Virginia Toy
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Computer Science
Virginia Toy's Degrees
- PhD Computer Science Stanford University
- Masters Computer Science University of California, Berkeley
- Bachelors Computer Science University of California, Berkeley
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(Suggest an Edit or Addition)According to Wikipedia, Virginia Gail Toy is a New Zealand geologist who studies fault zones and earthquakes in New Zealand, Japan and Ecuador. She is one of the leaders of the Deep Fault Drilling Project of New Zealand's Alpine Fault, and was a research scientist on the Japan Trench Fast Drilling Project. She then worked as a research associate professor in geology and associate dean in the Division of Sciences at the University of Otago. Toy currently works as a Professor at the University of Mainz.
Virginia Toy's Published Works
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Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- A Late Cretaceous and Cenozoic reconstruction of the Southwest Pacific region: Tectonics controlled by subduction and slab rollback processes (2006) (457)
- Quartz fabrics in the Alpine Fault mylonites: Influence of pre-existing preferred orientations on fabric development during progressive uplift (2008) (212)
- Structure and Composition of the Plate-Boundary Slip Zone for the 2011 Tohoku-Oki Earthquake (2013) (185)
- The habitat of fault-generated pseudotachylyte : Presence vs. absence of friction-melt (2013) (145)
- Drilling reveals fluid control on architecture and rupture of the Alpine fault, New Zealand (2012) (138)
- Spatial and temporal evolution of the subducting Pacific plate structure along the western Pacific margin (2006) (103)
- Surface Rupture of Multiple Crustal Faults in the 2016 Mw 7.8 Kaikōura, New Zealand, Earthquake (2018) (96)
- Extreme hydrothermal conditions at an active plate-bounding fault (2017) (92)
- Physical properties of surface outcrop cataclastic fault rocks, Alpine Fault, New Zealand (2012) (81)
- Continental transforms: A view from the Alpine Fault (2014) (77)
- Fault rock lithologies and architecture of the central Alpine fault, New Zealand, revealed by DFDP-1 drilling (2015) (74)
- Frictional properties of exhumed fault gouges in DFDP‐1 cores, Alpine Fault, New Zealand (2014) (65)
- Deep Fault Drilling Project—Alpine Fault, New Zealand (2009) (64)
- Scale dependence of oblique plate-boundary partitioning: New insights from LiDAR, central Alpine fault, New Zealand (2012) (59)
- Slip localization on the southern Alpine Fault, New Zealand (2013) (58)
- The Role of Pyroxenites in Formation of Shear Instabilities in the Mantle: Evidence from an Ultramafic Ultramylonite, Twin Sisters Massif, Washington (2010) (56)
- Hydraulic and acoustic properties of the active Alpine Fault, New Zealand: Laboratory measurements on DFDP-1 drill core (2014) (56)
- Structure and lithology of the Japan Trench subduction plate boundary fault (2015) (55)
- Thermal regime in the central Alpine Fault zone, New Zealand: Constraints from microstructures, biotite chemistry and fluid inclusion data (2010) (53)
- Late‐interseismic state of a continental plate‐bounding fault: Petrophysical results from DFDP‐1 wireline logging and core analysis, Alpine Fault, New Zealand (2013) (52)
- Mica-controlled anisotropy within mid-to-upper crustal mylonites: an EBSD study of mica fabrics in the Alpine Fault Zone, New Zealand (2011) (45)
- Fault welding by pseudotachylyte formation (2016) (44)
- High-velocity frictional properties of Alpine Fault rocks: Mechanical data, microstructural analysis, and implications for rupture propagation (2017) (41)
- Geology of the earthquake source: an introduction (2011) (40)
