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BUMPS Papers

1. Watkins, T.J.M., J.P. Verdon, G. Rodriguez-Pradilla, 2022. The temporal evolution of induced seismicity sequences generated by long-term, low pressure fluid injection: Journal of Seismology, sub judice
   
   
2. Savran, W.H., J.A. Bayona, P. Iturrieta, K.M. Asim, K. Bayliss, M. Herrmann, D. Schorlemmer, P.J. Maechling, M.J. Werner, 2022. pyCSEP: A Python toolkit for earthquake forecast developers: Seismological Research Letters 93, 2858-2870. DOI: 10.1785/0220220033
   
   
3. Klinger, A.G., and M.J. Werner, 2022. Stress drops of hydraulic fracturing induced microseismicity in the Horn River Basin: challenges at high frequencies recorded by borehole geophones: Geophysical Journal International 228, 2018-2037. DOI: 10.1093/gji/ggab458
   
   
4. Hudson, T.S., J-M. Kendall, M.E. Pritchard, J.D. Blundy, J.H. Gottsmann, 2022. From slab to surface: earthquake evidence for fluid migration at Uturuncu volcano, Bolivia: Earth and Planetary Science Letters 577, 117268. 10.1016/j.epsl.2021.117268
   
   
5. Rodriguez-Pradilla, G., D.W. Eaton, J.P. Verdon, 2022. Basin-scale multi-decadal analysis of hydraulic fracturing and seismicity in western Canada shows non-recurrence of induced runaway fault rupture: Scientific Reports 12, 14463. DOI: 10.1038/s41598-022-18505-0
   
   
6. Cao, W., J.P. Verdon, M. Tao, 2022. Coupled poroelastic modelling of hydraulic fracturing-induced seismicity: Implications for understanding the post shut-in ML 2.9 earthquake at the Preston New Road, UK: Journal of Geophysical Research 127, e2021JB023376. DOI: 10.1029/2021JB023376
   
   
7. Igonin, N., J.P. Verdon, D.W. Eaton, 2022. Seismic anisotropy reveals stress changes around a fault as it is activated by hydraulic fracturing: Seismological Research Letters 93, 1737-1752. DOI: 10.1785/0220210282
   
   
8. Nantonoi, S., G. Rodriguez-Pradilla, J.P. Verdon, 2022. 3D-seismic interpretation and fault slip potential analysis from hydraulic fracturing in the Bowland Shale, UK: Petroleum Geoscience 28, petgeo2021-057. DOI: 10.1144/petgeo2021-057
   
   
9. Kettlety, T., and J.P. Verdon, 2021. Fault triggering mechanisms for hydraulic fracturing-induced seismicity from the Preston New Road, UK case study: Frontiers in Earth sciences 9, 670771. DOI: 10.3389/feart.2021.670771
   
   
10. Mancini, S., M.J. Werner, M. Segou, B. Baptie, 2021. Probabilistic forecasting of hydraulic fracturing-induced seismicity using an injection-rate driven ETAS model: Seismological Research Letters 92, 3471-3481. DOI: 10.1785/0220200454
    
    
11. Lapins, S., B. Goitom, J-M. Kendall, M.J. Werner, K.V. Cashman, J.O.S. Hammond, 2021. A little data goes a long way: automatic seismic phase arrival picking at Nabro volcano with transfer learning: Journal of Geophysical Research 126, e2021JB021910. DOI: 10.1029/2021JB021910
    
    
12. Holmgren, J.M., and M.J. Werner, 2021. Raspberry Shake instruments provide initial ground-motion assessment of the induced seismicity at the United Downs deep geothermal power project in Cornwall, United Kingdom: The Seismic Record 1, 27-34. DOI: 10.1029/2021JB021910
    
    
13. Liu, Y., H. Zhang, J-M. Kendall, J. Wookey, 2021. Conjugate fault deformation revealed by the aftershocks of the 2013 Mw6.6 Lushan earthquake and seismic anisotropy tomography: Geophysical Research Letters 48, e2021GL092563. DOI: 10.1029/2021GL092563
    
    
14. Hudson, T.S., A.F. Baird, J-M. Kendall, S.K. Kufner, A.M. Brisbourne, A.M. Smith, A. Butcher, A. Chalari, A. Clarke, 2021. Distributed acoustic sensing (DAS) for natural microseismicity studies: a case study from Antarctica: Journal of Geophysical Research 126, e2020JB021493. DOI: 10.1029/2020JB021493
    
