The New Zealand Geophysics Prize
The prize shall be awarded to the author or authors of the most meritorious eligible publication in the field of geophysics in the current or previous two calendar years.,
Nomination template link below.
1. The award shall be known as "The New Zealand Geophysics Prize".
2. The prize shall be awarded by the Committee of the Geoscience Society of New Zealand (Inc.) to the author or authors of the most meritorious eligible publication in the field of geophysics.
3. The prize will normally be awarded annually, but no award shall be made if, in the opinion of the Committee, no suitable contribution has been published.
4. To be eligible for the prize a publication must meet the following conditions:
(a) The publication shall describe research in the field of geophysics that has been either carried out in New Zealand, or carried out principally by a New Zealander, temporarily overseas, or pertains to the New Zealand region; and
(b) The publication must have been published in the current or previous two calendar years.
5. Any publication that is considered to be of particular merit may be submitted by the author or any other nominator for consideration by sending copy to the Awards Subcommittee.
6. Each year, the Committee of the Society shall convene an Awards Subcommittee to evaluate the applicants for the New Zealand Geophysics Prize. The Awards Subcommittee may seek further nominations, and shall, after considering the merits of the applicants, recommend to the Committee of the Society which eligible nomination shall be awarded the prize for the most meritorious publication on New Zealand geophysics. The members of the Awards Subcommittee shall not themselves be eligible for the prize, and ordinarily will be chosen so as not to include any author of a paper under consideration. The Awards Subcommittee shall, after evaluation of the papers submitted to them, recommend to the Committee of the Society which publication, if any, merits the prize.
7. The prize shall normally consist of a suitably inscribed book. In the case of papers written by more than one author, the prize will normally be jointly awarded to all authors.
8. The prize shall, if possible, be presented at the Annual General Meeting, or the Annual Conference, of the Society.
The nomination template is here.
Due date: September 1.
The New Zealand Geophysics Prize recipients
For publication(s) by the following on
|2018 ||Ian Hamling et al. "Complex multifault rupture during the 2016 Mw 7.8 Kaikōura earthquake, New Zealand." Science 356(6334).|
O'Brien et al. "Spatially and temporally systematic hydrologic changes
within large geoengineered landslides, Cromwell Gorge, New Zealand,
induced by multiple regional earthquakes." (2016) Journal of Geophysical
Research Solid Earth, 121, 8750-8773.|
Wallace et al."Slow slip near the trench at the Hikurangi subduction
zone, New Zealand." (2016) Science v. 352, p. 701-704.|
Stern et al. "A seismic reflection image for the base of a tectonic
plate". (2015) Nature v. 518, p. 85-88, doi10.1038/Nature14146|
|2014 ||Martin Reyners et al. 2014, "Prolonged Canterbury earthquake sequence linked to widespread weakening of strong crust" Nature Geoscience 7, 34-37. |
Henry et al. "SAHKE geophysical transect reveals crustal and subduction
zone structure at the southern Hikurangi margin, New Zealand".
Geochemistry, Geophysics, Geosystems. 14(7), 2063-2083.|
||Simon Cox et al. "Hydrological effects of the Mw 7.1
Darfield (Canterbury) earthquake, 4 September 2010, New Zealand". New
Zealand Journal of Geology and Geophysics 55, Issue 3, 231-247. Special
Issue: The 2010-2011 Canterbury earthquake sequence.|
||Bryan Davy et al. "Gas escape features off New Zealand: evidence of massive release of methane from hydrates". Geophysical Research Letters 37, L21309, 5 PP. 2010.|
||John Beavan et al. "Near-simultaneous great earthquakes at Tongan megathrust and outer rise in September 2009" Nature August 2010.|
||Philip E. Wannamaker, T. Grant Caldwell, George R.
