Abstract
Unlike response of seismometers resting on hard rock where the seismometer case moves with the rock to high frequencies, the response of ocean bottom seismometers (OBS) can be strongly affected by the low mechanical strength of ocean sediments. The motion as measured by the seismometer will not follow the expected relationships between pressure and particle motion for different wave types. Cross coupling between horizontal and vertical motions can occur, especially when there is differential motion between water and sediment. Resonant amplification and attenuation of higher frequencies also occur. Secondary seismic arrivals are especially subject to distortion. Overall response is strongly dependent upon the mass and configuration of the OBS and the rigidity and density of the bottom material. Tests at Lopez Island, Puget Sound using both directly applied mechanical transients and seismic signals with various instrument configurations demonstrate the above effects and provide some guidance for improved designs.
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References
Bycroft, G.N.: 1956, ‘Forced Vibrations of a Rigid Circular Plate on a Semi-Infinite Elastic Space and on an Elastic Stratum’, Phil. Trans. Roy. Soc. Lond. 248, A928, 327–67.
Bryne, D., Duennebier, F.K., Hussong, D. H., and Sutton, G. H.: 1977, ‘Burp-Out Ocean Bottom Seismometer’, EOS, Trans. Am. Geophys. Union 58, 1190 (abstr.).
Johnson, S. H. and McAlister, R. E.: 1981, ‘Bottom Seismometer Observation of Airgun Signals at Lopez Island’, Marine Geophys. Res. 5, 87–94 (this issue).
Lamer, A.: 1969, ‘Couplage Sol-Geophone’, Geophys. Prosp. 18, 300–19.
Lewis, B.T.R. and Tuthill, J. D.: 1981, ‘Instrumental Waveform Distortion on Ocean Bottom Seismometers’, Marine Geophys. Res. 5, 79–86 (this issue).
Sutton, G. H., Duennebier, F.K., Lazarewicz, A.R., and Cooper, P. A.: 1977a, ‘Strong Resonances on OBSs’, EOS, Trans. Am. Geophys. Union 58, 1190 (abstr.).
Sutton, G. H., Kasahara, J., Ichinose, W. N., and Byrne, D. A.: 1977b, ‘Ocean Bottom Seismograph Development at Hawaii Institute of Geophysics’, Mar. Geophys. Res. 3, 153–77.
Sutton, G. H., Duennebier, F. K., and Saade, E. J.: 1978, ‘Coupling of Ocean Bottom Seismometers to Soft Bottoms’, EOS, Trans. Am. Geophys. Union 59, 1132 (abstr.)
Sutton, G. H., Lewis, B. T. R., Ewing, J., Duennebier, F. K., Iwatake, B., Tuthill, J. D. et al.: 1980, ‘Lopez Island Ocean Bottom Seismometer Intercomparison Experiment’, HIG-80-4, Hawaii Inst. Geophys., Honolulu.
Sutton, G. H., Duennebier, F. K., Iwatake, B., Tuthill, J. D., Lewis, B.T.R., and Ewing, J.: 1981, ‘An Overview and General Results of the Lopez Island OBS Experiment’, Marine Geophys. Res. 5, 3–34 (this issue).
Tuthill, J. D., Lewis, B. T. R., and Garmany, J. D.: 1981, ‘Stonely Waves, Lopez Island Noise, and Deep Sea Noise From 1 to 5 Hz’, Marine Geophys. Res. 5, 95–108 (this issue).
Washburn, H. and Wiley, H.: 1941, ‘The effect of the Placement of a Seismometer on its Response Characteristics’, Geophysics 6, 116–31.
Wolf, A.: 1944, ‘The Equation of Motion of a Geophone on the Surface of an Elastic Earth’, Geophysics 9, 29–35.
Zelikovitz, S. J. and Prothero, W. A.Jr.: 1981, ‘The Vertical Response of an Ocean Bottom Seismometer: Analysis of the Lopez Island Vertical Transient Tests’, Marine Geophys. Res. 5, 53–67 (this issue).
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Hawaii Institute of Geophysics Contribution No. 1172.
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Sutton, G.H., Duennebier, F.K. & Iwatake, B. Coupling of ocean bottom seismometers to soft bottom. Mar Geophys Res 5, 35–51 (1981). https://doi.org/10.1007/BF00310310
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DOI: https://doi.org/10.1007/BF00310310