Geodetic strain determinations from the Okarito and Godley-Tekapo regions, central South Island, New Zealand

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New Zealand Journal of Geology and Geophysics abstracts

Geodetic strain determinations from the Okarito and Godley-Tekapo regions, central South Island, New Zealand

CHRIS PEARSON

Department of Geology
University of Otago
P.O. Box 56
Dunedin, New Zealand

Abstract This paper presents geodetic strain rate determinations from the Okarito area of South Westland and the Godley Valley region in western Canterbury.

In the Okarito area, the triangulation network extends from c. 10 km west of the Alpine Fault to 1 km east of the fault. To examine the distribution of strain about the fault, I broke the data into two subnetworks. One of the networks includes all stations located west of the Alpine Fault, and the other includes two stations located west of the fault and two stations located near the fault on the east.

Geodetic strain rates for the two networks are similar. In the western network, the maximum (engineering) shear strain rate is 0.85 +/- 0.15 urad/yr and the azimuth of principal axis of relative contraction is 119deg. +/- 4, whereas in the eastern network the maximum (engineering) shear strain rate is 0.62 +/- 0.11 urad/yr and the azimuth of the principal axis of relative contraction is 115deg. +/- 6. Errors are to the 1 SE level of confidence. Results of the strain determinations indicate that high shear strain rates are not restricted to networks that cross the surface trace of the Alpine Fault.

In the Godley Valley, the maximum (engineering) shear strain rate is 0.28 +/- 0.14 urad/yr and the azimuth of the principal axis of relative contraction is 116deg. +/- 14, similar to other measurements from the eastern side of the Alps. The strain rate from the northern half of the area is much higher, however. A subnetwork extending from the northern end of the Godley Valley (within a few kilometres of the Main Divide) to the confluence with the Macauley River gives 0.62 +/- 0.19 for the maximum (engineering) shear strain rate and 92deg. +/- 9 for the azimuth of the principal axis of relative contraction. The Godley earthquake of 1984, with a moment magnitude of 6.1, occurred within a few kilometres of the subnetwork and may possibly have affected the results.

The azimuth of the principal axis of relative contraction is within +/-2 SE of 110deg. for the whole central Southern Alps. This direction is consistent with transpressional movement on the Alpine Fault and the NUVEL-1 relative plate motion vectors for the Pacific-Australian plate pair.

Keywords Alpine Fault; geodetic strains; Southern Alps

New Zealand Journal of Geology and Geophysics, 1994, Vol. 37: 309-318

0028-8306/94/3703-0309 $2.50/0 (c) The Royal Society of New Zealand 1994

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