Jiracek, Virginie Maris, Graham J. Hill, Yasuo Ogawa, Hugh M. Bibby,
Stewart L. Bennie & Wiebke Heise. Fluid and deformation regime of an
advancing subduction system at Marlborough, New Zealand. Nature 460,
||Martin Reyners, Donna Eberhart-Phillips and Graham
Stuart.The role of fluids in lower-crustal earthquakes near continental
rifts. Nature: 446, 1075-1078.|
||Hugh Bibby, Grant Caldwell and Colin Brown. Determinable
and non-determinable parameters of galvanic distortion in
magnetotellurics. Geophysical Journal International, 163(3): 915-930.|
Townend J., M. D. Zoback , Stress, strain, and mountain building in
central Japan. J. Geophys. Res., 111, B03411, doi:10.1029/2005JB003759.
||Wallace L. M., J. Beavan, R. McCaffrey, D. Darby.
Subduction zone coupling and tectonic block rotations in the North
Island, New Zealand, J. Geophys. Res., 109, B12406,
doi:10.1029/2004JB003241. 2004 |
||Timothy A. Little, Martha K. Savage, Basil Tikoff.
Relationship between crustal finite strain and seismic anisotropy in the
mantle, Pacific-Australia plate boundary zone, South Island, New
Zealand, Geophysical Journal International 151 (1), 106-116.
|| No award|
||Stern, T., Molnar, P., Okaya, D., Eberhart-Phillips, D.
Teleseismic P wave delays and modes of shortening the mantle lithosphere
beneath South Island, New Zealand. Journal of Geophysical Research.
Solid earth, 105(B9): 21, 615-21, 631. 2000|
||Beavan J. and Haines A.J. Contemporary horizontal
velocity and strain rate fields of the Pacific-Australian plate boundary
zone through New Zealand. Journal of Geophysical Research 106: 817-834,
||T.H. Webb and H.J. Anderson. Focal mechanisms of large
earthquakes in the North Island of New Zealand: slip partitioning at an
oblique active margin, Geophysical Journal International 134:40-86, 1998|
||G. Caldwell and H.M. Bibby. The instantaneous apparent
resistivity tensor: a visualisation scheme for LOTEM electric field
measurements. Geophysical Journal International Vol 135: 817-834, 1998.|
||M. Reyners,R. Robinson,P. McGinty. Plate coupling in the
northern South Island and southernmost North Island, as illuminated by
earthquake focal mechanisms. Journal of Geophysical Research Vol 102:
15,197 - 15,210, 1997.|
||F. J. Davey, S. A. Henrys and E. Lodolo. Asymmetric
rifting in a continental back-arc basin environment, North Island, New
Zealand. Journal of Volcanology and Geothermal Research 68: 209-238,
||J. H. Ansell and S. C. Bannister. Shallow morphology of
the subducted Pacific plate along the Hikurangi margin, New Zealand.
Physics of the Earth and Planetary Interiors 93: 3-10, 1996.|
||A. W. Hurst and S. Sherburn. Volcanic tremor at Ruapehu:
characteristics and implications for the resonant source. New Zealand
Journal of Geology and Geophysics 36: 475-485, 1993.|
||C. J. Marks and C. D. Rodgers. A retrieval method for
atmospheric composition from limb emission measurements. Journal of
Geophysical Research 98(D8): 14,939-14,953, 1993.|
||D. J. Woodward. Inversion of aeromagnetic data using digital terrain models. Geophysics 58(5): 645-652, 1993.|
||K. R. Gledhill. Evidence for shallow and pervasive
seismic anisotropy in the Wellington region, New Zealand. Journal of
Geophysical Research 96(B13): 21,503-21,516, 1991.|
||R. L. Dowden and C. D. D. Adams. (i) Adams & Dowden,
VLF group delay of lightning-induced electron precipitation echoes from
measurements of phase and amplitude perturbations at two frequencies.
Journal of Geophysical Research 95(A3): 2457-2462, 1990.|
& Adams, Location of lightning-induced electron precipitation from
measurement of VLF phase and amplitude perturbations on spaced antennas
and on two frequencies.