    
15. Igonin, N., J.P. Verdon, J-M. Kendall, D.W. Eaton, 2021. Large-scale fracture systems are permeable pathways for fault activation during hydraulic fracturing: Journal of Geophysical Research 126, e2020JB020311. DOI: 10.1029/2020JB020311
    
    
16. Loriaux, T., J.P. Verdon, J-M. Kendall, A. Baird, J. Wookey, 2021. Field measurements of fracture characteristics on a wave-cut platform: Interpretation 9, T453-T462. DOI: 10.1190/INT-2020-0132.1
    
    
17. Verdon, J.P., and J.J. Bommer, 2021. Comment on “Activation rate of seismicity for hydraulic fracture wells in the Western Canadian Sedimentary Basin” by Ghofrani and Atkinson (2020): Bulletin of the Seismological Society of America 111, 3459-3474. DOI: 10.1785/0120200350
    
    
18. Butcher, A., A.L. Stork, J.P. Verdon, J-M. Kendall, K. Plenkers, F. Booth, M. Boneham, A. Koe, 2021. Evaluating rock mass disturbance within open-pit excavations using seismic methods: A case study from the Hinkley Point C nuclear power station: Journal of Rock Mechanics and Geotechnical Engineering 13, 500-512. DOI 10.1016/j.jrmge.2020.12.001
    
    
19. Kettlety T., J.P. Verdon, A. Butcher, M. Hampson, L. Craddock, 2021. High‐resolution imaging of the ML 2.9 August 2019 earthquake in Lancashire, United Kingdom, induced by hydraulic fracturing during Preston New Road PNR‐2 operations: Seismological Research Letters 92, 151-169. DOI 10.1785/0220200187
    
    
20. Verdon, J.P. and J.J. Bommer, 2021. Green, yellow, red, or out of the blue? An assessment of Traffic Light Schemes to mitigate the impact of hydraulic fracturing-induced seismicity: Journal of Seismology 25, 301-326. DOI: 10.1007/s10950-020-09966-9
    
    
21. Stork A.L., A.F. Baird, S.A. Horne, G. Naldrett, S. Lapins, J-M. Kendall, J. Wookey, J.P. Verdon, A. Clarke, A. Williams, 2020. Application of machine learning to microseismic event detection in Distributed Acoustic Sensing (DAS) data: Geophysics 85, KS149-KS160. DOI: 10.1190/geo2019-0774.1
    
    
22. Cremen, G., and M.J. Werner, 2020. A novel approach to assessing nuisance risk from seismicity induced by UK shale gas development, with implications for future policy design: Natural Hazards and Earth System Sciences 20, 2701-2719. DOI: 10.5194/nhess-20-2701-2020
    
    
23. Cremen, G., M.J. Werner, B. Baptie, 2020. A new procedure for evaluating ground-motion models, with application to hydraulic fracture induced seismicity in the United Kingdom: Bulletin of the Seismological Society of America 110, 2380-2397. DOI: 10.1785/0120190238
    
    
24. Lapins, S., J-M. Kendall, A. Ayele, M. Wilks, A. Nowacki, K.V. Cashman, 2020. Lower-crustal seismicity on the eastern border faults of the main Ethiopian rift: Journal of Geophysical Research 125, e2020JB020030. DOI: 10.1029/2020JB020030
    
    
25. Lapins, S., D.C. Roman, J. Rougier, S. De Angelis, K.V. Cashman, J-M. Kendall, 2020. An examination of the continuous wavelet transform for volcano-seismic spectral analysis: Journal of Volcanology and Geothermal Research 289, 106728. DOI: 10.1016/j.jvolgeores.2019.106728
    
    
26. Baird A.F., A.L. Stork, S.A. Horne, G. Naldrett, J-M. Kendall, J. Wookey, J.P. Verdon, A. Clarke, 2020. Characteristics of microseismic data recorded by Distributed Acoustic Sensing (DAS) systems in anisotropic media: Geophysics 85, KS139-KS147. DOI: 10.1190/geo2019-0776.1
    