- Relationships between kinematic indicators and strain during syn-deformational exhumation of an oblique slip, transpressive, plate boundary shear zone: The Alpine Fault, New Zealand (2012) (39)
- Petrophysical, Geochemical, and Hydrological Evidence for Extensive Fracture‐Mediated Fluid and Heat Transport in the Alpine Fault's Hanging‐Wall Damage Zone (2017) (37)
- Large‐displacement, hydrothermal frictional properties of DFDP‐1 fault rocks, Alpine Fault, New Zealand: Implications for deep rupture propagation (2016) (35)
- How do lineations reflect the strain history of transpressive shear zones? The example of the active Alpine Fault zone, New Zealand (2013) (34)
- Structural disorder of graphite and implications for graphite thermometry (2017) (32)
- The Mw7.8 2016 Kaikōura earthquake (2017) (31)
- Diverse habitats of pseudotachylytes in the Alpine Fault Zone and relationships to current seismicity (2011) (30)
- The link between strength of lattice preferred orientation, second phase content and grain boundary migration: A case study from the Alpine Fault zone, New Zealand (2015) (29)
- Clay mineral formation and fabric development in the DFDP-1B borehole, central Alpine Fault, New Zealand (2015) (29)
- Damaged beyond repair? Characterising the damage zone of a fault late in its interseismic cycle, the Alpine Fault, New Zealand (2016) (29)
- Integrated Ocean Drilling Program Expedition 343/343T Preliminary Report, Japan Trench Fast Drilling Project (JFAST), 1 April–24 May 2012 and 5–19 July 2012 (2012) (28)
- Reprint of Extensional shear band development on the outer margin of the Alpine mylonite zone, Tatare Stream, Southern Alps, New Zealand☆ (2013) (27)
- Bedrock geology of DFDP-2B, central Alpine Fault, New Zealand (2017) (26)
- Rheology of the Alpine Fault Mylonite Zone: deformation processes at and below the base of the seismogenic zone in a major plate boundary structure (2008) (25)
- Recrystallisation, phase mixing and strain localisation in peridotite during rapid extrusion of sub-arc mantle lithosphere (2016) (24)
- Grain boundary dissolution porosity in quartzofeldspathic ultramylonites: Implications for permeability enhancement and weakening of mid-crustal shear zones (2013) (24)
- Geology of the Earthquake Source A Volume in Honour of Rick Sibson (2013) (23)
- Textural changes of graphitic carbon by tectonic and hydrothermal processes in an active plate boundary fault zone, Alpine Fault, New Zealand (2017) (23)
- The Sklené garnet peridotite: petrology, geochemistry, and structure of a mantle-derived boudin in Moldanubian granulite (2012) (23)
- Geochemical and microstructural evidence for interseismic changes in fault zone permeability and strength, Alpine Fault, New Zealand (2017) (23)
- Fracturing, fluid-rock interaction and mineralisation during the seismic cycle along the Alpine Fault (2017) (22)
- Crystallographic preferred orientations may develop in nanocrystalline materials on fault planes due to surface energy interactions (2015) (20)
- Strain localization associated with channelized melt migration in upper mantle lithosphere: Insights from the Twin Sisters ultramafic complex, Washington, USA (2013) (19)
- Significance of brittle deformation in the footwall of the Alpine Fault, New Zealand: Smithy Creek Fault zone (2014) (16)
- The Alpine Fault Hangingwall Viewed From Within: Structural Analysis of Ultrasonic Image Logs in the DFDP‐2B Borehole, New Zealand (2018) (15)
- Controls on fault zone structure and brittle fracturing in the foliated hanging wall of the Alpine Fault (2017) (14)
- Striation and slickenline development on quartz fault surfaces at crustal conditions: Origin and effect on friction (2017) (13)
- Complex Conductivity of Graphitic Schists and Sandstones (2019) (12)
