Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Slow slip on the northern Hikurangi subduction interface, New Zealand
View through CrossRef
In October 2002, a surface displacement episode of 20-30 mm magnitude was observed over a ∼10 day period on two continuous Global Positioning System (GPS) instruments near Gisborne, North Island, New Zealand. We interpret this to result from slow slip on the northern Hikurangi subduction interface. Using ten years of regional campaign GPS (1995-2004) and recent continuous GPS data, we estimate the recurrence interval for similar events to be 2-3 yrs. In November 2004, a similar slow slip event occurred within this recurrence period. The 2002 event can be modeled by ∼18 cm of slow slip near the down-dip end of the seismogenic zone on the subduction interface offshore of Gisborne. The campaign GPS data show that the 2002 slow slip event had little effect on regional strain patterns. Copyright 2005 by the American Geophysical Union.
Title: Slow slip on the northern Hikurangi subduction interface, New Zealand
Description:
In October 2002, a surface displacement episode of 20-30 mm magnitude was observed over a ∼10 day period on two continuous Global Positioning System (GPS) instruments near Gisborne, North Island, New Zealand.
We interpret this to result from slow slip on the northern Hikurangi subduction interface.
Using ten years of regional campaign GPS (1995-2004) and recent continuous GPS data, we estimate the recurrence interval for similar events to be 2-3 yrs.
In November 2004, a similar slow slip event occurred within this recurrence period.
The 2002 event can be modeled by ∼18 cm of slow slip near the down-dip end of the seismogenic zone on the subduction interface offshore of Gisborne.
The campaign GPS data show that the 2002 slow slip event had little effect on regional strain patterns.
Copyright 2005 by the American Geophysical Union.
Related Results
Geodynamic modelling of continental subduction beneath oceanic lithosphere
Geodynamic modelling of continental subduction beneath oceanic lithosphere
Subduction of an oceanic plate beneath either an oceanic, or a continental, overriding plate requires two main conditions to occur in a steady state: i) a high enough subduction ra...
Slow slip on the northern Hikurangi subduction interface, New Zealand
Slow slip on the northern Hikurangi subduction interface, New Zealand
In October 2002, a surface displacement episode of 20-30 mm magnitude was observed over a ∼10 day period on two continuous Global Positioning System (GPS) instruments near Gisborne...
Effective Slip Lengths for Stokes Flow over Rough, Mixed-Slip Surfaces
Effective Slip Lengths for Stokes Flow over Rough, Mixed-Slip Surfaces
<p>In this thesis, homogenization and perturbation methods are used to derive analytic expressions for effective slip lengths for Stokes flow over rough, mixed-slip surfaces,...
Rock record constraints on the seismic signature of subduction interface shear zones
Rock record constraints on the seismic signature of subduction interface shear zones
<p>The low velocity layer (LVL) in modern subduction zones is a 3-5 km thick region that parallels the top of the downgoing slab and is characterized by anomalously h...
Strike slip motion and the triggering of subduction initiation
Strike slip motion and the triggering of subduction initiation
Plate tectonic reconstructions of three of the best-defined Cenozoic subduction initiation (SI) events in the western Pacific, Izu-Bonin-Mariana, Vanuatu, and Puysegur subduction z...
Finding governing PDEs of quasistatic fault slip and basal slip evolution from (synthetic) slip rate and shear traction data.
Finding governing PDEs of quasistatic fault slip and basal slip evolution from (synthetic) slip rate and shear traction data.
Mechanical models of slip development on geological faults and basal slip development in landslide or ice-sheets generally consider interfacial strength to be frictional and deform...
Journey of the Insular micro-continent through accretionary, collisional and translational regimes in the North American Cordillera since 170 Ma: a tomotectonic case study.
Journey of the Insular micro-continent through accretionary, collisional and translational regimes in the North American Cordillera since 170 Ma: a tomotectonic case study.
Tomotectonics hindcasts paleo-trenches, through the spatiotemporal superposition of subducted lithosphere (slabs imaged in the earth’s mantle) with plate reconstructions ...
The source scaling of swarm-genic slow slip events
The source scaling of swarm-genic slow slip events
<p>Slow slip events (SSEs) are slow fault ruptures that do not excite detectable seismic waves although they are often accompanied by some forms of seismic strain rel...