Temporal and spatial evolution of hypocentres and anisotropy from the Darfield aftershock sequence: Implications for fault geometry and age

E. M. Syracuse; R. A. Holt; M. K. Savage; J. H. Johnson; C. H. Thurber; K. Unglert; K. N. Allan; S. Karaliyadda; M. Henderson

doi:10.1080/00288306.2012.690766

Temporal and spatial evolution of hypocentres and anisotropy from the Darfield aftershock sequence: Implications for fault geometry and age

E. M. Syracuse, R. A. Holt, M. K. Savage, J. H. Johnson, C. H. Thurber, K. Unglert, K. N. Allan, S. Karaliyadda, M. Henderson

Research output: Contribution to journal › Article › peer-review

18 Citations (Scopus)

Abstract

The first four months of aftershocks of the Darfield earthquake have been studied using data from temporary and permanent seismic stations to investigate the fault geometry, stress field and evolution of seismicity and seismic properties. Earthquake relocations illuminate fault segments and show that the majority of aftershocks occurred beyond the areas of highest slip during the Darfield earthquake. Seismic anisotropy shows a mixture of fast directions parallel to the maximum horizontal stress and fault-parallel fast directions. This, combined with the lack of observable growth of seismicity along fault segments, suggests that the Greendale Fault broke a pre-existing fault plane.

Original language	English
Pages (from-to)	287-293
Number of pages	7
Journal	New Zealand Journal of Geology and Geophysics
Volume	55
Issue number	3
Early online date	21 Aug 2012
DOIs	https://doi.org/10.1080/00288306.2012.690766
Publication status	Published - 2012

Keywords

aftershocks
earthquake locations
anisotropy
faults
multiplets
stress

Access to Document

10.1080/00288306.2012.690766

Cite this

Syracuse, E. M., Holt, R. A., Savage, M. K., Johnson, J. H., Thurber, C. H., Unglert, K., Allan, K. N., Karaliyadda, S., & Henderson, M. (2012). Temporal and spatial evolution of hypocentres and anisotropy from the Darfield aftershock sequence: Implications for fault geometry and age. New Zealand Journal of Geology and Geophysics, 55(3), 287-293. https://doi.org/10.1080/00288306.2012.690766

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abstract = "The first four months of aftershocks of the Darfield earthquake have been studied using data from temporary and permanent seismic stations to investigate the fault geometry, stress field and evolution of seismicity and seismic properties. Earthquake relocations illuminate fault segments and show that the majority of aftershocks occurred beyond the areas of highest slip during the Darfield earthquake. Seismic anisotropy shows a mixture of fast directions parallel to the maximum horizontal stress and fault-parallel fast directions. This, combined with the lack of observable growth of seismicity along fault segments, suggests that the Greendale Fault broke a pre-existing fault plane.",

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author = "Syracuse, {E. M.} and Holt, {R. A.} and Savage, {M. K.} and Johnson, {J. H.} and Thurber, {C. H.} and K. Unglert and Allan, {K. N.} and S. Karaliyadda and M. Henderson",

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Syracuse, EM, Holt, RA, Savage, MK, Johnson, JH, Thurber, CH, Unglert, K, Allan, KN, Karaliyadda, S & Henderson, M 2012, 'Temporal and spatial evolution of hypocentres and anisotropy from the Darfield aftershock sequence: Implications for fault geometry and age', New Zealand Journal of Geology and Geophysics, vol. 55, no. 3, pp. 287-293. https://doi.org/10.1080/00288306.2012.690766

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T1 - Temporal and spatial evolution of hypocentres and anisotropy from the Darfield aftershock sequence: Implications for fault geometry and age

AU - Syracuse, E. M.

AU - Holt, R. A.

AU - Savage, M. K.

AU - Johnson, J. H.

AU - Thurber, C. H.

AU - Unglert, K.

AU - Allan, K. N.

AU - Karaliyadda, S.

AU - Henderson, M.

PY - 2012

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AB - The first four months of aftershocks of the Darfield earthquake have been studied using data from temporary and permanent seismic stations to investigate the fault geometry, stress field and evolution of seismicity and seismic properties. Earthquake relocations illuminate fault segments and show that the majority of aftershocks occurred beyond the areas of highest slip during the Darfield earthquake. Seismic anisotropy shows a mixture of fast directions parallel to the maximum horizontal stress and fault-parallel fast directions. This, combined with the lack of observable growth of seismicity along fault segments, suggests that the Greendale Fault broke a pre-existing fault plane.

KW - aftershocks

KW - earthquake locations

KW - anisotropy

KW - faults

KW - multiplets

KW - stress

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DO - 10.1080/00288306.2012.690766

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JO - New Zealand Journal of Geology and Geophysics

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