Data Show How Powerful Quake Shifted Parts of New Zealand

New data shows that parts of New Zealand’s South Island moved several meters closer to the North Island during last November’s 7.8 magnitude earthquake.

The data, including satellite radar imagery, shows that parts of New Zealand’s South Island have shifted more than 5 meters closer to the North Island, and that some areas were raised by up to 8 meters.

 

Other information has come from observations on the ground and the analysis of coastal regions by GNS science, a New Zealand government research agency.

The tremor, near the tourist town of Kaikoura, ruptured a swath of land almost 200 kilometers long.

Research coming out

GNS has published the first of 10 papers on the powerful quake in mid-November 2016 in the international journal Science. Two people were killed when the magnitude 7.8 earthquake struck and Kaikoura was cut off by landslides.

 

Ian Hamling is the lead author of the research paper. He says the shifting of the earth in New Zealand occurred when powerful seismic forces pulled the ground in different directions.

“It is kind of like a shearing, so I guess the classic people always think of is a San Andreas-style fault, where you get the two sides of the fault zone move in opposite directions,” Hamling said. “And so that is what we see, is that parts of inland Kaikoura up to Cape Campbell have gone to the northeast and then in some areas to the south of that have gone in the opposite direction.”

The earthquake struck last November northeast of the city of Christchurch. It was felt in the New Zealand capital, Wellington, on the North Island, 200 kilometers away.

Shaky Isles

 

Christchurch is still recovering from a devastating 2011 earthquake that killed 185 people and destroyed the city center.

 

New Zealand is known as the Shaky Isles. The South Pacific nation lies on the unpredictable Ring of Fire that circles almost the entire Pacific rim.

 

Each year more than 15,000 earthquakes are recorded in New Zealand, but only about 150 are large enough to be felt.

 

The research paper, led by GNS, included the work of 29 co-authors from 11 national and international institutes such as the NASA laboratory in California and the University of Leeds in Britain.

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