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Date of Award
Fall 2024
Document Type
Masters Thesis
Department or Program Affiliation
Geology
Degree Name
Master of Science (MS)
Department
Geology
First Advisor
Amos, Colin B.
Second Advisor
Pfeiffer, Allison
Third Advisor
Mulcahy, Sean
Fourth Advisor
Betka, Paul Michael
Abstract
The termination of a subduction zone along a single plate boundary and the transfer of plate motion to a continental transform results in a transition zone of characteristically distributed deformation. In central Aotearoa New Zealand, where the Pacific plate moves ~41 mm/yr SW relative to the Australian plate, the termination of the Hikurangi subduction zone results in a transition between oblique subduction and oblique continental collision. The right-lateral Marlborough fault system absorbs more than 75% of the relative plate motion at the northern South Island. Farther south, the North Canterbury region accommodates oblique contraction in the tectonic transition zone on an array of faults and folds with three principal orientations. Despite the well-studied 2016 Mw 7.8 Kaikōura earthquake, several active faults in the epicentral region in North Canterbury remain poorly characterized over ~103–105 yr timescales. This study uses recent lidar elevation data and field observations to map active faults and Quaternary landforms in the western Culverden Basin of North Canterbury. Geologic mapping and geomorphic analysis identify several generations of terraces in the study area cut by south-striking reverse faults, SW- and NE-striking thrust faults, and NW- and SSE-striking left-oblique faults. Scarp profiling, reconstruction of strike-slip offsets, and in-progress luminescence (IRSL/OSL) age dating of sediments from late Pleistocene to Holocene fluvial terraces resolve slip magnitudes and rates on six active fault zones. At the range-bounding Hurunui Peak fault zone (HPFZ), up to ~15 m of vertical separation and dip slip of ~23 m on latest-Pleistocene surfaces indicate multiple large surface ruptures and a ~0.9–1.9 mm/yr dip-slip rate since the late Pleistocene. Other south-striking reverse faults record dip-slip rates as high as ~0.6 mm/yr and accommodate the WNW–ESE maximum compressive stress orientation in North Canterbury. NW- and SSE-striking faults in the mapping area slip left-laterally in response to this regional compression. The intersection and interaction of multiple fault orientations and kinematics in the western Culverden Basin reflect the wide distribution of oblique plate convergence around the plate boundary transition in a manner that is likely transient on ~106 yr timescales as the plate boundary evolves.
Type
Text
Publisher
Western Washington University
OCLC Number
1479607858
Subject – LCSH
Rock deformation--New Zealand--Canterbury; Subduction zones--New Zealand--Canterbury; Plate tectonics--New Zealand--Canterbury; Continental margins--New Zealand
Geographic Coverage
Canterbury (N.Z.); New Zealand
Format
application/pdf
Genre/Form
masters theses
Language
English
Rights
Copying of this document in whole or in part is allowable only for scholarly purposes. It is understood, however, that any copying or publication of this document for commercial purposes, or for financial gain, shall not be allowed without the author’s written permission.
Recommended Citation
Sayre, Josh, "Active Deformation at the Transition from Subduction to Oblique Collision in the Culverden Basin, Aotearoa New Zealand" (2024). WWU Graduate School Collection. 1343.
https://cedar.wwu.edu/wwuet/1343