    
27. Verdon J.P., S.A. Horne, A. Clarke, A.L. Stork, A.F. Baird, J-M. Kendall, 2020. Microseismic monitoring using a fibre-optic Distributed Acoustic Sensor (DAS) array: Geophysics 85, 1MJ-Z13. DOI: 10.1190/geo2019-0752.1
    
    
28. Kettlety T., J.P. Verdon, M. Werner, J-M. Kendall, 2020. Stress transfer from opening hydraulic fractures controls the distribution of induced seismicity: Journal of Geophysical Research 125, e2019JB018794. DOI: 10.1029/2019JB018794
    
    
29. Clarke H., J.P. Verdon, T. Kettlety, A.F. Baird, J-M. Kendall, 2019. Real time imaging, forecasting and management of human-induced seismicity at Preston New Road, Lancashire, England: Seismological Research Letters 90, 1902-1915. DOI: 10.1785/0220190110
    
    
30. Hicks S.P., J.P. Verdon, B. Baptie, R. Luckett, Z.K. Mildon, T. Gernon, 2019. A shallow earthquake swarm close to hydrocarbon activities: discriminating between natural and induced causes for the 2018-19 Surrey, UK earthquake sequence: Seismological Research Letters 90, 2095-2110. DOI: 10.1785/0220190125
    
    
31. Verdon J.P., B.J. Baptie, J.J. Bommer, 2019. An improved framework for discriminating seismicity induced by industrial activities from natural earthquakes: Seismological Research Letters 90, 1592-1611. DOI: 10.1785/0220190030
    
    
32. Kettlety T., J.P. Verdon, M.J. Werner, J-M. Kendall, J. Budge, 2019. Investigating the role of elastostatic stress transfer during hydraulic fracturing-induced fault activation: Geophysical Journal International 217, 1200-1216. DOI: 10.1093/gji/ggz080
    
    
33. Kendall J-M., A. Butcher, A.L. Stork, J.P. Verdon, R. Luckett, B.J. Baptie, 2019. How big is a small earthquake? Challenges in determining microseismic magnitudes: First Break 37, 51-56. DOI: 10.3997/1365-2397.n0015
    
    
34. Gajek W., M. Malinowski, J.P. Verdon, 2018. Results of the downhole microseismic monitoring at a pilot hydraulic fracturing site in Poland, Part II: shear wave splitting analysis: Interpretation 6, SH49-SH58. DOI: 10.1190/int-2017-0207.1
    
    
35. Verdon J.P., J. Budge, 2018. Examining the capability of statistical models to mitigate induced seismicity: during hydraulic fracturing of shale gas reservoirs: Bulletin of the Seismological Society of America 108, 690-701. DOI: 10.1785/0120170207
    
    
36. Brisbourne, A. M., Martín, C., Smith, A. M., Baird A. F., Kendall, J. M., Kingslake, J., 2019. Constraining Recent Ice Flow History at Korff Ice Rise, West Antarctica, Using Radar and Seismic Measurements of Ice Fabric, Journal of Geophysical Research 124, 175-194. DOI: 10.1029/2018JF004776
    
    
37. Luckett, R., Ottemoller, L., Butcher, A., Baptie, B., 2018. Extending local magnitude ML to short distances: Geophysical Journal International 216, 1145-1156. DOI:10.1093/gji/ggy484
    
    
38. Verdon, J.P., Kendall, J.M., Butcher, A., Luckett, R., Baptie, B., 2018. Seismicity induced by longwall coal mining at the Thoresby Colliery, Nottinghamshire, U.K: Geophysical Journal International 212, 942-954. DOI: 10.1093/gji/ggx465
    
    
39. Stork, A.L., C.G. Nixon, C.D. Hawkes, C. Birnie, D.J. White, D.R. Schmitt, B. Roberts, (2018)
    Is CO2 injection at Aquistore aseismic? A combined seismological and geomechanical study of early injection operations,
    International Journal of Greenhouse Gas Control, 75, 107-124, doi: 10.1016/j.ijggc.2018.05.016.
    
    
40. Stork, A.L., A. Allmark, A. Curtis, J-M. Kendall, D.J. White (2018)
    Assessing the potential to use repeated ambient noise seismic tomography to detect CO2 leaks: Application to the Aquistore storage site,
    International Journal of Greenhouse Gas Control, 71, 20-35, doi: 10.1016/j.ijggc.2018.02.007.
    
