Isotopic evidence (3He/4He, of fluid‐triggered intraplate seismicity

[1] The aim of this study is to find a link between the occurrence of mantle-derived CO2 exhalations and earthquake swarms beneath the western Eger rift, central Europe. We monitored the gas and isotope composition of the free gas of the Eisenquelle mineral spring and the Bublak mofette weekly for 2 years. These time series include periods before, during, and after an earthquake swarm event. Shifts in δ13C and 3He/4He were found for several months after the occurrence of the earthquake swarm on 4 and 5 December 1994. The isotopic shifts were explained by the admixture of crustal fluids released at the hypocenter to the “permanent” mantle volatile flux. From the beginning of the earthquake swarm, as starting point for the gas release from the hypocenter and the moment of arriving fluid with changed isotopic signature at the locations, we estimated that the fluid transport velocity in the upper crust ranges between 400 m/day near a center of CO2 emanation (Bublak mofette) and 50 m/day in the periphery (Eisenquelle mineral spring). Fault rupture induced by the buildup of fluid overpressure in the brittle crust (associated with sealing processes surrounding the ascending channels of the permanent mantle flux) seems to be the main reason for periodic/episodic earthquake swarm activity in this area.

[1]  A. Špičák,et al.  Possible role of fluids in the process of earthquake swarm generation in the West Bohemia/Vogtland seismoactive region , 2001 .

[2]  H. Wakita,et al.  Precursory Chemical Changes in Ground Water: Kobe Earthquake, Japan , 1995, Science.

[3]  R. Sugisaki Behavior and origin of helium, neon, argon, and nitrogen from active faults , 1987 .

[4]  H. Wakita,et al.  3He/4He ratio anomalies associated with the 1984 Western Nagano Earthquake: Possibly induced by a diapiric magma , 1986 .

[5]  Kampf,et al.  Gas flux distribution in mineral springs and tectonic structure in the western Eger Rift , 1998 .

[6]  T. Gold,et al.  Fluid ascent through the solid lithosphere and its relation to earthquakes , 1984 .

[7]  D. Hilton THE HELIUM AND CARBON ISOTOPE SYSTEMATICS OF A CONTINENTAL GEOTHERMAL SYSTEM : RESULTS FROM MONITORING STUDIES AT LONG VALLEY CALDERA (CALIFORNIA, U.S .A.) , 1996 .

[8]  H. Behr Subfluenz-Prozesse im Grundgebirgs-Stockwerk Mitteleuropas , 1978 .

[9]  R. Bailey Fluid trapping in mid-crustal reservoirs by H2O–CO2 mixtures , 1994, Nature.

[10]  W. Kessels,et al.  Paleofluids and recent fluids in the upper continental crust: results from the German Continental Deep Drilling Program (KTB) , 1997 .

[11]  J. Toutain,et al.  Gas geochemistry and seismotectonics: a review , 1999 .

[12]  K. Bräuer,et al.  Transport of mantle volatiles through the crust traced by seismically released fluids: a natural experiment in the earthquake swarm area Vogtland/NW Bohemia, Central Europe , 2001 .

[13]  Johnston,et al.  Dilational processes accompanying earthquakes in the long valley caldera , 2000, Science.

[14]  William C. Evans,et al.  Carbon dioxide and helium emissions from a reservoir of magmatic gas beneath Mammoth Mountain, California , 1998 .

[15]  K. Bräuer,et al.  An active subcontinental mantle volatile system in the western Eger rift, Central Europe: Gas flux, isotopic (He, C, and N) and compositional fingerprints , 1999 .

[16]  T. Yamashita Pore Creation due to Fault Slip in a Fluid-permeated Fault Zone and its Effect on Seismicity: Generation Mechanism of Earthquake Swarm , 1999 .

[17]  Hans-Peter Harjes,et al.  Injection-induced earthquakes and crustal stress at 9 km depth at the KTB deep drilling site, Germany , 1997 .

[18]  P. Johnson,et al.  Parkfield seismicity: Fluid-driven? , 1995 .

[19]  V. Vavryčuk Non-double-couple earthquakes of 1997 January in West Bohemia, Czech Republic: evidence of tensile faulting , 2002 .

[20]  J. Webster,et al.  Strong tin enrichment in a pegmatite-forming melt , 2000 .

[21]  G. Martinelli,et al.  CO2 and radon measurements in the Vogtland Area (Germany) ‐ A contribution to earthquake prediction research , 1995 .

[22]  J. Byerlee,et al.  Model for episodic flow of high-pressure water in fault zones before earthquakes , 1993 .

[23]  B. Marty,et al.  Origin of carbon in fumarolic gas from island arcs , 1995 .

[24]  G. Wagner,et al.  Alpha-recoil track dating of Quaternary volcanics , 2000 .

[25]  H. Berckhemer,et al.  Seismic observations at an overstep of the western North Anatolian Fault (Abant–Sapanca region, Turkey) , 1997 .

[26]  D. Uličný,et al.  Tectonosedimentary Evolution of the Cheb Basin (NW Bohemia, Czech Republic) between Late Oligocene and Pliocene: A Preliminary Note , 2001 .

[27]  D. Wilbur,et al.  CARBON ISOTOPE FRACTIONATION DURING GAS-WATER EXCHANGE AND DISSOLUTION OF CO2 , 1995 .

[28]  T. Dahm,et al.  Comparison of Absolute and Relative Moment Tensor Solutions For The January 1997 West Bohemia Earthquake Swarm , 2000 .

[29]  I. Gnojek,et al.  Geophysical Field Pattern in The West Bohemian Geodynamic Active Area , 2000 .

[30]  W. Evans,et al.  Mantle fluids in the San Andreas fault system , 1997 .

[31]  A. Kontny,et al.  Formation of ore minerals in metamorphic rocks of the German continental deep drilling site (KTB) , 1997 .

[32]  H. Wakita,et al.  High 3He emanation and seismic swarms observed in a nonvolcanic, forearc region , 1987 .

[33]  J. Rice,et al.  Pore pressure and poroelasticity effects in Coulomb stress analysis of earthquake interactions , 2002 .

[34]  L. Hecht,et al.  Constraints on the origin of zonation of the granite complexes in the Fichtelgebirge (Germany and Czech Republic): evidence from a gravity and geochemical study , 1997 .

[35]  D. Brookins Book Review: Helium isotopes in nature. Developments in geochemistry, 3. by B.A. Mamyrin and I.N. Tolstikhin, Elsevier, Amsterdam, 1984. xiv + 273 pp. Price: U.S. $53.75 (U.S.A. and Canada)/Dfl. 140.00 (rest of world). Hardback. , 1985 .

[36]  H. Wakita,et al.  Secular variations of carbon and helium isotopes at Izu-Oshima Volcano, Japan , 1995 .

[37]  Václav Vavryčuk,et al.  Inversion for parameters of tensile earthquakes , 2001 .

[38]  N. Sturchio,et al.  Helium degassing related to the Kobe earthquake , 1998 .