Publications David Marsan

Published articles

1 - Marsan D., D. Schertzer, and S. Lovejoy (1996), Causal space-time multifractal processes: predictability and forecasting of rain fields, J. Geophys. Res., 101, 21D, 26333-26346.

2 - Marsan D., D. Schertzer, and S. Lovejoy (1997), Predictability of multifractal processes: the case of turbulence, in Fractals and chaos in chemical engineering, edited by M. Giona and G. Biardi, World Scientific.

3 - Schertzer D., S. Lovejoy, Y. Chigirinskaya, F. Schmitt, and D. Marsan (1997), Multifractal cascade dynamics and turbulent intermittency, Fractals, 5, 3, 427-471.

4 - Marsan D., and C. J. Bean (1999), Multiscaling nature of sonic velocities and lithology in the upper crystalline crust: evidence from the KTB Main Borehole, Geophys. Res. Lett., 26, 2, 275-278.

5 - Bean C. J., D. Marsan, and F. Martini (1999), Statistical measures of crustal heterogeneities from reflection seismic data: the role of seismic bandwidth, Geophys. Res. Lett., 26, 21, 3241-3244. [pdf]

6 - Marsan D., C. J. Bean, S. Steacy, and J. McCloskey (1999), Spatio-temporal analysis of stress diffusion in a mining-induced seismicity system, Geophys. Res. Lett., 26, 24, 3697-3700. [pdf]

7 - Marsan D., C. J. Bean, S. Steacy, and J. McCloskey (2000), Observation of diffusion processes in earthquake populations, and implications for the predictability of seismicity systems, J. Geophys. Res., 105, 28081-28094. [pdf]

8 - Martini F., C. J. Bean, S. Dolan, and D. Marsan (2001), Seismic image quality beneath strongly scattering structures and implications for lower crustal imaging: numerical simulations, Geophys. J. Int., 145, 423-435.

9 - Schmitt F., and D. Marsan (2001), Stochastic equations generating continuous multiplicative cascades, Eur. Phys. J. B, 20, 3-6. [pdf]

10 - Marsan D., and C. J. Bean (2002), Multifractal modelling of crustal heterogeneity, in Heterogeneity in the Crust and Upper Mantle: Nature, Scaling and Seismic Properties, edited by J. A. Goff et K. Holliger, Kluwer Academic, New York, 207-236. [pdf]

11 - Marsan D., and C. J. Bean (2003), Seismicity response to stress perturbations, analysed for a world-wide catalogue, Geophys. J. Int., 154, 179-195. [pdf]

12 - Marsan D. (2003), Triggering of seismicity at short time scales following Californian earthquakes, J. Geophys. Res., 108, B5, 2266. [pdf]

13 - Weiss J., and D. Marsan (2003), Three dimensional mapping of dislocation avalanches: Clustering and space/time coupling, Science, 299, 89-92. [pdf]

14 - Steacy S., D. Marsan, J. McCloskey, and S. Nalbant (2004), Sensitivity of static stress calculations to the earthquake slip distribution, J. Geophys. Res., 109, B04303. [pdf]

15 - Marsan D., and C. J. Bean (2004), Comment on ’Diffusion of epicenters of earthquake aftershocks, Omori’s law, and generalized continuous-time random walk models’ by A. Helmstetter and D. Sornette (Physical Review E, 66, 061104, 2002), Phys. Rev. E, 69, 063101.

16 - Marsan D., H. Stern, R. Lindsay, and J. Weiss (2004), Scale dependence and localization of the deformation of Arctic sea ice, Phys. Rev. Lett., 93, 178501. [pdf]

17 - Weiss J., and D. Marsan (2004), Scale properties of sea ice deformation and fracturing, Compte-Rendus Acad. Sci., 5, 735-751. [pdf]

18 - Marsan D., and S. S. Nalbant (2005), Methods for measuring seismicity rate changes: A review and a study of how the Mw7.3 Landers earthquake affected the aftershock sequence of the Mw6.1 Joshua Tree earthquake, Pure Appl. Geophys., 162, 1151-1185. [pdf]

