Spatio-temporal distribution of mass movements on Mount Maunganui, New Zealand
Marc-Andre Brideau, Zach Martin
In the proceedings of: GeoHazards 6: 6th Canadian Geohazards ConferenceSession: People and Property
ABSTRACT: Mount Maunganui is a rhyolite dome that stands 232 metres above sea level at the entrance of the Tauranga Harbour. In January 2011, Cyclone Wilma triggered several tens of landslides at this site. This study reviews the spatial distribution of the mass movement associated with the 2011 rainfall event and compares it to the landslide distribution since 1943. The limit equilibrium method was use to assess the slope stability conditions of a 2011 debris avalanche. The results demonstrate that slopes at Mount Maunganui are stable but that elevated pore pressure can lead to landsliding. The rock fall shadow angle of the furthest observed boulder was found to be 30-31° to the top of the initiation zone and 27-28° to the top of the talus. Using default restitution coefficients for “clean hard bedrock” and “soil with vegetation cover” materials, the software RocFall was able to capture the extent of the observed boulder field.
RÉSUMÉ: Le Mont Maunganui est un dôme de rhyolite à l'entrée du port de Tauranga qui s'élève à 232 mètres au-dessus du niveau de la mer. En janvier 2011, le Cyclone Wilma a causé plusieurs dizaines de glissements de terrain à cet endroit. Cette étude examine la distribution des glissements associés à l'événement de précipitations de 2011 et la compare à la distribution spatiale et temporelle des glissements de terrain depuis 1943. La méthode d'équilibre limite a été utilisée pour évaluer la condition de stabilité de pente pour une des ruptures de 2011. Les résultats démontrent que les pentes au Mont Maunganui sont stables mais que la pression interstitielle élevée d’eau peut initier des glissements de terrain. L'angle d'empreinte des blocaux le plus éloignée observée des éboulements rocheux se retrouve entre 30-31° lorsque mesuré du haut de la zone de départ et entre 27-28° lorsque mesuré du haut du talus. En utilisant les coefficients de restitution de défaut dans le logiciel RocFall pour les matériaux "socle dur sans débris" et "sol avec végétation", la modélisation numérique fut capable de capturer l'étendue du champ de blocaux observé.
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Brideau, Marc-Andre, Martin, Zach (2014) Spatio-temporal distribution of mass movements on Mount Maunganui, New Zealand in GeoHazards6. Ottawa, Ontario: Canadian Geotechnical Society.
@inproceedings{Brideau_GeoHazards6_104,
author = {{Brideau, Marc-Andre}, {Martin, Zach}}
title = {Spatio-temporal distribution of mass movements on Mount Maunganui, New Zealand }
booktitle = {Proceedings of the 6th Canadian Geohazards Conference}
year = {2014}
organization = {The Canadian Geotechnical Society},
address = {Ottawa, Canada} }
title = {Spatio-temporal distribution of mass movements on Mount Maunganui, New Zealand }
booktitle = {Proceedings of the 6th Canadian Geohazards Conference}
year = {2014}
organization = {The Canadian Geotechnical Society},
address = {Ottawa, Canada} }