Chiara M. Aruffo scite author profile

Chiara M. Aruffo

5Publications

32Citation Statements Received

79Citation Statements Given

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109

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Technical University of Darmstadt

Publications

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Geological structure and kinematics of normal faults in the Otway Basin, Australia, based on quantitative analysis of 3‐D seismic reflection data

Ziesch

Aruffo²,

Tanner

et al. 2015

Basin Research

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The Otway Basin in the south of Victoria, Australia underwent three phases of deformation during breakup of the southern Australian margin. We assess the geometry and kinematics of faulting in the basin by analysing a 3-D reflection seismic volume. Eight stratigraphic horizons and 24 SW-dipping normal faults as well as subordinate antithetic faults were interpreted. This resulted in a high-resolution geological 3-D model (ca. 8 km 9 7 km 9 4 km depth) that we present as a supplementary 3-D PDF (Data S1). We identified hard-and soft-linking fault connections over the entire area, such as antithetic faults and relay ramps, respectively. Most major faults were continuously active from Early to Late Cretaceous, with two faults in the northern part of the study area active until at least the Oligocene. Allan maps of faults show tectonic activity continuously waned over this time period. Isopach maps of stratigraphic volumes quantify the amount of syn-sedimentary movement that is characteristic of passive margins, such as the Otway Basin. We show that the faults possess strong corrugations (with amplitudes above the seismic resolution), which we illustrated by novel techniques, such as cylindricity and curvature. We argue that the corrugations are produced by sutures between sub-vertical fault segments and this morphology was maintained during fault growth. Thus, they can be used to indicate the kinematics vector of the fault movement. This evidences, together with left-stepping relay ramps, that 40% of the faults had a small component (up to 25°) of dextral oblique slip as well as normal (dip-slip) movement.

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Seismic and Sub-seismic Deformation Prediction in the Context of Geological Carbon Trapping and Storage

Krawczyk¹,

Tanner²,

Henk³

et al. 2015

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Geomechanical modelling to assess fault integrity at the CO2CRC Otway Project, Australia

Aruffo

Rodriguez-Herrera

Tenthorey

et al. 2014

Australian Journal of Earth Sciences

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Fault Stability Assessment of CO2CRC Otway Project, Australia – A Geomechanical Approach

Aruffo¹,

Henk²

2014

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Seismo-mechanic Workflow to Ensure CO2 Storage in the Otway Basin, Australia

Aruffo¹,

Ziesch²,

Tanner³

et al. 2013

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Chiara M. Aruffo

Geological structure and kinematics of normal faults in the Otway Basin, Australia, based on quantitative analysis of 3‐D seismic reflection data

Seismic and Sub-seismic Deformation Prediction in the Context of Geological Carbon Trapping and Storage

Geomechanical modelling to assess fault integrity at the CO2CRC Otway Project, Australia

Fault Stability Assessment of CO2CRC Otway Project, Australia – A Geomechanical Approach

Seismo-mechanic Workflow to Ensure CO2 Storage in the Otway Basin, Australia

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