19 - Marsan D. (2005), The role of small earthquakes in redistributing crustal elastic stress, Geophys. J. Int., 163, 141-151. [pdf]

20 - Daniel G., D. Marsan, and M. Bouchon (2006), Perturbation of the Izmit earthquake aftershock decaying activity following the 1999 Mw 7.2 Düzce, Turkey earthquake, J. Geophys. Res., 111, B05310. [pdf]

21 - Marsan D. (2006), Can co-seismic stress variability suppress seismicity shadows? Insights from a rate-and-state friction model, J. Geophys. Res., 111, B06305. [pdf]

22 - Renard F., C. Voisin, D. Marsan, and J. Schmittbuhl (2006), High resolution 3D laser scanner measurements of a strike-slip fault quantify its morphological anisotropy at all scales, Geophys. Res. Lett., 33, L04305. [pdf]

23 - Marsan D., and G. Daniel (2007), Measuring the heterogeneity of the co-seismic stress change following the 1999 Mw7.6 Chi-Chi earthquake, J. Geophys. Res., 112, B07305. [pdf]

24 - Rampal P., J. Weiss, D. Marsan, R. Lindsay, and H. Stern (2008), Scaling properties of sea ice deformation from buoy dispersion analysis, J. Geophys. Res., 113, C03002. [pdf]

25 - Marsan D., and O. Lengliné (2008), Extending earthquake’ reach through cascading, Science, 319, 1076-1079. [pdf]

26 - Roux P.-F., D. Marsan, J.P. Métaxian, L. Moreau, and G. O’Brien (2008), Microseismic activity within a serac zone in an Alpine glacier (glacier d’Argentière, Mont-Blanc, France), J. Glaciol., 54, 157-168. [pdf]

27 - Daniel G., D. Marsan, and M. Bouchon (2008), Earthquake triggering in southern Iceland following the June 2000, Ms6.6 doublet, J. Geophys. Res., 113, B5, B05310. [pdf]

28 - Hainzl S., and D. Marsan (2008), Dependence of the Omori p-value on mainshock magnitude in rate-and-state friction models, J. Geophys. Res., 113, B10, B10309. [pdf]

29 - Lengliné O., D. Marsan, J.-L. Got, V. Pinel, V. Ferrazzini, and P. Okubo (2008), Seismicity and deformation induced by magma accumulation at three basaltic volcanoes, J. Geophys. Res.,113, B12, B12305. [pdf]

30 - Rampal P., J. Weiss, and D. Marsan (2009), Positive trend in the mean speed and deformation rate of Arctic sea ice, 1979-2007, J. Geophys. Res., 114, C05013. [pdf]

31 - Lengliné O.,and D. Marsan (2009), Inferring the Coseismic and Postseismic Stress Changes caused by the 2004, M=6 Parkfield Earthquake from Variations of Recurrence Times of Microearthquakes, J. Geophys. Res., 114, B10303. [pdf]

32 – Weiss J., D. Marsan, and P. Rampal (2009), Space and Time Scaling Laws Induced by tine Multiscale Fracturing of The Arctic Sea Ice Cover, in IUTAM Symposium on scaling in solid mechanics, IUTAM Bookseries, 10, 101-109.

33 – Candela T., F. Renard, M. Bouchon, A. Brouste, D. Marsan, J. Schmittbuhl, and C. Voisin (2009), Characterization of Fault Roughness at Various Scales: Implications of Three-Dimensional High Resolution Topography Measurements, Pure Appl. Geophys., 166, 10-11, 1817-1851.

34 – Rampal P., J. Weiss, D. Marsan, and M. Bourgoin (2009), Arctic sea ice velocity field: General circulation and turbulent-like fluctuations, J. Geophys. Res., 114, C10014. [pdf]

35 – Marsan D., and J. Weiss (2010), Space/time coupling in brittle deformation at geophysical scales, Earth Planet. Sci. Lett., 296, 3-4, 353-359. [pdf]

36 – Marsan D., and O. Lengliné (2010), A new estimation of the decay of aftershock density with distance to the mainshock, J. Geophys. Res., 115, B09302 [pdf].

