oct
12

Conférence - Dr. Christie Rowe

Titre: How Earthwuakes are Preserved in the Rock Record, and what the Rock Record can Teach us about Earthwuakes

Coût: Gratuit

Heure: 11h30

Endroit: 4118, pavillon Adrien Pouliot

Conférencier: Dr. Christie Rowe

Bonjour à tous,

Nous sommes heureux d'accueillir Dr. Christie Rowe, professeure à l'Université McGill, récipiendaire 2017 de la médaille W.W. Hutchison, dans le cadre de la tournée de conférences de l'Association Géologique du Canada.

La conférence aura lieu le jeudi 12 octobre 2017 de 11h30 à 12h30 au local PLT-4118, à l'Université Laval.

How Earthquakes are Preserved in the Rock Record, and what the Rock Record can Teach us about Earthquakes

DR. CHRISTIE ROWE

Earth & Planetary Sciences

McGill University

Abstract

Ancient faults preserve evidence of past earthquake cycles, including rupture, aseismic creep, and interseismic healing, but our ability to read that record is incomplete. There are two key features that distinguish earthquake slip from other fault motion that have the potential to be preserved in rocks. First: the slip velocity is high enough that that frictional heat can be produced faster than heat can diffuse away, resulting in temperature rise. This temperature rise can cause clay dehydration, rapid maturation of organic compounds, and even melt rock to produce pseudotachylyte. By recognizing and analyzing these and other seismic rocks, we can estimate coseismic peak temperatures between ~ 250° up to >1400°C. Second: seismic slip is dynamic, that is, the slipping area grows quickly (~ 3 km/s) and its growth is driven by inertia from the rapid slip. This dynamic propagation results in extreme stress gradients in the wall rock, which forms distinctive patterns of closely spaced fractures and sometimes wall rock pulverization.

Once we understand the range and variety of earthquake 'fingerprints' we can find in the rock record, we can use these to understand the mechanics of earthquakes. I will show an example of a research project executed by an undergrad-grad advanced structure class studying pseudotachylytes in Norumbega Shear Zone in Maine. The class made extremely detailed maps of pseudotachylyte networks and developed criteria to determine whether pseudotachylyte veins formed singly during individual earthquakes or formed at the same time representing networks of faults that slipped simultaneously. Spoiler alert: We found networks of faults for each (paleo-) earthquake. Outcrop studies like ours help to understand how slip is distributed across connected networks of faults, and the geometry of networks that are likely to be triggered in simultaneous slip. These observations might be scaled up to elucidate the behaviors of plate boundary fault networks.

Au plaisir de vous y voir,

Carl

____________________________________________

Carl Guilmette, B.Eng. PhD.

Professeur Adjoint

Chaire de Leadership en Enseignement Virginia-Gaumond

Département de Géologie et Génie Géologique

Université Laval

1-418-656-2131 poste 3137

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