrestrial Laser Scanning, Lidar, De-Noising, Point Cloud, Change Detection
Kromer, R., Hutchinson, D.J., Lato, M. and Edwards, T. Geohazard Management on the Canadian National Railway Corridor: A Multi-Sensor Approach2015https://www.gim-international.com/content/article/geohazard-management-on-the-canadian-national-railway-corridor monitoring
photogrammetry
geotechnical
Survey
Sensor
total station
remote sensing
laser scanning
Sonar
mapping
Lidar
Kromer, R., Hutchinson, D.J., Lato, M., Gauthier, D. and Edwards, T. Identifying rock slope failure precursors using LiDAR for transportation corridor hazard management2015https://doi.org/10.1016/j.enggeo.2015.05.012Terrestrial LiDAR
Rockslide precursors
Rockslide deformation
Rock slope monitoring
Rockfall hazard
Lato, M., Gauthier, D., and Hutchinson, D.J.Selecting the optimal 3D remote sensing technology for the mapping, monitoring and management of steep rock slopes along transportation corridors2015https://doi.org/10.3141/2510-02
Lato M., Hutchinson D.J., Gauthier D., Edwards T., and Ondercin M.Comparison of ALS, TLS and terrestrial photogrammetry for mapping differential slope change in mountainous terrain2015https://doi.org/10.1139/cgj-2014-0051remote sensing, natural hazards, rockfall, light detection and ranging (LiDAR), photogrammetry, change detection, transportation corridors
Macciotta, R., Martin, C.D., Edwards, T., Cruden, D.M. and Keegan, T.R. Quantifying weather conditions for rock fall hazard management2015https://doi.org/10.1080/17499518.2015.1061673Rock falls, hazard exposure, slope stability
Macciotta, R., Martin, C.D., Morgenstern, N.R. and Cruden, D.Quantitative risk assessment of slope hazards along a section of railway in the Canadian Cordillera – A methodology considering the uncertainty in the results2015https://doi.org/10.1007/s10346-014-0551-4Rock falls Uncertainty Quantitative risk assessment Monte Carlo simulation
Hendry, M.T., Barbour, S.L. and Martin, C.D.Evaluation of the effect of fibre reinforcement on the anisotropic undrained stiffness and strength of peat2014https://doi.org/10.1061/(ASCE)GT.1943-5606.0001154Fabrics, Fiber reinforced composites, Stiffening, Anisotropy, Fibers, Shear strength, Triaxial tests, Pore pressure
Macciotta, R., Martin, C.D. and Cruden, D.M.Probabilistic estimation of rock fall height and kinetic energy based on a 3-dimensional trajectory model and Monte Carlo simulation. Landslides2014https://doi.org/10.1007/s10346-014-0503-zRockfall Ground hazard Probabilistic analysis Trajectory modelling
Hendry, M.T., Martin, C.D. and Barbour, S.L.The measurement of the cyclic response of railway embankments and underlying soft peat foundations to heavy axle loads2013https://doi.org/10.1139/cgj-2012-0118fibrous peat, anisotropy, stiffness, shear strength, embankment, railroad, railway
Kalenchuk, K.S., Hutchinson, D.J. and Diederichs, M.S.Downie Slide: Numerical simulation of groundwater fluctuations influencing behaviour of a massive landslide2013https://doi.org/10.1007/s10064-013-0484-5Downie slide Landslide mechanics Numerical modelling Slope stability
Kalenchuk, K.S., Hutchinson, D.J. and Diederichs, M.S.Geomechanical interpretation of the Downie Slide considering field data and 3-dimensional numerical modelling2013https://doi.org/10.1007/s10346-012-0363-3Downie Slide Landslide morphology Landslide mechanisms Numerical modelling Slope stability
Gauthier, D. and Hutchinson, D.J.Evaluation of potential meteorological triggers of large landslides in sensitive glaciomarine Champlain clay2012https://doi.org/10.7939/R3F766N50
Thresholds
Susceptibility
Soils
Sediments
Deposits
Valley
British Columbia
Models
Initiation

Hendry, M., Bunce, C. and Edwards, T.The Railway Ground Hazards Research Program2012
Hendry, M.T., Sharma, J., Martin, C.D. and Barbour, S.L.Effect of fibre content and structure on anisotropic elastic stiffness and shear strength of peat2012https://doi.org/10.1139/t2012-003fibrous peat, triaxial testing, direct shear testing, anisotropy, stiffness, shear strength, railway
Kalenchuk, K.S., Diederichs, M.S. and Hutchinson, D.J.Three-dimensional numerical simulations of the Downie Slide to test the influence of shear surface geometry and heterogeneous shear zone stiffness2012https://doi.org/10.1007/s10596-011-9245-3Landslide mechanisms Monitoring Three-dimensional numerical modelling Downie Slide
Kalenchuk, K.S., Hutchinson, D.J., Diederichs, M.S. and Moore, D.Downie Slide, British Columbia, Canada. Landslides.2012https://doi.org/10.7939/R3PR7N82Q
Cenozoic
Downie Creek
Mass Movements
Landslides
Quaternary
Western Canada
British Columbia
Columbia River
Nagle Mountain
Canada

Lato, M., Diederichs, M.S., Hutchinson, D.J. and Harrap, R.Evaluating roadside rockmasses for rockfall hazards using LiDAR data2012https://doi.org/10.1007/s11069-011-9872-yLidar Rockfall Rockmass Characterization Risk Hazard
Quinn, P., Diederichs, M., Rowe, R.K. and Hutchinson, D.J.Development of Progressive Failure in Sensitive Clay Slopes2012https://doi.org/10.1139/t2012-034sensitive clay, progressive failure, fracture mechanics, retrogressive landslides, brittleness
Hendry, M.T., Barbour, S. and Martin, C.D.An evaluation of real-time deformation monitoring using motion capture instrumentation and its application in monitoring railway foundations.2011https://doi.org/10.7939/R3TH8C26Vspeed
Mansour, M.F., Martin, C.D. and Morgenstern, N.R.Movement behaviour of the Little Chief Slide.2011https://doi.org/10.7939/R3RX1C
Slow slides
Creep
Seasonal movements
Vulnerability