37 - Durand V., M. Bouchon, H. Karabulut, D. Marsan, J. Schmittbuhl, M.-P. Bouin, M. Aktar, and G. Daniel (2010), Seismic Interaction and Delayed Triggering along the North Anatolian Fault, Geophys. Res. Lett., 37, L18310. [pdf]

38 – Bouchon M., H. Karabult, M.-P. Bouin, J. Schmittbuhl, M. Vallée, R. Archuleta, S. Das, F. Renard and D. Marsan (2010), Faulting characteristics of supershear earthquakes, Tectonophys., 493, 244 - 253. [pdf]

39 - Daniel G., E. Prono, F. Renard, F. Thouvenot, S. Hainzl, D. Marsan, A. Helmstetter, P. Traversa, J.L. Got, L. Jenatton, and R. Guiguet (2011), Changes in effective stress during the 2003-2004 Ubaye seismic swarm, France, J. Geophys. Res., 116, B01309. [pdf]

40 – Marsan D., J. Weiss, J.-P. Métaxian, J. Grangeon, P.-F. Roux, and J. Haapala (2011), Low frequency bursts of horizontally-polarized waves in the Arctic sea-ice cover, J. Glaciol., 57, 231 - 237. [pdf]

41 – Got J.-L., V. Monteiller, J. Guilbert, D. Marsan, Y. Cansi, C. Maillard, and J.-P. Santoire (2011), Strain localization and fluid migration from earthquake relocation and seismicity analysis in the western Vosges massif (France), Geophys. J. Int., 185, 1, 365-384. [pdf]

42 - Marsan D., J. Weiss, E. Larose, and J.-P. Métaxian (2012), Sea-ice thickness measurement based on the dispersion of ice swell, J. Acoust. Soc. Am., 131 (1), 80-91. [pdf]

43 - Gimbert F., N. C. Jourdain, D. Marsan, J. Weiss, and B. Barnier (2012), Recent mechanical weakening of the Arctic sea ice cover as revealed from larger inertial oscillations, J. Geophys. Res. (Oceans), 117, C00J12. [pdf]

44 - Toda S., R. S. Stein, G. C. Beroza, and D. Marsan (2012), Aftershocks halted by static stress shadows, Nature Geosciences. [pdf]

45 - Marsan D., and B. Enescu (2012), Modeling the foreshock sequence prior to the 2011, MW9.0 Tohoku, Japan, earthquake, J. Geophys. Res., 117, B06316. [pdf]

46 - Gimbert F., D. Marsan, J. Weiss, N. C. Jourdain, and B. Barnier (2012), Sea ice inertial oscillation magnitudes in the Arctic basin. Cryosphere, 6, 1187-1201, doi: 10.5194/tc-6-1187-2012.

47 - Marsan D., E. Prono, and A. Helmstetter (2013), Monitoring aseismic forcing in fault zones using earthquake time series, Bull. Seismol. Soc. Am., 103, 169-179. [pdf]

48 - Bouchon M., V. Durand, D. Marsan, H. Karabulut, and J. Schmittbuhl (2013), The long precursory phase of most large interplate earthquakes, Nature Geosciences, doi:10.1038/NGEO1770. [pdf]

49 - Durand V., M. Bouchon, H. Karabulut, D. Marsan, and J. Schmittbuhl (2013), Link between Coulomb stress changes and seismic activation in the Marmara sea after the 1999, Izmit (Turkey), earthquake, J. Geophys. Res., 118, DOI: 10.1002/jgrb.50077 [pdf]

50 - Hainzl S., Zakharova O., and D. Marsan (2013), Impact of aseismic transients on the estimation of aftershock productivity parameters, Bull. Seismol. Soc. Am., 103, DOI: 10.1785/0120120247 [pdf]

51 - Marsan D., T. Reverso, A. Helmstetter, and B. Enescu (2013), Slow slip and aseismic deformation episodes associated with the subducting Pacific plate offshore Japan, revealed by changes in seismicity, J. Geophys. Res., 118, DOI: 10.1002/jgrb.50323 [pdf]

52 - Marsan D., A. Helmstetter, M. Bouchon, and P. Dublanchet (2014), Foreshock activity related to enhanced aftershock production, Geophys. Res. Lett., 41, DOI: 10.1002/2014GL061219 [pdf], [supporting material].