- Seismic Anisotropy and Its Impact on Imaging the Shallow Alpine Fault: An Experimental and Modeling Perspective (2020) (11)
- Are quartz LPOs predictably oriented with respect to the shear zone boundary?: A test from the Alpine Fault mylonites, New Zealand (2016) (9)
- Deformation structures in the frontal prism near the Japan Trench: Insights from sandbox models (2015) (9)
- Constraints on Alpine Fault (New Zealand) mylonitization temperatures and the geothermal gradient from Ti-in-quartz thermobarometry (2018) (8)
- Fault zone architecture of a large plate-bounding strike-slip fault: a case study from the Alpine Fault, New Zealand (2019) (8)
- Lithological Characteristics of the Alpine Fault Zone from DFDP-1 and Outcrop Observations (2012) (6)
- Microstructures imply cataclasis and authigenic mineral formation control geomechanical properties of New Zealand's Alpine Fault (2018) (6)
- Fracture Shape and Orientation Contributions to P-Wave Velocity and Anisotropy of Alpine Fault Mylonites (2021) (4)
- Impact of Coseismic Frictional Melting on Particle Size, Shape Distribution and Chemistry of Experimentally-Generated Pseudotachylite (2020) (4)
- Introduction to Journal of Structural Geology special issue on “Continental Transform Faults”☆ (2014) (4)
- Real‐Time Earthquake Monitoring during the Second Phase of the Deep Fault Drilling Project, Alpine Fault, New Zealand (2017) (3)
- Mylonites as shales? Experimental observations of P-wave anisotropy dependence on mineralogy, layering and scale (2016) (3)
- Localisation of deformation in the thermal contrast at a granite batholith margin, New Zealand (2014) (3)
- The Alpine Fault Hanging Wall Viewed from Within: Structural and Lithological Analysis of Acoustic Televiewer Logs in the DFDP-2B Borehole, New Zealand (2015) (3)
- Three-Dimensional Separation and Characterization of Fractures in X-Ray Computed Tomographic Images of Rocks (2020) (3)
- Stratigraphic and structural evidence for an accretionary precursor to the Northland Allochthon: Mt Camel Terrane, northernmost New Zealand (2008) (3)
- White Papers: Drilling Active Tectonics and Magmatism (Volcanics, Geoprisms, and Fault Zones Post-SAFOD) (2013) (2)
- Along strike applicability of results from the Deep Fault Drilling Project, Alpine Fault, New Zealand (2012) (2)
- A blended learning approach to structural field mapping: combining local geology, virtual geology, and web-based tools (2021) (2)
- Experimental Fault Reactivation on Favourably and Unfavourably Oriented Faults (2010) (2)
- Imaging the Alpine Fault to depths of more than 2 km - Initial results from the 2011 WhataDUSIE seismic reflection profile, Whataroa Valley, New Zealand (2011) (2)
- A comparison of the use of X-ray and neutron tomographic core scanning techniques for drilling projects: insights from scanning core recovered during the Alpine Fault Deep Fault Drilling Project (2017) (2)
- Electrical Properties and Anisotropy of Schists and Fault Rocks from New Zealand’s Southern Alps under Confining Pressure (2022) (1)
- Shallow Transpressional Segmentation & Partitioning Revealed by LiDAR Data, Central Alpine Fault, New Zealand (2011) (1)
- Does second phase content control the evolution of olivine CPO type and deformation mechanisms? A case study of paired harzburgite and dunite bands in the Red Hills Massif, Dun Mountain Ophiolite (2021) (1)
- How does the Textural Character of Alpine Fault Rocks Influence their Elasticity and Anisotropy (2015) (1)
- Anatomy of a Plate Boundary at Shallow Crustal Levels: a Composite Section from the Alpine Fault, New Zealand (2010) (1)
- The Effect of Recrystallization on Titanium Concentrations in Quartz, an Example from New Zealand's Alpine Fault (2016) (1)
- Significant along-strike variations in fault gouge thickness, friction coefficient and mineralogy, Alpine Fault, New Zealand (2011) (1)
