Deep shear wave velocity (Vs) profiles (>400 m) were developed at 14 sites throughout Christchurch, New Zealand using surface wave methods. This paper focuses on the inversion of surface wave data collected at one of these sites, Hagley Park. This site is located on the deep soils of the Canterbury Plains, which consist of alluvial gravels inter-bedded with estuarine and marine sands, silts, clays and peats. Consequently, significant velocity contrasts exist at the interface between geologic formations. In order to develop realistic velocity models in this complex geologic environment, a-priori geotechnical and geologic data were used to identify the boundaries between geologic formations. This information aided in developing the layering for the inversion parameters. Moreover, empirical reference Vs profiles based on material type and confining pressure were used to develop realistic Vs ranges for each layer. Both the a-priori layering information and the reference Vs curves proved to be instrumental in generating realistic velocity models that account for the complex inter-bedded geology in the Canterbury Plains.
This paper presents an overview of the soil profile characteristics at strong motion station (SMS) locations in the Christchurch Central Business District (CBD) based on recently completed geotechnical site investigations. Given the variability of Christchurch soils, detailed investigations were needed in close vicinity to each SMS. In this regard, CPT, SPT and borehole data, and shear wave velocity (Vs) profiles from surface wave dispersion data in close vicinity to the SMSs have been used to develop detailed representative soil profiles at each site and to determine site classes according to the New Zealand standard NZS1170.5. A disparity between the NZS1170.5 site classes based on Vs and SPT N60 investigation techniques is highlighted, and additional studies are needed to harmonize site classification based on these techniques. The short period mode of vibration of soft deposits above gravels, which are found throughout Christchurch, are compared to the long period mode of vibration of the entire soil profile to bedrock. These two distinct modes of vibration require further investigation to determine their impact on the site response. According to current American and European approaches to seismic site classification, all SMSs were classified as problematic soil sites due to the presence of liquefiable strata, soils which are not directly accounted for by the NZS1170.5 approach.
This paper provides a brief discussion of observed strong ground motions from the 14 November 2016 Mw7.8 Kaikoura earthquake. Specific attention is given to examining observations in the near-source region where several ground motions exceeding 1.0g horizontal are recorded, as well as up to 2.7g in the vertical direction at one location. Ground motion response spectra in the near-source, North Canterbury, Marlborough and Wellington regions are also examined and compared with design levels. Observed spectral amplitudes are also compared with predictions from empirical and physics-based ground motion modelling.
Pumice materials, which are problematic from an engineering viewpoint, are widespread in the central part of the North Island. Considering the impacts of the 2010-2011 Christchurch earthquakes, a clear understanding of their properties under earthquake loading is necessary. For example, the 1987 Edgecumbe earthquake showed evidence of localised liquefaction of sands of volcanic origin. To elucidate on this, research was undertaken to investigate whether existing empirical field-based methods to evaluate the liquefaction potential of sands, which were originally developed for hard-grained soils, are applicable to crushable pumice-rich deposits. For this purpose, two sites, one in Whakatane and another in Edgecumbe, were selected where the occurrence of liquefaction was reported following the Edgecumbe earthquake. Manifestations of soil liquefaction, such as sand boils and ejected materials, have been reported at both sites. Field tests, including cone penetration tests (CPT), shear-wave velocity profiling, and screw driving sounding (SDS) tests were performed at the sites. Then, considering estimated peak ground accelerations (PGAs) at the sites based on recorded motions and possible range of ground water table locations, liquefaction analysis was conducted at the sites using available empirical approaches. To clarify the results of the analysis, undisturbed soil samples were obtained at both sites to investigate the laboratory-derived cyclic resistance ratios and to compare with the field-estimated values. Research results clearly showed that these pumice-rich soils do not fit existing liquefaction assessment frameworks and alternate methods are necessary to characterise them.
Nel presente articolo si illustra una procedura per il processamento automatizzato di prove CPT, il calcolo di vari indici di liquefazione e la rappresentazione dei dati su mappa. La procedura è applicata al caso studio del terremoto di Christchurch, Nuova Zelanda, del 22 febbraio 2011 (magnitudo momento, Mw = 6.2). Dall’analisi spaziale dei risultati emerge una buona correlazione tra le mappe ottenute per l’indicatore degli effetti al suolo e i danni osservati (su terreni e strutture). Tuttavia, per confermare la validità di tale procedura, sarà necessario esaminare ulteriori casi studio nel mondo.
Emergency management personnel outside the Christchurch Art Gallery. The Art Gallery was used as the headquarters for Civil Defence after the 22 February 2011 earthquake.
Emergency management personnel carrying supplies outside the Christchurch Art Gallery. They Art Gallery served as the headquarters for Civil Defence after the 22 February 2011 earthquake.
Emergency Management personnel outside the Christchurch Art Gallery. The Art Gallery was used as the headquarters for Civil Defence after the 22 February 2011 earthquake.
Mayor Bob Parker and members of Civil Defence at their temporary headquarters in the Christchurch Art Gallery after the 22 February 2011 earthquake.
Emergency Management personnel outside the Christchurch Art Gallery. The Art Gallery was used as the headquarters for Civil Defence after the 22 February 2011 earthquake.
A paper for the SCIRT Board which requests that the Board provide support to SCIRT's Training Team with assisting to develop a civil trade qualification.
A presentation for the SCIRT Board which outlines the process that SCIRT's Training Team intended to take towards assisting with developing a civil trade qualification.
A photograph of a table in Cowles Stadium, full of books, clothes and toys for refugees from the 4 September earthquake.
A photograph of a table in Cowles Stadium, full of books, clothes and toys for refugees from the 4 September earthquake.
Emergency management personnel outside the Christchurch Art Gallery. The Art Gallery was used as the headquarters for Civil Defence after the 22 February 2011 earthquake.
Mayor Bob Parker and members of Civil Defence at their temporary headquarters in the Christchurch Art Gallery after the 22 February 2011 earthquake.
An award application for the Civil Contractors New Zealand 2015 awards. SCIRT was a finalist in the "Connexis Company Training and Development Award - Large Company" category.
An infographic giving contact details where Civil Defence information can be obtained.
Civil Defence and Department of Conservation command units parked in Cranmer Square.
John Carter, Minister for Civil Defence gives reporters in Wellington a briefing.
Photograph captioned by Fairfax, "Civil Defence Centre has now moved from the Christchurch Art Gallery to the new civil offices in Hereford Street. Invercargill Mayor Tim Shadbolt has been working on the phones for the last two days".
Photograph captioned by Fairfax, "Civil Defence centre has now moved from the Christchurch Art Gallery to the new civil offices in Hereford Street. Invercargill mayor Tim Shadbolt has been working on the phones for the last two days".
Members of Civil Defence conferring at their temporary headquarters in the Christchurch Art Gallery after the 22 February 2011 earthquake. To the left is Mayor Bob Parker.
A photograph of an office in the Department of Civil and Natural Resources Engineering at the University of Canterbury after the 4 September 2010 earthquake.
A photograph of an office in the Department of Civil and Natural Resources Engineering at the University of Canterbury after the 4 September 2010 earthquake.
A photograph of an office in the Department of Civil and Natural Resources Engineering at the University of Canterbury after the 4 September 2010 earthquake.
A photograph of an office in the Department of Civil and Natural Resources Engineering at the University of Canterbury after the 4 September 2010 earthquake.
A photograph of an office in the Department of Civil and Natural Resources Engineering at the University of Canterbury after the 4 September 2010 earthquake.
A photograph of an office in the Department of Civil and Natural Resources Engineering at the University of Canterbury after the 4 September 2010 earthquake.