    
41. Baird, A.F., J-M. Kendall, Q.J. Fisher and J. Budge (2017)
    The role of texture, cracks, and fractures in highly anisotropic shales,
    Journal of Geophysical Research: Solid Earth, 122, doi:10.1002/2017JB014710
    
    
42. Smith, E.C., A.F. Baird, J-M. Kendall, C. Martin, R.S. White, A.M. Brisbourne and A.M. Smith (2017)
    Ice fabric in an Antarctic ice stream interpreted from seismic anisotropy,
    Geophysical Research Letters, 44, 3710-3718, doi:10.1002/2016GL072093
    
    
43. Verdon J.P., J-M. Kendall, S.P. Hicks, P. Hill (2017)
    Using beamforming to maximise the detection capability of seismometer arrays deployed to monitor oilfield activities,
    Geophysical Prospecting, 65, 1582-1596, doi:10.1111/1365-2478.12498
    
    
44. Butcher A., R. Luckett, J.P. Verdon, J-M. Kendall, B. Baptie, J. Wookey (2017)
    Local magnitude discrepancies for near-event receivers; implications for the UK traffic light scheme,
    Bulletin of the Seismological Society of America 107, in press, doi: 10.1785/0120160225.
    
    
45. Verdon, J.P. and A.L. Stork (2016)
    Carbon capture and storage, geomechanics and induced seismic activity,
    Journal of Rock Mechanics and Geotechnical Engineering 8, 928-935, doi: 10.1016/j.jrmge.2016.06.004.
    
    
46. Angus, D.A., Q.J. Fisher, J.M. Segura, J.P. Verdon, J-M. Kendall, M. Dutko, A.J.L. Crook (2016)
    Reservoir stress path and induced seismic anisotropy: results from linking coupled fluid-flow/geomechanical simulation with seismic modelling,
    Petroleum Science 13, 669-684, doi: 10.1007/s12182-016-0126-1.
    
    
47. Verdon, J.P. (2016)
    Using microseismic data recorded at the Weyburn CCS-EOR site to assess the likelihood of induced seismic activity,
    International Journal of Greenhouse Gas Control, .
    
    
48. Verdon, J.P., Kendall, J-M., Horleston, A.C., & Stork, A.L. (2016)
    Subsurface fluid injection and induced seismicity in southeast Saskatchewan,
    International Journal of Greenhouse Gas Control, 54, 429-440, doi: 10.1016/j.ijggc.2016.04.007
    
    
49. Birnie, C., Chambers, K., Angus D., & Stork, A.L. (2016)
    Analysis and models of pre-injection surface seismic array noise recorded at the Aquistore carbon storage site,
    Geophysical Journal International 206, 1246-1260.
    
    
50. Angus, D. A., Dutko, M., Kristiansen, T. G., Fisher, Q. J., Kendall, J-M., Baird, A. F., Verdon, J. P., Barkved, O. I., Yu, J. and Zhao, S. (2015), Integrated hydro-mechanical and seismic modelling of the Valhall reservoir: A case study of predicting subsidence, AVOA and microseismicity Geomechanics for Energy and the Environment 2, 32-44, doi:10.1016/j.gete.2015.05.002.
    
    
51. Baird, A. F., Kendall, J-M., Sparks, R. S. J. & Baptie, B. (2015), Transtensional deformation of Montserrat revealed by shear wave splitting, Earth and Planetary Science Letters 425, 179-186. doi:10.1016/j.epsl.2015.06.006.
    
    
52. Foord, G., Verdon, J.P. & Kendall, J-M. (2015), Seismic characterisation of fracture compliance in the field using P-wave and S-wave sources, Geophysical Journal International 203, 1726-1737. doi: 10.1093/gji/ggv395.
    
    
53. Palacios, P., Kendall, J.-M. & Mader, H. (2015), Site effect determination using seismic noise from Tungurahua volcano (Ecuador): implications for seismo-acoustic analysis, Geophysical Journal International 201, 1084-1100.
    
    
54. Profit, M., Dutko, M., Yu, J., Cole, S., Angus, D. & Baird, A. (2015), Complementary hydro-mechanical coupled finite/discrete element and microseismic modelling to predict hydraulic fracture propagation in tight shale reservoirs, Computational Particle Mechanics. doi:10.1007/s40571-015-0081-4.
    
