{"id":164,"date":"2014-01-06T14:49:48","date_gmt":"2014-01-06T19:49:48","guid":{"rendered":"http:\/\/all-geo.org\/chris_rowan\/?p=164"},"modified":"2014-01-27T11:20:48","modified_gmt":"2014-01-27T16:20:48","slug":"agu-2013-presentation-more-than-slab-pull-driving-the-east-pacific-rise","status":"publish","type":"post","link":"https:\/\/all-geo.org\/chris_rowan\/2014\/01\/agu-2013-presentation-more-than-slab-pull-driving-the-east-pacific-rise\/","title":{"rendered":"AGU 2013 Presentation: more than slab pull driving the East Pacific Rise?"},"content":{"rendered":"

My visit to San Francisco for the American Geophysical Union Fall Meeting<\/a> was somewhat truncated this year, but I had a stimulating couple of days catching up and talking shop with many friend and colleagues from around the world. I also gave a presentation of new work that follows on from my post-doctoral research under the guidance of David Rowley at the University of Chicago, looking at the evolution of the East Pacific Rise, the world’s fastest spreading oceanic ridge system. Certain aspects of the behaviour of the EPR over the last few tens of millions of years are hard to explain in terms of pull from distant subducting lithospheric slabs, which is generally regarded as the dominant control on the motion of the Earth’s tectonic plates. A copy of the presentation – in PDF form, so missing a few of the animated bells and whistles of the actual presentation – is embedded below.<\/p>\n

Signals of dynamic coupling between mantle and lithosphere beneath the axis of the East Pacific Rise – AGU 2013<\/a> <\/strong> from allochthonous<\/a><\/strong> <\/div>\n