Thanks for the links Jim, I will read with interest. Been a long day.
From: "Jim Saklad jimdoc@icloud.com [iPad]" <iPad@yahoogroups.com>
To: iPad@yahoogroups.com
Sent: Monday, 14 November 2016 8:13 AM
Subject: Re: [iPad] NZ Earthquake
> As you have an interest in earthquakes, I thought I might update from here. The quake for us in Christchurch felt like a 5, but surprisingly it went on for about a minute. No big jolts, just rolling and shaking. To hear it was large, about 130km north from here that explains it. Wellington CBD has been locked down, and while Welly is more then twice as far as from here, there have been large quakes in the north of the South Island, so that must be why they have had damage. Im not aware of any issues here, although all schools are closed for today (Monday) Its now 7-25am.
>
> You might be interested in more detail from stuff.co.nz and newshub.co.nz
I can get a lot from USGS.gov, more specifically
<http://earthquake.usgs.gov/earthquakes/eventpage/us1000778i#pager>
and
<http://earthquake.usgs.gov/earthquakes/eventpage/us1000778i#executive>
This last includes:
> Tectonic Summary
> The November 13, 2016 M 7.8 earthquake in North Canterbury, New Zealand, occurred as the result of shallow oblique-reverse faulting on or near the boundary between the Pacific and Australia plates in South Island, New Zealand. At the location of this earthquake, the Pacific plate moves to the west-southwest with respect to the Australia plate at a rate of approximately 40 mm/yr. The epicenter of the earthquake is about 30-45 km south-southeast of the main surface expression of the plate boundary in the region—the Hope Fault, part of the Marlborough Fault system that connects a subduction zone (the Hikurangi Trough) to the primary plate boundary in the South Island—the Alpine Fault. The plate boundary in the region of the earthquake is complex, involving a transition from subduction along the Hikurangi Trough to the east of the North Island, to transform faulting through the South Island. The shallow crustal region to the south of the Alpine and Hope faults is thought to involve mainly thin-skinned shortening and fold and thrust belt tectonics. The size, depth (~25 km) and faulting orientation of the November 13 event suggest a larger, subduction-related structure, though the subduction zone interface is not thought to extend this far to the south of the Alpine fault system. The complexity of the event, involving a main energy release delayed by about 40 s, combined with an early aftershock distribution extending about 150 km to the north-northeast of the mainshock, suggests the potential for triggered slip on the Pacific:Australia subduction zone interface.
>
> While commonly plotted as points on maps, earthquakes of this size are more appropriately described as slip over a larger fault area. Reverse-faulting events of the size of the November 13, 2016 earthquake are typically about 120x50 km (length x width). Within 2 hours of the M 7.8 mainshock, 9 aftershocks had occurred, ranging in size from M 4.9 to M 6.2 and extending from the region of the mainshock epicenter to about 150 km to the northeast.
>
> The Pacific-Australia plate boundary region in northern South Island has a history of large earthquakes both along the plate boundary proper and distributed around the plate boundary internal to the Australia and Pacific plates. The November 13th M 7.8 earthquake is the largest event in the region since an M 7.3 earthquake 100 km to the northwest in June 1929. That June 1929 earthquake occurred just 3 months after the March 1929 Arthur's Pass strike-slip earthquake, 90 km to the west-southwest of the November 13th event. The Arthur's Pass event caused damage but injured no one. The November 13, 2016 event is also about 100 km to the north of Christchurch, which was severely damaged by a series of large earthquakes in 2010-2015, including a M 7.0 to the west of Christchurch in September 2010, and a M 6.1 directly beneath the city in February 2011.
>
> Because of the complexity of this plate boundary region, strain is being accommodated on many different structures of varying orientations, making it possible that more than one fault may be activated in this earthquake sequence.
> Sadly there are casualties.
The quake sites estimate a "low likelihood" for casualties — fewer than 10, which is remarkably low for a 7.8 magnitude event — but any deaths can be tragic.
Also, a relatively small tsunami, 5-10 feet, along the east coast of South Island.
--
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Jim Saklad mailto:jimdoc@icloud.com
>
> You might be interested in more detail from stuff.co.nz and newshub.co.nz
I can get a lot from USGS.gov, more specifically
<http://earthquake.usgs.gov/earthquakes/eventpage/us1000778i#pager>
and
<http://earthquake.usgs.gov/earthquakes/eventpage/us1000778i#executive>
This last includes:
> Tectonic Summary
> The November 13, 2016 M 7.8 earthquake in North Canterbury, New Zealand, occurred as the result of shallow oblique-reverse faulting on or near the boundary between the Pacific and Australia plates in South Island, New Zealand. At the location of this earthquake, the Pacific plate moves to the west-southwest with respect to the Australia plate at a rate of approximately 40 mm/yr. The epicenter of the earthquake is about 30-45 km south-southeast of the main surface expression of the plate boundary in the region—the Hope Fault, part of the Marlborough Fault system that connects a subduction zone (the Hikurangi Trough) to the primary plate boundary in the South Island—the Alpine Fault. The plate boundary in the region of the earthquake is complex, involving a transition from subduction along the Hikurangi Trough to the east of the North Island, to transform faulting through the South Island. The shallow crustal region to the south of the Alpine and Hope faults is thought to involve mainly thin-skinned shortening and fold and thrust belt tectonics. The size, depth (~25 km) and faulting orientation of the November 13 event suggest a larger, subduction-related structure, though the subduction zone interface is not thought to extend this far to the south of the Alpine fault system. The complexity of the event, involving a main energy release delayed by about 40 s, combined with an early aftershock distribution extending about 150 km to the north-northeast of the mainshock, suggests the potential for triggered slip on the Pacific:Australia subduction zone interface.
>
> While commonly plotted as points on maps, earthquakes of this size are more appropriately described as slip over a larger fault area. Reverse-faulting events of the size of the November 13, 2016 earthquake are typically about 120x50 km (length x width). Within 2 hours of the M 7.8 mainshock, 9 aftershocks had occurred, ranging in size from M 4.9 to M 6.2 and extending from the region of the mainshock epicenter to about 150 km to the northeast.
>
> The Pacific-Australia plate boundary region in northern South Island has a history of large earthquakes both along the plate boundary proper and distributed around the plate boundary internal to the Australia and Pacific plates. The November 13th M 7.8 earthquake is the largest event in the region since an M 7.3 earthquake 100 km to the northwest in June 1929. That June 1929 earthquake occurred just 3 months after the March 1929 Arthur's Pass strike-slip earthquake, 90 km to the west-southwest of the November 13th event. The Arthur's Pass event caused damage but injured no one. The November 13, 2016 event is also about 100 km to the north of Christchurch, which was severely damaged by a series of large earthquakes in 2010-2015, including a M 7.0 to the west of Christchurch in September 2010, and a M 6.1 directly beneath the city in February 2011.
>
> Because of the complexity of this plate boundary region, strain is being accommodated on many different structures of varying orientations, making it possible that more than one fault may be activated in this earthquake sequence.
> Sadly there are casualties.
The quake sites estimate a "low likelihood" for casualties — fewer than 10, which is remarkably low for a 7.8 magnitude event — but any deaths can be tragic.
Also, a relatively small tsunami, 5-10 feet, along the east coast of South Island.
--
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Jim Saklad mailto:jimdoc@icloud.com
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