    
55. Stork A.L., J.P. Verdon and J.-M. Kendall (2015), The microseismic response at the In Salah Carbon Capture and Storage (CCS) site International Journal of Greenhouse Gas Control, 32, doi: 10.1016/j.ijggc.2014.11.014.
    
    
56. Verdon, J.P., Stork, A.L., Bissell, R.C., Bond, C.E. & Werner, M.J. (2015), Simulation of seismic events induced by CO2 injection at In Salah, Algeria, Earth and Planetary Science Letters 426, 118-129. doi: 10.1016/j.epsl.2015.06.029.
    
    
57. Whitmarsh, L., Nash, N., Upham, P., Lloyd, A., Verdon, J.P. & Kendall, J-M. (2015), UK public perceptions of shale gas hydraulic fracturing: The role of audience, message and contextual factors on risk perceptions and policy support, Applied Energy 160, 419-430. doi: 10.1016/j.apenergy.2015.09.004.
    
    
58. Angus D.A., A. Aljaafari, P. Usher, J.P. Verdon (2014), Seismic waveforms and velocity model heterogeneity: Towards a full-waveform microseismic location algorithm Journal of Applied Geophysics, 111, doi: 10.1016/j.jappgeo.2014.10.013.
    
    
59. Stork A.L., J.P. Verdon and J.-M. Kendall (2014), Assessing the Effect of Velocity Model Accuracy on Microseismic Interpretation at the In Salah Carbon Capture and Storage Site Energy Procedia, 63, doi: 10.1016/j.egypro.2014.11.473.
    
    
60. Verdon, J.P. (2014), Significance for secure CO2 storage of earthquakes induced by fluid injection Environmental Review Letters, 9, doi: 10.1088/1748-9326/9/6/064022.
    
    
61. Stork A.L., J.P. Verdon and J.-M. Kendall (2014), The robustness of seismic moment and magnitudes estimated using spectral analysisi Geophysical Prospecting, 62, doi: 10.1111/1365-2478.12134.
    
    
62. Jones G.A., J.-M. Kendall, I. Bastow, D.G. Raymer and A. Wuestefeld (2014), Characterization of fractures and faults: a multi-component passive microseismic study from the Ekofisk reservoir Geophysical Prospecting, 62, doi: 10.1111/1365-2478.12139.
    
    
63. Jones G.A., J.-M. Kendall, I.D. Bastow and D.G. Raymer (2014), Locating microseismic events using borehole data Geophysical Prospecting, 62, 34-49, doi: 10.1111/1365-2478.12076.
    
    
64. Verdon J.P., J-M. Kendall, A.L. Stork, R.A. Chadwick, D.J. White, R.C. Bissell (2013), A comparison of geomechanical deformation induced by 'megatonne' scale CO2 storage at Sleipner, Weyburn and In Salahi Proceedings of the National Academy of Sciences, 110, E2762-E2771, doi: 10.1073/pnas.1302156110.
    
    
65. Harland, S.R., J.-M. Kendall, G.W. Stuart, G.E. Lloyd, A.F. Baird, A.M. Smith, H.D. Prtichard and A.M. Brisbourne (2013), Deformation in Rutford Ice Stream, West Antarctica: measuring shear-wave anisotropy from icequakesxx Annals of Glaciology, 54, doi:10.3189/2013AoG64A033.
    
    
66. Baird, A.F., J-M. Kendall, J.P. Verdon, A. Wuestefeld, T.E. Noble, Y. Li, M. Dutko and Q.J. Fisher (2013), Monitoring increases in fracture connectivity during hydraulic stimulations from temporal variations in shear-wave splitting polarization Geophysical Journal International, 195, 1120-1131, doi: 10.1093/gji/ggt274.
    
    
67. Baird, A.F., J-M. Kendall and D.A. Angus (2013), Frequency dependent seismic anisotropy due to fractures: Fluid flow versus scattering Geophysics, 78, WA111-WA122.
    
    
68. P.J. Usher, D.A. Angus, J.P. Verdon (2013), Influence of a velocity model and source frequency on microseismic waveforms: some implications for microseismic locations Geophysical Prospecting, 61, 334-345, doi: 10.1111/j.1365-2478.2012.01120.x.
    
    
69. Verdon J.P. and A. Wuestefeld (2013), Measurement of the normal/tangential compliance ratio (ZN/ZT) during hydraulic fracture stimulation using shear wave splitting data Geophysical Prospecting, 61, 461-475, doi: 10.1111/j.1365-2478.2012.01132.x.
    