Slow slides
Creep
Seasonal movements
Vulnerability


Mansour, M.F., Morgenstern, N.R. and Martin, C.D.Expected damage from displacement of slow-moving slides2011https://doi.org/10.7939/R3RX1C
Slow slides
Creep
Seasonal movements
Vulnerability

Quinn, P.E., Diederichs, M., Rowe, R. and Hutchinson, J. A new model for large landslides in sensitive clay using a fracture mechanics approach2011https://doi.org/10.1139/t11-025sensitive clay, progressive failure, fracture mechanics, retrogressive landslides, brittleness
Quinn, P.E., Hutchinson, J., Diederichs, M. and Rowe, R.Characteristics of large landslides in sensitive clay in relation to susceptibility2011https://doi.org/10.1139/t11-039sensitive clay, landside susceptibility, hazard, risk, linear infrastructure
Alzo’ubi, A., Martin, C.D. and Cruden, D.M.Influence of tensile strength on toppling failure in centrifuge tests2010https://doi.org/10.1016/j.ijrmms.2010.05.011Tensile strength
Toppling
Damage model
Centrifuge tests
Fekete, S., Diederichs, M. and Lato, M.Geotechnical and operational applications for 3D laser scanning in drill and blast tunnels2010https://doi.org/10.1016/S2095-7564(15)30279-8terrestrial laser scanning
tunnel
deformation measurement
cross-section extraction
measurement planning
Lato, M., Hutchinson, D. and Diederichs, M.Rockfall hazard analysis using lidar and spatial modeling. Geomorphology2010https://doi.org/10.1016/j.geomorph.2010.01.002Rockfall
Hazard analysis
LiDAR
Spatial modeling
Rockfall analyst
Railway
Lato, M., Diederichs, M. and Hutchinson, D.J.Bias correction for Lidar scanning of rock outcrops for structural characterization Rock Mechanics and Rock Eng2010https://doi.org/10.1007/s00603-010-0086-5Joints Discontinuity Mapping Lidar Rockmass Bias Characterization Remote sensing
Lato, M., Hutchinson, D. and Diederichs, M.Geomechanical feature extraction and analysis using LiDAR data2010
Mansour, M.F., Morgenstern, N.R. and Martin, C.D.Expected damage from displacement of slow-moving slides2010https://doi.org/10.1007/s10346-010-0227-7Slow-moving slides landslide-induced damage damage description landslide velocity vulnerability to slides
Quinn P.E., Hutchinson, D.J., Diederichs, M.S. and Rowe, K.Regional scale landslide susceptibility mapping using the weights of evidence method2010https://doi.org/10.1139/T09-144landslide, susceptibility, weights of evidence, hazard, risk
Kalenchuk, K., Hutchinson, D.J. and Diederichs, M.S.Application of spatial prediction techniques to defining three-dimensional landslide shear surface geometry2009
Lan, H., Martin, C.D., Froese, C.R., Kim, T.H., Morgan, A.J., Chao, D. and Chowdhury, S.A web-based GIS for managing and assessing landslide data for the town of Peace River2009https://doi.org/10.7939/R39C6S72BPore water, Geographic information systems, Geospatial data, Piezometers, Temporal databases, Hazard mitigation, Formations (Geology)

Lato, M., Diederichs, M.S., Hutchinson, D.J. and Harrap, R.Optimization of LiDAR scanning and processing for automated structural evaluation of discontinuities in rockmasses2009https://doi.org/10.1016/j.ijrmms.2008.04.007
Lato, M., Hutchinson, D.J., Diederichs, M.S., Ball, D. and Harrap, R.Engineered monitoring of rockfall hazards along transportation corridors using mobile terrestrial LiDAR2009https://doi.org/10.7939/R3K06XF88Laser Altimetry
Lato, M., Hutchinson, D.J., Diederichs, M.S. and Harrap, R.Structural evaluation of visible discontinuities in rockmasses using LiDAR2009
Eshraghian, A., Martin, C.D. and Morgenstern, N.R.Hazard analysis of an active slide in the Thompson River Valley2008https://doi.org/10.7939/R3DV1CZ91Slopes (Soil mechanis), British Columbia, Thompson River Valley, Stability, Landslides

Eshraghian, A., Martin, C.D. and Morgenstern, N.R. Movement triggers and mechanisms of two earth slides in the Thompson River Valley2008https://doi.org/10.1139/T08-047earth slide, movement mechanism, drawdown, erosion, groundwater, stability
Lan, H., Martin, C.D. and Zhou, C.H.Estimating the size and travel distance of Klapperhorn Mountain Debris flows for risk analysis along railway2008
Lato, M. and Hutchinson, D.J.Mining for LiDAR data2008
Eshraghian, A.; Martin, C. D. & Cruden, D. M.Complex Earth Slides in the Thompson River Valley, Ashcroft2007https://doi.org/10.2113/gseegeosci.13.2.161Earth slide, Slow, Rapid, Reactivation, Drawdown, Thompson River, Ashcroft
Hutchinson, D.J., Diederichs, M.S., Carranza-Torres, C., Sheriff, C., Kjelland, N., and Harrap, R.Landslide hazard management: Using geotechnical monitoring, virtual process models and decision support technology2006