New predictive equations for Arias intensity from crustal earthquakes in New Zealand

Abercrombie RE (1998) A summary of attenuation measurements from borehole recordings of earthquakes: the 10 Hz transition problem. Pure Appl Geophys 153:475–487

Abercrombie RE, Webb TH, Robinson R, McGinty PJ, Mori JJ, Beavan RJ (2000) The enigma of the Arthur’s Pass, New Zealand, earthquake 1. Reconciling a variety of data for an unusual earthquake sequence. J Geophys Res 105(B7):16119–16137

Abrahamson NA, Silva WJ (1997) Empirical response spectral attenuation relations for shallow crustal earthquakes. Seism Res Lett 68(1):94–127

Akaike H (1974) A new look at the statistical model identification. IEEE Trans Automat Contr 19(6):716–723

Allen TI, Gibson G, Brown A, Cull JP (2004) Depth variation of seismic source scaling relations: implications for earthquake hazard in southeastern Australia. Tectonophysics 390(1–4):5–24

Anderson JG, Hough SE (1984) A model for the shape of the Fourier amplitude spectrum of acceleration at high-frequencies. Bull Seismol Soc Am 74(5):1969–1993

Anderson H, Webb T, Jackson J (1993) Focal mechanisms of large earthquakes in the South-Island of New-Zealand – implications for the accommodation of Pacific-Australia plate motion. Geophys J Int 115(3):1032–1054

Arias A (1970) A measure of earthquake intensity. In: Hansen RJ (ed) Seismic design for nuclear power plants. MIT Press, Cambridge MA, pp 438–483

Arnadottir T, Beavan J, Pearson C (1995) Deformation associated with the 18 June 1994 Arthur’s Pass earthquake, New Zealand. NZ J Geol Geophys 38(4):553–558

Baker JW, Cornell CA (2006) Which spectral acceleration are you using? Earthq Spectra 22(2):293–312

Beyer K, Bommer JJ (2006) Relationships between median values and between aleatory variabilities for different definitions of the horizontal component of motion. Bull Seismol Soc Am 96(4A):1512–1522 [Erratum 97(5):1769]

Bommer JJ, Scherbaum F, Bungum H, Cotton F, Sabetta F, Abrahamson NA (2005) On the use of logic trees for ground-motion prediction equations in seismic-hazard analysis. Bull Seismol Soc Am 95(2):377–389

Bommer JJ, Stafford PJ, Alarcón JE, Akkar S (2007) The influence of magnitude range on empirical ground-motion prediction. Bull Seismol Soc Am 97(6):2152–2170

Boore DM (2003) Simulation of ground motion using the stochastic method. Pure Appl Geophys 160(3–4):635–676

Boore DM (2004) Can site response be predicted? J Eq Eng 8:1–41

Boore DM, Joyner WB (1997) Site amplifications for generic rock sites. Bull Seismol Soc Am 87(2):327–341

Boore DM, Watson-Lamprey J, Abrahamson NA (2006) Orientation-independent measures of ground motion. Bull Seismol Soc Am 96(4):1502–1511

Brune JN (1970) Tectonic stress and spectra of seismic shear waves from earthquakes. J Geophys Res 75(26):4997–5009

Cousins WJ, Zhao JX, Perrin ND (1999) A model for the attenuation of peak ground acceleration in New Zealand earthquakes based on seismograph and accelerograph data. Bull NZ Soc Eq Eng 32(4):193–217

Del Gaudio V, Pierri P, Wasowski J (2003) An approach to time-probabilistic evaluation of seismically induced landslide hazard. Bull Seismol Soc Am 93(2):557–569

Doser DI, Webb TH, Maunder DE (1999) Source parameters of large historical (1918–1962) earthquakes, South Island, New Zealand. Geophys J Int 139(3):769–794

Douglas J (2003) Earthquake ground motion estimation using strong-motion records: a review of equations for the estimation of peak ground acceleration and response spectral ordinates. Earth-Sci Rev 61(1–2):43–104

Dowrick DJ, Rhoades DA (1998) Magnitudes of New Zealand earthquakes, 1901–1993. Bull NZ Soc Eq Eng 31(4):260–280

