T31D-03
Long-term and Short-term Vertical Deformation Rates across the Forearc in the Central Mexican Subduction Zone

Wednesday, 16 December 2015: 08:30
306 (Moscone South)
M. Teresa Ramirez-Herrera1,2, Krzysztof Gaidzik1, Steven L Forman3, Vlamidir Kostoglodov4 and Roland Burgmann5, (1)Universidad Nacional Autónoma de Mexico, Instituto de Geografía, D.F., Mexico, (2)University of California Berkeley, Berkeley Seismological Laboratory, Berkeley, CA, United States, (3)Univ Illinois Chicago, Chicago, IL, United States, (4)Universidad Nacional Autonoma de Mexico, Instituto de Geofisica, Mexico City, Mexico, (5)University of California Berkeley, Berkeley, CA, United States
Abstract:
Spatial scales of the earthquake cycle, from rapid deformation associated with earthquake rupture to slow deformation associated with interseismic and transient slow-slip behavior, span from fractions of a meter to thousands of kilometers (plate boundaries). Similarly, temporal scales range from seconds during an earthquake rupture to thousands of years of strain accumulation between earthquakes. The complexity of the multiple physical processes operating over this vast range of scales and the limited coverage of observations leads most scientists to focus on a narrow space-time window to isolate just one or a few process. We discuss here preliminary results on the vertical crustal deformation associated with both slow and rapid crustal deformation along a profile across the forearc region of the central Mexican subduction zone on the Guerrero sector, where the Cocos plate underthrusts the North American plate. This sector of the subduction zone is characterized by a particular slab geometry (with zones of rapid bending-unbending of the slab), irregular distributed seismicity, exceptionally large slow slip events (SSE) and non-volcanic tremors (NVT). We used the river network and geomorphic features of the Papagayo River to assess Quaternary crustal deformation. The Papagayo drainage network is strongly controlled by Late Cenozoic tectonic, Holocene and recent earthquake cycle processes. This is particularly true for the southern section of the drainage basin; from the dam in La Venta to the river mouth, where W-E structures commonly offset the course of the main river. River terraces occur along the course of the river at different elevations. We measured the height of a series of terraces and obtained OSL ages on quartz extracts to determine long-term rates of deformation. Finally, we discuss associations of the topography and river characteristics with the Cocos slab geometry, slow earthquakes, crustal deformation, and interseismic deformation.