53 - Vihma T., R. Pirazzini, I. Fer, I. A. Renfrew, J. Sedlar, M. Tjernström, C. Lüpkes, T. Nygård, D. Notz, J. Weiss, D. Marsan, B. Cheng, G. Birnbaum, S. Gerland, D. Chechin, and J. C. Gascard (2014), Advances in understanding and parameterization of small-scale physical processes in the marine Arctic climate system: a review, Atmos. Chem. Phys., 14, 9403–9450 [pdf].

54 - Durand V., M. Bouchon, M. A. Floyd, N. Theodulidis, D. Marsan, H. Karabulut, and J. Schmittbuhl (2014), Observation of the spread of slow deformation in Greece following the breakup of the slab, Geophys. Res. Lett., 41, DOI: 10.1002/2014GL061408 [pdf].

55 - Reverso T., D. Marsan, and A. Helmstetter (2015), Detection and characterization of transient forcing episodes affecting earthquake activity in the Aleutian Arc system, Earth Plan. Sci. Lett., 412, 25-34 [pdf].

56 - Gardonio B., D. Marsan, O. Lengliné, B. Enescu, , M. Bouchon, and J. L. Got (2015), Changes in seismicity and stress loading on subduction faults in the Kanto region, Japan, 2011-2014, J. Geophys. Res., 120, 2616-2626

57 - Bouchon M., D. Marsan, V. Durand, M. Campillo, H. Perfettini, R. Madariaga, and B. Gardonio (2016), Potential slab deformation and plunge prior to the Tohoku, Iquique and Maule earthquakes, Nature Geosc., 9, 380.

58 - Reverso T., D. Marsan, A. Helmstetter, and B. Enescu (2016), Background seismicity in Boso Peninsula, Japan: Long-term acceleration, and relationship with slow slip events, Geophys. Res. Lett., 43, 5671-5679 [pdf].

59 - Weiss J., V. Pellissier, D. Marsan, L. Arnaud, and F. Renard (2016), Cohesion versus friction in controlling the long-term strength of a self-healing experimental fault, J. Geophys. Res., 121, 8523-8547.

60 - Got J. L., A. Carrier, D. Marsan, F. Jouanne, K. Vogfjord, and T. Villemin (2017), An analysis of the nonlinear magma-edifice coupling at Grimsvotn volcano (Iceland), J. Geophys. Res., 122, 826-843.

61 - Marsan D., M. Bouchon, B. Gardonio, H. Perfettini, A. Socquet, and B. Enescu (2017), Change in seismicity along the Japan trench, 1990-2011, and its relationship with seismic coupling, J. Geophys. Res., 122, 4645-4659 [pdf].

62 - Chiodini G., J. Selva, E. Del Pezzo, D. Marsan, L. De Siena, L. D’Auria, F. Bianco, S. Caliro, P. De Martino, P. Ricciolino, and Z. Petrillo (2017), Clues on the origin of post-2000 earthquakes at Campi Flegrei caldera (Italy), Sci. Reports, 7, 4472 [pdf].

63 - Marsan D., and A. Helmstetter (2017), How variable is the number of triggered aftershocks?, J. Geophys. Res., 122, 5544-5560 [pdf].

64 - Jara J., A. Socquet, D. Marsan, and M. Bouchon (2017), Long-Term Interactions Between Intermediate Depth and Shallow Seismicity in North Chile Subduction Zone, Geophys. Res. Lett., 44, 9283-9292.

65 - Lengliné O., W. B. Frank, D. Marsan, and J. P. Ampuero (2017), Imbricated slip rate processes during slow slip transients imaged by low-frequency earthquakes, Earth Planet. Sci. Lett., 476, 122-131 [pdf].