- Geology of the Earthquake Source (2011) (1)
- Bedrock Geology of the DFDP-2 Drill-Site (2015) (1)
- Evolution of microporosity and permeability of quartzofeldspathic rocks during changes in crustal conditions and tectonite fabric. (2019) (0)
- Drilling to investigate processes in active tectonics and magmatism (2014) (0)
- Tectonic stress and fault rock fabrics in the vicinity of the Alpine Fault inferred from DFDP-2 borehole televiewer (BHTV)imagery (2015) (0)
- Phase mixing and the spatial distribution of material heterogeneities in a crustal fault zone: Insights from New Zealand's Alpine Fault (2017) (0)
- Internal structure of the shallow Japan Trench décollement: insights into the long-term evolution of the margin and coseismic slip processes (2013) (0)
- Frictional properties of exhumed fault gouges in DFDP-1 cores, Alpine Fault, New Zealand (2021) (0)
- Microscale Relationships Between Fault Rock Fabric and Structural Style in Megathrusts - Observations from Tohoku-Oki Via J-Fast. (2014) (0)
- Improving spatial resolution for quantitative microanalysis by SEM-EDS using lower accelerating voltage (2017) (0)
- Electrical Properties of the Hanging Wall of the Alpine Fault, New Zealand, from DFDP-2 Wireline Data (2015) (0)
- A GUIDE TO GEOLOGICAL SITES IN SOUTH AND SOUTHWEST HOKKAIDO (2018) (0)
- Brittle fracture damage around the Alpine Fault, New Zealand (2017) (0)
- Friction experiments on Alpine Fault DFDP core samples: Implications for slip style on plate boundary faults (2014) (0)
- Overview of the Deep Fault Drilling Project, Alpine Fault, Phase 1, DFDP-1 (2012) (0)
- How can we characterise graphite via electron microscopy (2019) (0)
- Quantitative Characterisation of Fracturing Around the Damage Zone Surrounding New Zealand's Alpine Fault Using X-ray CT Scans of DFDP-1 Core (2015) (0)
- Structure and composition of the plate boundary decollement in the area of maximum slip during the 2011 Tohoku-Oki earthquake (2013) (0)
- Chemical and Microstructural Changes During Development of Mixed Ultramafic-quartzofeldspathic Fault Rock and the Effect on Mechanical Behaviour; Observations from SAFOD Gouge (2011) (0)
- 1 Micro-and nano-porosity of the active Alpine Fault zone , New 1 Zealand 2 (2020) (0)
- High T-P frictional strength and stability of exhumed fault core gouges, Alpine Fault, New Zealand (2013) (0)
- Introduction to “Orogenic Cycles: From Field Observations to Global Geodynamics” (2019) (0)
- Drilling Active Tectonics and Magmatism (Volcanics, Geoprisms, Fault Zones Post-SAFOD) Proceedings of a Workshop (2013) (0)
- Paleomagnetic analyses of core samples from the plate-boundary thrust obtained during the IODP JFAST (2014) (0)
- Low Frictional Strength of Alpine Fault Rocks of DFDP-1 at Elevated Temperature and Low Slip Rate (2015) (0)
- Resolving complex structures from vertical seismic profile (VSP) surveys: case study from the Alpine Fault, New Zealand (2010) (0)
- Fluid-Pressure Effects on Deformation: Analysis of the Lusi Mud Volcano (2019) (0)
- Constructing an Alpine Fault Paleoseismicity Record from Slumped Lacustrine Deposits in the Cascade River Valley, South Westland, New Zealand (2014) (0)
- The estimation of porosity in Japan Trench plate boundary using low-resolution X-ray computed tomography (XCT) images and laboratory measurements (2021) (0)
- Along-Strike Variation in Dip-Slip Rate on the Alpine Fault is a Consequence of Lithologic Variation? (2010) (0)
- Strain gradients and melt pathways, Twin Sisters complex, Washington State (2009) (0)
- Fluid flow governed by fault zone architecture, the Alpine Fault, New Zealand (2017) (0)
- Scientific basis for definition of a fault rupture hazard in Franz Josef Glacier, West Coast, New Zealand, and the fight to see use made of this information. (2020) (0)
