Deep-sea borehole seismological observatories in the western Pacific: temporal variation of seismic noise level and event detection
Author(s)
Date Issued
March 20, 2006
Issue/vol(year)
2-3/49(2006)
Language
English
Abstract
Seismological networks provide critical data for better understanding the dynamics of the Earth; however, a great limitation on existing networks is the uneven distribution of stations. In order to achieve a more uniform distribution of seismic stations, observatories must be
constructed in marine areas. The best configuration for oceanic seismic observatories is thought to be placement of seismometers in deep boreholes. Two deep-sea borehole seismological observatories (WP-1 and WP-2) were constructed in the western Pacific and form the initial
installations of a 1000 km span network. At present, seismic records of more than 400 total days were retrieved from both the WP-1 and WP-2. Long-term variations in broadband seismic noise spectra (3mHz - 10 Hz) in the western Pacific were revealed from these records, and the data showed that ambient seismic noise levels in borehole observatories are comparable to those of the quietest land seismic stations. In addition, there is little temporal variation of noise levels in
periods greater than 10 seconds. Due to this low seismic noise environment, many teleseismic events with magnitudes greater than 5 were recorded. It is confirmed that seismic observation in deep-sea borehole gives the best environment for earthquake observation in marine areas.
constructed in marine areas. The best configuration for oceanic seismic observatories is thought to be placement of seismometers in deep boreholes. Two deep-sea borehole seismological observatories (WP-1 and WP-2) were constructed in the western Pacific and form the initial
installations of a 1000 km span network. At present, seismic records of more than 400 total days were retrieved from both the WP-1 and WP-2. Long-term variations in broadband seismic noise spectra (3mHz - 10 Hz) in the western Pacific were revealed from these records, and the data showed that ambient seismic noise levels in borehole observatories are comparable to those of the quietest land seismic stations. In addition, there is little temporal variation of noise levels in
periods greater than 10 seconds. Due to this low seismic noise environment, many teleseismic events with magnitudes greater than 5 were recorded. It is confirmed that seismic observation in deep-sea borehole gives the best environment for earthquake observation in marine areas.
References
ARAKI, E., M. SHINOHARA, I. S. SACKS, A. LINDE, T. KANAZAWA, H. SHIOBARA, H.
MIKADA and K. SUYEHIRO (2004): Improvement of seismic observation in the ocean
by use of seafloor boreholes, Bull. Seism. Soc. Am., 94, 678-690.
BEAUDUIN, R., and J. P. MONTAGNER (1996): Time evolution of broadband seismic noise
during the French pilot experiment OFM/SISMOBS, Geophys. Res. Lett., 23(21)
2995-2998.
COLLINS, J. A., F. L. VERNON, J. A. ORCUTT, R. A. STEPHEN, K. R. PEAL, F. B.
WOODING, F. N. SPIESS, and J. A. HILDBRAND (2001): Broadband Seismology in the
Oceans: Lessons from the Ocean Seismic Network Pilot Experiment, Geophys. Res. Lett.,
28(1), 49-52.
HASVOLD, Ø., HENRIKSEN, H., MELVÆR E., CITI, G., JOHENSEN, B. Ø., KJØNIGSEN,
T., GALETTI, R. (1997): Sea-water battery for subsea control systems. J. Power Sources,
65, 253-261.
ION/ODP INTERNATIONAL WORKSHOP (1995): Multidisciplinary observatories on the
deep seafloor, Marseille (France).
KANAZAWA, T., K. SUYEHIRO, N. HIRATA and M. SHINOHARA (1992): Performance of
the ocean broadband downhole seismometer at Site 794, Proceedings of the Ocean Drilling Program, Scientific Results, 127/128, pt2, 1157-1171.
KANAZAWA, T., W. W. SAGER, C. ESCUTIA, et al. (2001): Proc. ODP, Init. Repts., 191
[CD-ROM], 2001. Available from: Ocean Drilling Program, Texas A&M University,
College Station TX 77845-9547, USA.
MONTAGNER, J. P., J. F. KARCZEWSKI, B. ROMANOWICZ, S. BOUARICHA, P.
LOGNONNÉ, G. ROULT, E. STUTZMANN, J. L. THIROT, J. BRION, B. DOLE, D.
FOUASSIER, J. C. KOENIG, J. SAVARY, L. FLOURY, J. DUPOND, A. ECHARDOUR
and H. FLOC'H (1994): The French pilot experiment OFM-SISMOBS: first scientific
results on noise level and event detection, Physics of the Earth and Planetary Interiors, 84,
321-336.
PETERSON, J. (1993): Observations and modeling of seismic background noise, Open-File
Report93-322, U.S. Department of Interior Geological Survey.
ROMANOWICZ, B., D. STAKES, J. P. MONTAGNER, P. TARITS, R. UHRHAMMER, M.
BEGNAUD, E. STUTZMANN, M. PASYANOS, J. F. KARCZEWSKI, S.
ETCHEMENDY and D. NEUHAUSER (1998): MOISE: A pilot experiment towards long
term seafloor geophysical observatories, Earth Planets Space, 50, 927-937.
SACKS, I. S., K. SUYEHIRO, G. D. ACTON, et al. (2000): Proc. ODP, Init. Repts., 186
[CD-ROM]. Available from: Ocean Drilling Program, Texas A&M University, College
Station TX 77845-9547, USA.
SALISBURY, M.H., M. SHINOHARA, C. RICHTER, et al. (2002): Proc. ODP, Init. Repts.,
195 [CD-ROM]. Available from: Ocean Drilling Program, Texas A&M University,
College Station TX 77845-9547, USA.
STEPHEN, R. A., J. A. COLLINS and K. R. PEAL (1999): Seafloor Seismic Stations Perform
Well in Study, EOS Trans. AGU, 80, 592.