Dowrick DJ, Rhoades DA (2004) Relations between earthquake magnitude and fault rupture dimensions: how regionally variable are they? Bull Seismol Soc Am 94(3):776–788

Dziewonski AM, Ekstrom G, Salganik MP (1993) Centroid-moment tensor solutions for January March 1992. Phys Earth Plan Int 77(3–4):143–150

Dziewonski AM, Ekstrom G, Salganik MP (1995) Centroid-moment tensor solutions for October December 1994. Phys Earth Plan Int 91(4):187–201

Dziewonski AM, Ekstrom G, Salganik MP (1996) Centroid-moment tensor solutions for January March 1995. Phys Earth Plan Int 93(3–4):147–157

Dziewonski AM, Franzen JE, Woodhouse JH (1985) Centroid-moment tensor solutions for April June, 1984. Phys Earth Plan Int 37(2–3):87–96

Eberhart-Phillips D, McVerry G (2003) Estimating slab earthquake response spectra from a 3D Q model. Bull Seismol Soc Am 93(6):2649–2663

Egan JA, Rosidi D (1991) Assessment of earthquake-induced liquefaction using ground-motion energy characteristics. In: Proceedings of the pacific conference on earthquake engineering. Auckland, New Zealand

Ekstrom G, Dziewonski AM, Maternovskaya NN, Nettles M (2005a) Global seismicity of 2002: centroid-moment-tensor solutions for 1034 earthquakes. Phys Earth Plan Int 148(2–4):303–326

Ekstrom G, Dziewonski AM, Maternovskaya NN, Nettles M (2005b) Global seismicity of 2003: centroid-moment-tensor solutions for 1087 earthquakes. Phys Earth Plan Int 148(2–4):327–351

Gledhill K, Robinson R, Webb T, Abercrombie R, Beavan J, Cousins J (2000) The Mw 6.2 Cass, New Zealand, earthquake of 24 November 1995: reverse faulting in a strike-slip region. NZ J Geol Geophys 43(2):255–269

Hanks TC, Kanamori H (1979) Moment magnitude scale. J Geophys Res 84(NB5):2348–2350

Harp EL, Wilson RC (1995) Shaking intensity thresholds for rock falls and slides: evidence from 1987 Whittier Narrows and Superstition Hills earthquake strong-motion records. Bull Seismol Soc Am 85(6):1739–1757

Hincapie JO, Doser DI, Robinson R (2005) Stress changes induced by earthquakes and secular stress accumulation in the Buller region, South Island, New Zealand (1929–2002). Pure Appl Geophys 162:291–310

Hwang H, Lin CK, Yeh YT, Cheng SN, Chen KC (2004) Attenuation relations of Arias intensity based on the Chi-Chi Taiwan earthquake data. Soil Dyn Eq Eng 24:509–517

Kagawa T, Irikura K, Somerville P (2004) Differences in ground motion and fault rupture process between the surface and buried fault rupture earthquakes. Earth Planets Space 56:3–14

Kayen RE, Mitchell JK (1997) Assessment of liquefaction potential during earthquakes by Arias intensity. J Geotech Geoenviron Eng 123(12):1162–1174

Keefer DK, Wilson RC (1989) Predicting earthquake-induced landslides, with emphasis on arid and semi-arid environments. In: Sadler PM, Morton DM (eds) Landslides in a semi-arid environment, vol 2. Inland Geological Society, pp 118–149

Kramer SL, Mitchell RA (2006) Ground motion intensity measures for liquefaction hazard evaluation. Earthq Spectra 22(2):413–438

Lindstrom MJ, Bates DM (1990) Nonlinear mixed effects models for repeated measures data. Biometrics 46:673–687

Mai PM, Spudich P, Boatwright J (2005) Hypocenter locations in finite-source rupture models. Bull Seismol Soc Am 95(3):965–980

Matcham I, Savage MK, Taber JJ, Reyners M (2006) Earthquake source mechanism analysis for events between 1992 and 1997 using sparse New Zealand broadband data. NZ J Geol Geophys 49(1):75–89

McGinty P (2004) The 2003, Mw 7.2 Fiordland earthquake, and its near-source aftershock strong motion data. Bull NZ Nat Soc Eq Eng 37(3):139–149