    
70. D.A. Angus, and J.P. Verdon (2013), Using microseismicity to estimate formation permeability for geological storage of CO2 ISRN Geophysics, 2013, ID160758, doi: 10.1155/2013/160758.
    
    
71. J.P. Verdon (2012), Microseismic monitoring and geomechanical modelling of CO2 storage in subsurface reservoirs. Springer Thesis Series, 186pp. ISBN 978-3-642-25387-4
    
    
72. J.P. Verdon, J-M. Kendall, D.J. White, (2012), Monitoring CO2 storage using passive seismic techniques. Proceedings of the Institute of Civil Engineers - Energy, 165, 85-96.
    
    
73. J.P. Verdon, A. Wuestefeld, (2012), Measurement of the normal/tangential compliance ratio (ZN/ZT) during hydraulic fracture stimulation using shear wave splitting data. Geophysical Prospecting, accepted.
    
    
74. A. Wuestefeld, J.P. Verdon, J-M. Kendall, J. Rutledge, H. Clarke, J. Wookey (2011), Inferring rock fracture evolution during reservoir stimulation from seismic anisotropy. Geophysics, 76, WC159-WC168.
    
    
75. A. Wuestefeld, J-M. Kendall, J.P. Verdon, A. van Aas (2011), In-situ monitoring of rock fracturing using shear-wave splitting analysis: An example from a mining setting. Geophysical Journal International, 187, 848-860.
    
    
76. J.M. Segura, Q.J. Fisher, A.J.L. Crook, M. Dutko, J. Yu, S. Skachkov, D.A. Angus, J.P. Verdon, J-M. Kendall (2011), Reservoir stress path characterization and its implications for fluid-flow production simulations. Petroleum Geosciences, 17, 335-344.
    
    
77. J.P. Verdon, J-M. Kendall, D.J. White, D.A. Angus (2011), Linking microseismic event observations with geomechanical models to minimise the risks of storing CO2 in geological formations. Earth and Planetary Science Letters, 305, 143-152.
    
    
78. J.P. Verdon, J-M. Kendall (2011), Detection of multiple fracture sets using observations of shear-wave splitting in microseismic data. Geophysical Prospecting, 59, 593-608.
    
    
79. O.H. Al-Harrasi, J-M. Kendall and M. Chapman (2011), Fracture characterisation using frequency-dependent shear wave anisotropy analysis of microseismic data. Geophysical Journal International, 185(2), 1059-1070.
    
    
80. O.H. Al-Harrasi, A. Al-Anboori, A. Wuestefeld, J.-M. Kendall (2011), Seismic anisotropy in a hydrocarbon field estimated from microseismic data. Geophysical Prospecting, 59(2), 227-243.
    
    
81. D.A. Angus, J.P. Verdon, Q.J. Fisher, J-M. Kendall, J.M. Segura, T.G. Kristiansen, A.J.L. Crook, S. Skachkov, M. Dutko (2011), Integrated fluid-flow, geomechanic and seismic modelling for reservoir characterisation. Canadian Society of Exploration Geophysicists, Recorder, 36(5), 26-35.
    
    
82. D.J. White, M. Meadows, S. Cole, A. Ramirez, Y. Hao, S. Carle, A. Duxbury, C. Samson, J-M. Kendall, J.P. Verdon, B. Dietker, T. Urbancic, J. Johnson and I. Morozov (2011), Geophysical monitoring of the Weyburn CO2 flood: Results during 10 years of injection. Energy Procedia, 4, 3628-3635.
    
    
83. G.A. Jones, D. Raymer, K. Chambers and J.-M. Kendall (2010), Improved microseismic event location by inclusion of a priori dip particle motion: a case study from Ekofisk. Geophysical Prospecting, 58(5), 727-737.
    
    
84. J.P. Verdon, J-M. Kendall, S.C. Maxwell (2010), A comparison of passive seismic monitoring of fracture stimulation due to water versus CO2 injection. Geophysics, 75(3), MA1-MA7.
    
    
85. J.P. Verdon, D.J. White, J-M. Kendall, D. Angus, Q. Fisher, T. Urbancic (2010), Passive seismic monitoring of carbon dioxide storage at Weyburn. The Leading Edge, 29(2), 200-206.
    