SUYEHIRO, K., T. KANAZAWA, N. HIRATA, M. SHINOHARA and H. KINOSHITA
(1992), Broadband downhole digital seismometer experiment at Site 794: A techinical paper, Proceedings of the Ocean Drilling Program, Scientific Results, 127/128, pt2,
1061-1073.
SUYEHIRO, K., E. ARAKI, M. SHINOHARA and T. KANAZAWA (2002): Deep sea
borehole observatories ready and capturing seismic waves in the western Pacific, Eos,
Transactions AGU, 83, 621, 624-625.
WEBB S.C. (1998): Broadband seismology and noise under the ocean, Reviews of Geophysics,
36, 105-142.
WESSEL, P. and W. H. F. SMITH (1998): New improved version of the Generic Mapping
Tools released, EOS Trans. AGU, 79, 579.
WILCOCK, W. S. D., S. C. WEBB and I. T. BJARNASON (1999): The effect of local
wind on seismic noise near 1Hz at the MELT site and on Iceland, Bull. Seis. Soc. Am.,
89, 1543-1557.
MIKADA and K. SUYEHIRO (2004): Improvement of seismic observation in the ocean
by use of seafloor boreholes, Bull. Seism. Soc. Am., 94, 678-690.
BEAUDUIN, R., and J. P. MONTAGNER (1996): Time evolution of broadband seismic noise
during the French pilot experiment OFM/SISMOBS, Geophys. Res. Lett., 23(21)
2995-2998.
COLLINS, J. A., F. L. VERNON, J. A. ORCUTT, R. A. STEPHEN, K. R. PEAL, F. B.
WOODING, F. N. SPIESS, and J. A. HILDBRAND (2001): Broadband Seismology in the
Oceans: Lessons from the Ocean Seismic Network Pilot Experiment, Geophys. Res. Lett.,
28(1), 49-52.
HASVOLD, Ø., HENRIKSEN, H., MELVÆR E., CITI, G., JOHENSEN, B. Ø., KJØNIGSEN,
T., GALETTI, R. (1997): Sea-water battery for subsea control systems. J. Power Sources,
65, 253-261.
ION/ODP INTERNATIONAL WORKSHOP (1995): Multidisciplinary observatories on the
deep seafloor, Marseille (France).
KANAZAWA, T., K. SUYEHIRO, N. HIRATA and M. SHINOHARA (1992): Performance of
the ocean broadband downhole seismometer at Site 794, Proceedings of the Ocean Drilling Program, Scientific Results, 127/128, pt2, 1157-1171.
KANAZAWA, T., W. W. SAGER, C. ESCUTIA, et al. (2001): Proc. ODP, Init. Repts., 191
[CD-ROM], 2001. Available from: Ocean Drilling Program, Texas A&M University,
College Station TX 77845-9547, USA.
MONTAGNER, J. P., J. F. KARCZEWSKI, B. ROMANOWICZ, S. BOUARICHA, P.
LOGNONNÉ, G. ROULT, E. STUTZMANN, J. L. THIROT, J. BRION, B. DOLE, D.
FOUASSIER, J. C. KOENIG, J. SAVARY, L. FLOURY, J. DUPOND, A. ECHARDOUR
and H. FLOC'H (1994): The French pilot experiment OFM-SISMOBS: first scientific
results on noise level and event detection, Physics of the Earth and Planetary Interiors, 84,
321-336.
PETERSON, J. (1993): Observations and modeling of seismic background noise, Open-File
Report93-322, U.S. Department of Interior Geological Survey.
ROMANOWICZ, B., D. STAKES, J. P. MONTAGNER, P. TARITS, R. UHRHAMMER, M.
BEGNAUD, E. STUTZMANN, M. PASYANOS, J. F. KARCZEWSKI, S.
ETCHEMENDY and D. NEUHAUSER (1998): MOISE: A pilot experiment towards long
term seafloor geophysical observatories, Earth Planets Space, 50, 927-937.
SACKS, I. S., K. SUYEHIRO, G. D. ACTON, et al. (2000): Proc. ODP, Init. Repts., 186
[CD-ROM]. Available from: Ocean Drilling Program, Texas A&M University, College
Station TX 77845-9547, USA.
SALISBURY, M.H., M. SHINOHARA, C. RICHTER, et al. (2002): Proc. ODP, Init. Repts.,
195 [CD-ROM]. Available from: Ocean Drilling Program, Texas A&M University,
College Station TX 77845-9547, USA.
STEPHEN, R. A., J. A. COLLINS and K. R. PEAL (1999): Seafloor Seismic Stations Perform
Well in Study, EOS Trans. AGU, 80, 592.
SUYEHIRO, K., T. KANAZAWA, N. HIRATA, M. SHINOHARA and H. KINOSHITA
(1992), Broadband downhole digital seismometer experiment at Site 794: A techinical paper, Proceedings of the Ocean Drilling Program, Scientific Results, 127/128, pt2,
1061-1073.
SUYEHIRO, K., E. ARAKI, M. SHINOHARA and T. KANAZAWA (2002): Deep sea
borehole observatories ready and capturing seismic waves in the western Pacific, Eos,
Transactions AGU, 83, 621, 624-625.
WEBB S.C. (1998): Broadband seismology and noise under the ocean, Reviews of Geophysics,
36, 105-142.
WESSEL, P. and W. H. F. SMITH (1998): New improved version of the Generic Mapping
Tools released, EOS Trans. AGU, 79, 579.
WILCOCK, W. S. D., S. C. WEBB and I. T. BJARNASON (1999): The effect of local
wind on seismic noise near 1Hz at the MELT site and on Iceland, Bull. Seis. Soc. Am.,
89, 1543-1557.
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