A photograph of UC Geology students inspecting liquefaction on Corhampton Street in Aranui.
A photograph of UC Geology students inspecting liquefaction on Corhampton Street in Aranui.
A photograph of a UC Geology student inspecting liquefaction on Harris Crescent in Papanui.
A photograph of a UC Geology student inspecting liquefaction on Corhampton Street in Aranui.
A photograph of University of Canterbury Geology students surveying land on the Greendale fault line.
The magnitude 7.1 Christchurch earthquake broke off an enormous chunk of Castle Rock in the Port Hills which has tumbled down towards the Lyttelton tunnel. View from Morgan's Valley (-43.578037° 172.714828°).
A photograph of liquefaction near Anzac Drive in Bexley. UC Geology students are out collecting data.
A photograph of a UC Geology student inspecting damage to the club rooms at Bexley Park.
A photograph of a UC Geology student measuring a crack around a lamp post in Bexley Park.
A photograph of liquefaction near Anzac Drive in Bexley. UC Geology student Dan Hills is out collecting data.
A photograph of a liquefaction sample taken by a UC Geology student from a residential property in Bexley.
PDF slides from a presentation given by Dr. Thomas Wilson from the UC Geology department on 27 October 2010.
A photograph of UC Geology student Dan Hills inspecting liquefaction in a reserve between Harris Crescent and Greers Road.
A photograph of UC Geology student Dan Hills inspecting liquefaction in a reserve between Harris Crescent and Greers Road.
A photograph of UC Geology students inspecting cracks and liquefaction at a BMX track near Anzac Drive in Bexley.
A photograph of a UC Geology student collecting a liquefaction sample from a BMX track near Anzac Drive in Bexley.
A photograph of a UC Geology student collecting a liquefaction sample from a BMX track near Anzac Drive in Bexley.
A photograph of UC Geology students inspecting liquefaction and surface flooding around a lamp post near Anzac Drive in Bexley.
PDF slides from a presentation given by Dr. Thomas Wilson from the UC Geology department at the 2010 Canterbury Earthquake Recovery Forum.
A photograph of University of Canterbury Geology staff and students using ground penetrating radar (GPR) to survey land on the Greendale fault line.
A photograph of University of Canterbury Geology student Matt Cockcroft using ground penetrating radar (GPR) to survey land on the Greendale fault line.
A photograph of University of Canterbury Geology staff and students using ground penetrating radar (GPR) to survey land on the Greendale fault line.
A photograph of University of Canterbury Geology student Matt Cockcroft using ground penetrating radar (GPR) to survey land on the Greendale fault line.
Among the deformation features produced in Christchurch by the September 4th Darfield Earthquake were numerous and widespread “sand volcanoes”. Most of these structures occurred in urban settings and “erupted” through a hardened surface of concrete or tarseal, or soil. Sand volcanoes were also widespread in the Avon‐ Heathcote Estuary and offered an excellent opportunity to readily examine shallow subsurface profiles and as such the potential appearance of such structures in the rock record.
On 4 September 2010, a magnitude Mw 7.1 earthquake struck the Canterbury region on the South Island of New Zealand. The epicentre of the earthquake was located in the Darfield area about 40 km west of the city of Christchurch. Extensive damage was inflicted to lifelines and residential houses due to widespread liquefaction and lateral spreading in areas close to major streams, rivers and wetlands throughout Christchurch and Kaiapoi. Unreinforced masonry buildings also suffered extensive damage throughout the region. Despite the severe damage to infrastructure and residential houses, fortunately, no deaths occurred and only two injuries were reported in this earthquake. From an engineering viewpoint, one may argue that the most significant aspects of the 2010 Darfield Earthquake were geotechnical in nature, with liquefaction and lateral spreading being the principal culprits for the inflicted damage. Following the earthquake, an intensive geotechnical reconnaissance was conducted to capture evidence and perishable data from this event. This paper summarizes the observations and preliminary findings from this early reconnaissance work.
A photograph of major damage to a road in Darfield. UC geology student Dan Hills is standing in the crack to illustrate how deep it is.
A photograph of major damage to a road in Darfield. UC geology student Dan Hills is standing in the crack to illustrate how deep it is.
A photograph of University of Canterbury Geology students Zach Whitman and Dewiyani Bealing using ground penetrating radar equipment to survey land on the Greendale fault line.
A photograph of University of Canterbury Geology staff and students using a dynamic cone penetrometer to measure soil strength of a paddock on the Greendale fault line.
PDF slides of a presentation given by Dr. Thomas Wilson from the UC Geology department in November 2010. The presentation was delivered at a GeoNZ conference in Auckland.