    
86. A. Wuestefeld, O. Al Harrasi, J.P. Verdon, J. Wookey, J-M. Kendall (2010), A strategy for automated analysis of passive microseismic data to image seismic anisotropy and fracture characteristics. Geophysical Prospecting, 58(5), 755-773.
    
    
87. K. Chambers, J-M. Kendall, S. Brabdsberg-Dahl, J. Rueda (2010), Testing the ability of surface arrays to monitor microseismic activity. Geophys. Prosp, 58, 821-830.
    
    
88. K. Chambers, J-M. Kendall (2008), A practical implimentation of wavefront construction for 3D isotropic media. Geophys. J. Int., 174, 1030-1038.
    
    
89. J-M. Kendall, A. Al-Anboori (2008), Passive seismic monitoring of reservoirs: A case study from Oman. In M. Payne, W. Abriel (eds.), Reservoir Geophysics, Society of Exploration Geophysicists.
    
    
90. Hall, S. A., J-M. Kendall, J. Maddock and Q. Fisher (2008), Crack density tensor inversion for analysis of changes in rock frame architecture. Geophys. J. Int., 173, 577-592.
    
    
91. J-M. Kendall, Q.J. Fisher, S. Covey-Crump, J. Maddock, A. Carter, S.A. Hall, J. Wookey, S.L.A. Valcke, M. Casey, G. Lloyd and W. Ben Ismail (2007), Seismic anisotropy as an indicator of reservoir quality in siliciclastic rocks. In S. Jolley, D. Barr, J. Walsh and R.J. Knipe (eds.), Structurally Complex Reservoirs, Geol. Soc. London - Spec. Pub., 292, 123-136.
    
    
92. A.J.Carter, J-M. Kendall (2006), Attenutation anisotropy and the relative frequency content of split shear waves. Geophys. J. Int., 165, 865-874.
    
    
93. S.L.A. Valcke, M. Casey, G.E. Lloyd, J-M. Kendall, and Q.J. Fisher (2006), Lattice preferred orientation and seismic anisotropy in sedimentary rocks. Geophys. J. Int., 166, 652-666.
    
    
94. K. De Meersman, M. Van der Baan, J-M. Kendall (2006), Signal extraction and automated polarisation analysis of multi-component array data. Bull. Seism. Soc. Am., 96, 2415-2430.
    
    
95. G.E. Lloyd, J-M. Kendall (2005), Petrofabric derived seismic properties of a mylonitic quartz simple shear zone: Implications for seismic reflection profiling. In P. Harvey, T. Brewer, P. Pezard and V. Petrov (eds.), Petrophysical Properties of Crystalline Rocks, Geol. Soc. London - Spec. Pub., 240, 75-94.
    
    
96. D. Keir, C.J. Ebinger and J-M. Kendall (2005), Shear-wave splitting in crustal earthquakes and evidence for variations in melt alignment beneath the Northern Ethiopian Rift. Geophys. Res. Lett., 32, L23308.
    
    
97. B. Al-Busafi, Q.J. Fisher, S.D. Harris, J-M. Kendall (2005), The impact of fault representation on history match and future generated seismic impedance response in reservoir models: Case study for Pierce Field, North Sea. SPE Paper 93429.
    
    
98. N. Teanby, J-M. Kendall, R.H. Jones and O.I. Barkved (2004), Stress-induced temporal variations in seismic anisotropy observed in microseismic data. Geophys. J. Int., 156, 459-466.
    
    
99. N. Teanby, M. Van der Baan, J-M. Kendall (2004), Automation of shear-wave splitting measurements using cluster analysis. Bull. Seis. Soc. Am., 94, 453-463.
    
    
100. D.G. Raymer, A. Tommasi, J-M. Kendall (2000), Predicting the seismic implications of salt anisotropy using numerical simulations of halite deformation. Geophysics, 65, 1272-1280.
     
     
101. D.G. Raymer, J-M. Kendall (1998), Seismic anisotropy in salt structures due to preferred crystal orientation. La Revue de l'IFP, 53, 35-43.
     
     
102. J. Caddick, J-M. Kendall, D. G. Raymer (1998), Maslov shear-waveforms in highly anisotropic shales and implications for shear-wave splitting analyses. La Revue de l'IFP, 53, 64-71.
     
     

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Contact: James Verdon