Otago fault system
The Otago fault system contains multiple faults with the potential to have rupture events greater than in magnitude. These are parallel to, and to the east of the Alpine Fault in the south eastern part of the South Island of New Zealand. It accommodates about /year of contraction.
Geography
East of the Southern Alps, Central Otago has a number of parallel, northeast trending ranges separating broad, flat-bottomed valleys which extend to the coast of Otago. These ranges are associated with the main reverse faults of the system. Near the Southern Alps the faults with this north-east trend continue through Lindis Pass into South Canterbury and so the Dalrachney/Lindis Pass Fault and the Ostler Fault Zone in South Canterbury are geologically related to the Otago fault system. Otago, towards the coast, is separated from South Canterbury by the Waitaki River and the south western aspect of this river valley is defined by mainly normal north-northwest striking faults such as the Hawkdun Fault, and Waihemo fault zone. The south eastern part of the zone is limited by Fiordland and the Hillfoot Fault in Southland which is a reverse fault on the Otago side of the Hokonui Hills and The Catlins. Just off the coast from Dunedin towards the south are several active northeast-trending faults of the system.Geology
Tectonics
The boundary between the Australian and Pacific plates passes through the west of the South Island of New Zealand, as the very active by world standards, Alpine Fault. While this takes up a major part of the movement across these plate boundaries, a fifth of the currently /year compression element is taken up by the Otago fault system in mainly the Permian ophiolite belt and Otago schists in the Otago range and basin province. This Otago peneplain lies between the Southland Syncline and the Canterbury Plains. The consequence appears to be long periods of inactivity on individual reverse faults, perhaps 100,000 years and then multiple release events over a few thousand years before moving on to another fault system. Such episodic earthquake activity is thought to be the result of strain sharing between faults within the system. There is now good evidence for this.Activity
The most recent active faults moving from the north east towards the south are the Ostler Fault Zone and Lewis Pass faults, although these are mainly in Canterbury, the NW Cardrona Fault and Akatore Fault are the most recently active. The expectation over the whole fault system is a rupture every 100 to 200 years of an earthquake between magnitude 6.5 to 7. Because of the good evidence that some of the faults in the system can have large periods of quiescence, the information that follows should be supplemented by drill down on the map on this page or referral to original references as not all faults that may be significant can be mentioned.| Name | Surface length | Maximum Slip rate | Reoccurrence | Notes |
| Akatore Fault | /year | 1700 years | ||
| Dunstan Fault Zone | /year | 7000 years | ||
| Gimmerburn Fault Zone | /year | 7400 years | ||
| Highland Fault | /year | 6500 years | ||
| Lindis Pass Fault Zone | /year | 5600 years | ||
| Livingstone Fault | /year | 6400 years | ||
| Long Valley Fault | /year | 7900 years | ||
| Motatapu Fault | /year | 6500 years | ||
| Nevis Fault Zone | /year | 9000 years | ||
| NW Cardrona Fault | /year | 5500 years | ||
| Settlement Fault | /year | 1800 years | ||
| Timaru Creek Fault | /year | 6100 years |