GNS
Science and University of Nevada-Reno scientists have found that the
southern part of the 800 kilometre-long fault which runs along
the western edge of the Southern Alps from Marlborough to Milford
Sound causes quakes of around magnitude 8 every 330 years on
average.
Dating leaves and seeds from a river terrace at Hokuri Creek
near Lake McKerrow in far northwestern Southland, just north of
Milford Sound, revealed 24 Alpine Fault quakes between 6000BC and the
present. Other research has found the most recent was in 1717,
meaning the next may be only 30 or 40 years away, based on averages.
Professor Richard Norris, from the geology department at Otago
University, said the Alpine Fault had the highest level of
probability for rupture of any fault in New Zealand. “Westland
obviously is at high risk, with widespread damage likely and roads,
bridges and other transport links likely to be badly affected (as
well as the tourist trade),” he said.
The fault crossed the main
West Coast road in many places, and with an estimated 8m displacement
would completely destroy it.
“Intensities further east in places
like Queenstown, Te Anau, Wanaka and Mt Cook will be high enough to
cause landslips and do damage,” Norris said. “Further east in the
major cities of Christchurch and Dunedin, the intensities will be
lower but the duration of shaking could still be sufficient to damage
poorly constructed buildings…and possibly cause some liquefaction.”
Places such as Nelson, Wellington and Invercargill could also expect
to feel some shaking. Project leader Kelvin Berryman of GNS Science
said “a major earthquake in the near future would not be a
surprise.
Equally it could be up to 100 years away. The bottom line
is, if not in our lifetimes then increasingly likely in our
children’s or our grandchildren’s.”
The study’s findings,
published today in the journal Science,
were new and internationally significant, Berryman said. Auckland
University biostatics professor Thomas Lumley said the intervals
between quakes on the Alpine Fault tended to be quite close to the
average interval, with relatively little spread.
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