- Thermochronology of mid-Cretaceous dioritic granulites adjacent "Big Bend" in Australia-Pacific plate boundary, northern South Island, New Zealand (2012) (0)
- Operations Summary During Riserless Drilling to >7700 mbsl in the Japan Trench for IODP Expedition 343 & 343T JFAST and Discussion of the Relationship Between Drilling Parameters and Rock Damage (2014) (0)
- Weak at what scale? Insights from a late interseismic interplate fault (2021) (0)
- Constraining timing of Alpine Fault gouge formation at Gaunt Creek and Waikukupa River, South Island, New Zealand. (2015) (0)
- Results of the Deep Fault Drilling Project (DFDP), Alpine Fault, New Zealand II Posters (2015) (0)
- The changing microstructural arrangement of graphite during deformation and hydrothermal alteration of amphibolite-facies mylonite, Alpine Fault, New Zealand. (2015) (0)
- Supplementary material to "Fault zone architecture of a large plate-bounding strike-slip fault: a case study from the Alpine Fault, New Zealand" (2019) (0)
- Transformation of graphite by tectonic and hydrothermal processes in an active plate boundary fault zone, Alpine Fault, New Zealand (2017) (0)
- The origin of fluids and gases in the DFDP-2B borehole, New Zealand; insight from on-line mud gas monitoring (2016) (0)
- Internal structure of the shallow plate boundary slip zone for the 2011 Tohoku-Oki Earthquake sampled during the Japan Trench Fast Drilling Project (JFAST) (2014) (0)
- Porosity evolution within the active Alpine Fault zone, New Zealand. Implications for fault zone rheology. (2021) (0)
- Assessing the conditions of formation of veins in Alpine Fault mylonites through a combination of classical and high-angular resolution EBSD data (2019) (0)
- Digest of first part of IODP NanTro SEIZE project (2012) (0)
- Frictional properties of DFDP-1 Alpine Fault rocks under hydrothermal conditions and high shear strain (2015) (0)
- A Community Database of Quartz Microstructures: Can we make measurements that constrain rheology? (2014) (0)
- Slickenline development during fault slip depends on temperature under hydrothermal conditions (2016) (0)
- How can geological datasets help us to choose between rheological behaviours suggested by experimental measurements? Examples from the Alpine Fault and the Japan Trench. (2015) (0)
- Overview and summary of operations of DFDP-2 (2016) (0)
- Petrophysical, Structural, and Hydrogeological Characteristics of the Alpine Fault Hanging Wall Based on DFDP-2 Wireline Logging, Temperature, and Hydraulic Measurements (2015) (0)
- Quantifying Hydraulic Conductivity and Fluid Pressures in the Alpine Fault Hanging-Wall Using DFDP-2 Data and Numerical Models (2015) (0)
- Dislocation Processes and Frictional Stability of Faults (2011) (0)
- The Evolution of Deformation-Induced Grain-Boundary Porosity and Dynamic Permeability in Crustal Fault Zones: Insights From the Alpine Fault, New Zealand (2015) (0)
- Micro- and nano-porosity of the active Alpine Fault zone, New Zealand (2020) (0)
- Do active faults’ clay mineral compositions affect whether earthquake ruptures they host will displace the surface? (2021) (0)
- Frictional properties of Alpine Fault rocks of DFDP-1 under hydrothermal conditions and high shear strain (2014) (0)
- Supplementary material to "Micro- and nano-porosity of the active Alpine Fault zone, New Zealand" (2020) (0)
- Magnetic insights on seismogenic processes from scientific drilling of fault (2017) (0)
- High-Resolution Active Source Seismic Investigation of the Alpine Fault at Gaunt Creek, central Westland, New Zealand (2012) (0)
- Extreme Hydrothermal Conditions Near an Active Geological Fault, DFDP-2B Borehole, Alpine Fault, New Zealand (2015) (0)
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