B. A. Sissons scite author profile

B. A. Sissons

5Publications

45Citation Statements Received

3Citation Statements Given

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Victoria University of Wellington

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A seismic refraction experiment southeast of Ruapehu volcano

Sissons

Dibble

1981

New Zealand Journal of Geology and Geophysics

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A seismic refraction survey parallel to the strike of the Taupo Volcanic Zone, North Island, New Zealand, and about 9 km southeast of Ruapehu volcano, shows 3 principal refractors with velocities of 2.0 km S-I, 4.9 km S-I, and 5.4 km S-I. The first refractor underlies shallow surface layers, while the last 2 occur at average depths of approximately 600 m and 1700 m respectively. Delay time analysis shows that the 4.9 kID s -I refractor is approximately horizontal, but is upthrown 150 m on the Ruapehu side of a previously mapped fault which curves around the volcano. Surface layers are tephras and the 2.0 km s -1 layer is composed of lahar deposits. Seismograms from the southern portion of the survey show second arrivals with velocities of about 3.0 kID S-I. These are attributed to Tertiary sediments which underlie and predate the volcanics. The velocities of 4.9 km S-1 and 5.4 km S-1 are within the range measured for Mesozoic greywackes which constitute the sedimentary basement of the surrounding region.

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Widening of the Taupo volcanic zone, New Zealand, and the Edgecumbe earthquake of March 1987

Grapes

Sissons²,

Wellman

1987

Geol

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Densities determined from surface and subsurface gravity measurements

Sissons

1981

GEOPHYSICS

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A least‐squares method for the direct inversion of surface and subsurface gravity measurements to obtain in situ density estimates is presented. The method is applied to a set of measurements made in a tunnel through the flank of an andesitic volcano. Densities obtained are [Formula: see text] for material in the top 100 m increasing to [Formula: see text] at about 200 m depth. The average density for rocks penetrated by the tunnel is, from laboratory measurements, [Formula: see text] i.e., about 4 percent higher. The difference is ascribed to joints and voids present in situ and not sampled in the laboratory specimens.

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The Horizontal Kinematics of the North Island of New Zealand

Sissons¹

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<p>The advantages and disadvantages of the 'displacement' approach and the 'strain' approach to the analysis of repeated geodetic surveys for crustal deformation are discussed and two methods of geodetic strain analysis are described in detail. Repeated geodetic surveys in the central North Island show i) secular widening of the Taupo Volcanic Zone (TVZ) at 7 mm y-1 without significant transcurrent motion ii) north-south dextral motion at 14 mm y-1 and east-west narrowing at 4 mm y-1 across the northern end of the North Island Shear Belt iii) 3.1 m extension at 135' across a 15 km-wide region north of Lake Taupo, and adjacent zones of compressive rebound all associated with the 1922 Taupo Earthquakes. From the epicentral distribution and horizontal strain pattern a 15 km-square fault dipping 40' and striking parallel to the TVZ is inferred for the 1922 earthquakes. The seismic moment, 1.3 x 10 26 dyne cm, and the stress drop, 134 bars, are abnormally high for the TVZ. Widening of the TVZ is considered to be back-arc spreading. The spreading axis is postulated to extend northeast into the Havre Trough via a north-south dextral transform; and southwest into the Waverley Fault Zone and Waimea Depression via the sinistral reverse Raetihi Transform. Deformation of the North Island is not homogeneous. Fault zones are idealized as line plate boundaries and four plates -Indian, Central, Kermadec and Pacific - are postulated to account for the deformation. The Indian-Pacific macroplate pole is adopted and non-unique positions and rotation rates for the remaining poles are determined from geodetic strain data and the geometry of plate interactions. The Central Plate is moving away from the Indian Plate at the back-arc spreading axis; the Kermadec Plate is moving dextrally with respect to the Central Plate at the North Island Shear Belt which accommodates most of the transcurrent component of motion between the Indian and Pacific plates in the North Island and gives almost pure subduction of the Pacific Plate under the Kermadec Plate at the Hikurangi Margin.</p>

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Gravity models across the Transantarctic Mountain Front near New Harbour, McMurdo Sound, Antarctica

Bennett

Sissons²

1984

New Zealand Journal of Geology and Geophysics

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B. A. Sissons

A seismic refraction experiment southeast of Ruapehu volcano

Widening of the Taupo volcanic zone, New Zealand, and the Edgecumbe earthquake of March 1987

Densities determined from surface and subsurface gravity measurements

The Horizontal Kinematics of the North Island of New Zealand

Gravity models across the Transantarctic Mountain Front near New Harbour, McMurdo Sound, Antarctica

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