V43B-3132
Storage of fluids and melts at subduction zones detectable by seismic tomography

Thursday, 17 December 2015
Poster Hall (Moscone South)
Birger-G Luehr, Helmholtz Centre Potsdam GFZ German Research Centre for Geosciences, Potsdam, Germany, Ivan Koulakov, IPGG SB RAS, Novosibirsk, Russia, Wolfgang Rabbel, University of Kiel, Kiel, Germany, Kirbani Sri Brotopuspito, Universitas Gadjah Mada, FMIPA, Sekip Unit III,, Yogyakarta, Indonesia and Surono Surono, Badan Geologi ESDM, Bandung, Indonesia
Abstract:
During the last decades investigations at active continental margins discovered the link between the subduction of fluid saturated oceanic plates and the process of ascent of these fluids and partial melts forming a magmatic system that leads to volcanism at the earth surface. For this purpose the geophysical structure of the mantle and crustal range above the down going slap has been imaged. Information is required about the slap, the ascent paths, as well as the reservoires of fluids and partial melts in the mantle and the crust up to the volcanoes at the surface. Statistically the distance between the volcanoes of volcanic arcs down to their Wadati Benioff zone results of approximately 100 kilometers in mean value. Surprisingly, this depth range shows pronounced seismicity at most of all subduction zones. Additionally, mineralogical laboratory investigations have shown that dehydration of the diving plate has a maximum at temperature and pressure conditions we find at around 100 km depth. The ascent of the fluids and the appearance of partial melts as well as the distribution of these materials in the crust can be resolved by seismic tomographic methods using records of local natural seismicity. With these methods these areas are corresponding to lowered seismic velocities, high Vp/Vs ratios, as well as increased attenuation of seismic shear waves. The anomalies and their time dependence are controlled by the fluids. The seismic velocity anomalies detected so far are within a range of a few per cent to more than 30% reduction. But, to explore plate boundaries large and complex amphibious experiments are required, in which active and passive seismic investigations should be combined to achieve best results. The seismic station distribution should cover an area from before the trench up to far behind the volcanic chain, to provide under favorable conditions information down to 150 km depth. Findings of different subduction zones will be compared and discussed.