McGinty P, Robinson R (1999) Slip distribution of the Lake Tennyson earthquake, New Zealand, as inferred from static stress changes and off fault aftershocks. Geophys Res Lett 26(13):1961–1964

McGinty P, Robinson R, Taber J, Reyners M (1997) The 1990 Lake Tennyson earthquake sequence, Marlborough, New Zealand. NZ J Geol Geophys 40(4):521–535

McGinty P, Robinson R, Webb T (2005) The 2001 M L 6.2 Jackson Bay earthquake sequence, South Island, New Zealand. NZ J Geol Geophys 48(2):315–324

McVerry GH, Zhao JX, Abrahamson NA, Somerville PG (2006) New Zealand acceleration response spectrum attenuation relations for crustal and subduction zone earthquakes. Bull NZ Soc Earthq Eng 39(4):1–58

Olafsson S (1999) Estimation of earthquake-induced response. Dissertation. Department of Structural Engineering, Norwegian University of Science and Technology, Trondheim, Norway, p 140

Olafsson S, Sigbjornsson R (1999) A theoretical attenuation model for earthquake-induced ground motion. J Earthq Eng 3(3):287–315

Peláez J, Delgado J, Casado CL (2005) A preliminary probabilistic seismic hazard assessment in terms of Arias intensity in southeastern Spain. Eng Geol 77:139–151

Reyners M, McGinty P, Cox S, Turnbull I, O’Neill T, Gledhill K, Hancox G, Beavan J, Matheson D, McVerry G, Cousins J, Zhao J, Cowan H, Caldwell G, Bennie S, GeoNet Team (2003) The Mw7.2 Fiordland earthquake of August 21, 2003: background and preliminary results. Bull NZ Nat Soc Earthq Eng 36(4):233–248

Robinson R, McGinty PJ (2000) The enigma of the Arthur’s Pass, New Zealand, earthquake 2. The aftershock distribution and its relation to regional and induced stress fields. J Geophys Res 105(B7):16139–16150

Robinson R, Webb T, McGinty P, Cousins J, Eberhart-Phillips D (2003) The 2000 Thompson Sound earthquake, New Zealand. NZ J Geol Geophys 46(3):331–341

Sabetta F, Pugliese A (1996) Estimation of response spectra and simulation of nonstationary earthquake ground motions. Bull Seismol Soc Am 86(2):337–352

Schwarz G (1978) Estimating the dimension of a model. Ann Stat 6(2):461–464

Somerville P, Pitarka A (2006) Differences in earthquake source and ground motion characteristics between surface and buried faulting earthquakes. In: Proceedings of the 8th U.S. national conference on earthquake engineering. San Francisco, CA

Stafford PJ (2006) Engineering seismological studies and seismic design criteria for the Buller region, South Island, New Zealand. Research report 2006–03. Civil engineering research report. Christchurch, University of Canterbury, p 413

Stafford PJ, Berrill JB, Pettinga JR (2006) New empirical predictive equations for the Fourier amplitude spectrum of acceleration and Arias intensity in New Zealand. In: Proceedings of the first european conference on earthquake engineering and seismology. Geneva, Switzerland

Standards New Zealand (2004) NZS1170.5:2004 structural design actions – earthquake actions. Standards New Zealand, Wellington

Travasarou T, Bray JD, Abrahamson NA (2003) Empirical attenuation relationship for Arias intensity. Earthq Eng Struct Dyn 32(7):1133–1155

Webb TH, Anderson H (1998) Focal mechanisms of large earthquakes in the North Island of New Zealand: slip partitioning at an oblique active margin. Geophys J Int 134(1):40–86

Wilson RC (1993) Relation of Arias intensity to magnitude and distance in California. Open file report 93–556. Reston, Virginia, US Geological Survey, p 42

Wilson RC, Keefer DK (1985) Predicting the areal limits of earthquake-induced landsliding. In: Ziony JI (ed) Evaluating earthquake hazards in the Los Angeles Region – an earth-science perspective. US Geological Survey Professional Paper 1360, Washington DC, pp 316–345

Zhao JX, Dowrick DJ, McVerry GH (1997) Attenuation of peak ground accelerations in New Zealand earthquakes. Bull NZ Nat Soc Earthq Eng 30(2):133–158