Journal of Geophysical Research 95(A4): 4135-4145, 1990.
||T. A. Stern and U. Ten Brink. Flexural uplift of the
Transantarctic Mountains. Journal of Geophysical Research 94(B8):
||M. Uddstrom. Retrieval of atmospheric profiles from
satellite radiance data by typical shape function maximum a posteriori
simultaneous retrieval estimators. Journal of Applied Meteorology 27:
||P. O. Koons. Some thermal and mechanical consequences of
rapid uplift: an example from the Southern Alps, New Zealand. Earth and
Planetary Science Letters 86: 307-319, 1987.|
||N. D. Gordon. The Southern Oscillation in New Zealand weather. Monthly Weather Review 114(2): 371-387, 1986.|
||A. C. Kibblewhite and K. C. Ewans. Wave-wave
interactions, microseisms and infrasonic noise in the ocean. Journal of
the Acoustical Society of America 78(3): 981-994, 1985.|
||A. J. Haines. A phase-front method:|
Papers in Geophysical Journal of the Royal Astronomical Society,
(I) Narrow-frequency-band SH waves, G.J.R.A.S. 72: 783-808, 1983,
(II) Broad-frequency-band SH waves G.J.R.A.S. 77: 43-64, 1984,
(III) Acoustic waves, P- and S- waves G.J.R.A.S. 77: 65-103, 1984.
||W. Allan. Quarter-wave ULF pulsations. Planetary and Space Science 31: 323-330, 1983.|
||W. I. Reilly. Three-dimensional adjustment of geodetic networks using gravity field data.|
Int. symp. on geodetic networks and computations, Munich 1981. Vol VII,
Combination of horizontal, vertical and gravity networks." Deutsche
Geodaetische Kommission B: 258/VII: 142-156, 1982.
||R. McKibbin and M. J. O'Sullivan. Heat transfer in a layered porous medium heated from below.|
Journal of Fluid Mechanics 111: 141-173, 1981.
||G. A. Eiby. Earthquakes. Heinemann, Auckland, 209 pp., 1980.|
R. Robinson. Variation of energy release, rate of
occurrence and b-value of earthquakes in the main seismic region, New
Zealand. Physics of the Earth and Planetary Interiors 18: 209-220, 1979.
R. I. Walcott. Geodetic strains and large earthquakes in
the Axial Tectonic Belt of North Island, New Zealand. Journal of
Geophysical Research 83: 4419-4429, 1978.
||H. M. Bibby. Crustal strain across the Marlborough
faults, New Zealand. New Zealand Journal of Geology and Geophysics 19:
||J. E. Titheridge. (1) Ion transition heights from
topside electron density profiles. Planetary & Space Science 24:
229-245, 1976. (2) Plasma temperatures from the Alouette 1 electron
density profiles. Planetary & Space Science 24: 247-259, 1976.|
||J. F. Harper. On the driving forces of Plate Tectonics. Geophysical Journal of the Royal Astronomical Society 40: 465-474, 1975.|
||S. J. Gibowicz. Stress drops and aftershocks. Bulletin of the Seismological Society of America 63: 1433-1446, 1973.|
||D. A. Christoffel and R. H. K. Falconer. Changes in the
direction of sea floor spreading in the South-west Pacific. Magnetic
measurements in the Macquarie Ridge region. In Fraser R., International
symposium on the oceanography of the South Pacific: Wellington 1972. 524
pp., 233-240, 1973. |
||M. J. Randall. Multipolar analysis of the mechanisms of deep-focus earthquakes.|
In Methods of Computational Physics 12: 267-298, Academic Press, New York, 1972.
||G. A. M. King. Spread-F on ionograms. Journal of Atmospheric and Terrestrial Physics 32: 209-221, 1970.|
||T. Hatherton. Upper mantle inhomogeneity beneath New Zealand: surface manifestations.|
Journal of Geophysical Research 75(2): 269-284, 1970.
||R. S. Unwin and F.B. Knox. The morphology of the v.h.f. radio aurora at sunspot maximum - IV.|
Journal of Atmospheric and Terrestrial Physics 30: 25-46, 1968.
||G. F. Risk and M. P. Hochstein. Subsurface measurements on the McMurdo Ice Shelf, Antarctica.|
New Zealand Journal of Geology and Geophysics 10: 484-497, 1967.
||J. W. Elder. Heat and mass flow in the earth: hydrothermal systems. N.Z. D.S.I R. Bulletin 169: 115 pp2., 1966.|