66 - Moreau L., C. Lachaud, R. Thery, M. V. Predoi, D. Marsan, E. Larose, J. Weiss, and M. Montagnat (2017), Monitoring ice thickness and elastic properties from the measurement of leaky guided waves: A laboratory experiment, J. Acoust. Soc. Am., 144, 2873-2880.

67 - Gardonio B., D. Marsan, A. Socquet, M Bouchon, J. Jara, Q. Sun, N. Cotte, and M. Campillo (2018), Revisiting Slow Slip Events Occurrence in Boso Peninsula, Japan, Combining GPS Data and Repeating Earthquakes Analysis, J. Geophys. Res., 123, 1502-1515 [pdf].

68 - Perfettini H., W. B. Frank, D. Marsan, and M. Bouchon (2018), A Model of Aftershock Migration Driven by Afterslip, Geophys. Res. Lett., 45, 2283-2293 [pdf].

69 - Bouchon M., D. Marsan, J. Jorge, A. Socquet, M. Campillo, H. Perfettini (2018), Suspected Deep Interaction and Triggering Between Giant Earthquakes in the Chilean Subduction Zone, Geophys. Res. Lett., 45, 5454-5460 [pdf].

70 - Reverso T., S. Steacy, D. Marsan (2018), A Hybrid ETAS-Coulomb Approach to Forecast Spatiotemporal Aftershock Rates, J. Geophys. Res., 123, 9750-9763 [pdf].

71 - Marsan D., J. Weiss, L. Moreau, F. Gimbert, M. Doble, E. Larose, J. Grangeon (2019), Characterizing horizontally-polarized shear and infragravity vibrational modes in the Arctic sea ice cover using correlation methods, J. Acoust. Soc. Am., 145, 1600-1608.

72 - Perfettini H., W. B. Frank, D. Marsan, and M. Bouchon (2019), Updip and Along-Strike Aftershock Migration Model Driven by Afterslip: Application to the 2011 Tohoku-Oki Aftershock Sequence, J. Geophys. Res., 124, 2653-2669 [pdf].

73 - Lachaud C., D. Marsan, M. Montagnat, J. Weiss, L. Moreau, and F. Gimbert (2019), Micro-Seismic Monitoring of a Shear Fault within a Floating Ice Plate, J. Geophys. Res., 124, 10444-10467 [pdf].

74 - Gardonio B., M. Campillo, D. Marsan, A., Lecointre, M. Bouchon, and J. Letort (2019), Seismic Activity Preceding the 2011 Mw9.0 Tohoku Earthquake, Japan, Analyzed With Multidimensional Template Matching, J. Geophys. Res., 124, 6815-6831 [pdf].

75 - Gardonio B., A. Schubnel, S. Das, H. Lyon-Caen, D. Marsan, M. Bouchon, and A. Kato (2020), The Preseismic and Postseismic Phases of the similar to 700-km Deep M(w)7.9 Bonin Islands Earthquake, Japan, Geophys. Res. Lett., 47, e2019GL085589 [pdf].

76 - Marsan D., and Y. J. Tan (2020), Maximum Earthquake Size and Seismicity Rate from an ETAS Model with Slip Budget, Bull. Seismol. Soc. Am., 110, 874-885 [pdf].

77 - Tan Y. J., and D. Marsan (2020), Connecting a broad spectrum of transient slip on the San Andreas fault, Sci. Adv., 6, eabb2489 [pdf].

Others

A1 - Hainzl S., S. Steacy, and D. Marsan (2011), Seismicity models based on Coulomb stress calculations, CORSSA article.

A2 - Marsan D., and M. Wyss (2011), Seismicity rate changes, CORSSA article.

A3 - van Stiphout T., J. Zhuang, and D. Marsan (2011), Seismicity declustering, CORSSA article.

A4 - Weiss J., and D. Marsan (2011), De la banquise à la croûte terrestre : les lois d’échelle de la fracturation, Images de la Physique, éditions du CNRS, 65-72. [pdf]