Search

found 4 results

Articles, Christchurch uncovered

Recording standing structures not only involves architectural drawings and photography, but can also be quite destructive. In an attempt to modernise an old house owners will often cover “old fashioned” features with new materials, plasterboard being the chief culprit. So, … Continue readin...

Articles, Christchurch uncovered

When we are recording a standing structure we might be lucky enough to discover wallpaper hidden behind plasterboard or tucked under skirtings. In some houses we can find layers of wallpaper, each revealing a stylistic period. While many of the … Continue reading →

Articles, Christchurch uncovered

As another year comes to an end, we present you with a selection of our favourite sites, discoveries and archaeology moments from 2014. It’s been a good year. We did a lot of digging…. …and recording. We found some cool … Continue reading →

Research papers, University of Canterbury Library

This presentation discusses recent empirical ground motion modelling efforts in New Zealand. Firstly, the active shallow crustal and subduction interface and slab ground motion prediction equations (GMPEs) which are employed in the 2010 update of the national seismic hazard model (NSHM) are discussed. Other NZ-specific GMPEs developed, but not incorporated in the 2010 update are then discussed, in particular, the active shallow crustal model of Bradley (2010). A brief comparison of the NZ-specific GMPEs with the near-source ground motions recorded in the Canterbury earthquakes is then presented, given that these recordings collectively provide a significant increase in observed strong motions in the NZ catalogue. The ground motion prediction expert elicitation process that was undertaken following the Canterbury earthquakes for active shallow crustal earthquakes is then discussed. Finally, ongoing GMPE-related activities are discussed including: ground motion and metadata database refinement, improved site characterization of strong motion station, and predictions for subduction zone earthquakes.