Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Exploration Geophysics Exploration Geophysics Society
Journal of the Australian Society of Exploration Geophysicists
Shopping Cart: ( empty )
You are here: Home > Journals > EG > EG07016
RESEARCH ARTICLE
Contents Vol 38(2)

Microtremor methods applied to groundwater studies*

Camilla Sorensen 1 2 3 Michael Asten 1 3
+ Author Affiliations
- Author Affiliations

1 School of Geosciences, Monash University, Melbourne VIC 3800, Australia.

2 Current address: Geoscience Australia, Symonston ACT 2601, Australia.

3 Corresponding author. Emails: Camilla.Sorensen@ga.gov.au; Michael.Asten@sci.monash.edu.au

Exploration Geophysics 38(2) 125-131 https://doi.org/10.1071/EG07016
Submitted: 31 July 2006  Accepted: 4 May 2007   Published: 15 June 2007

Abstract

The Campaspe Deep Lead, which underlies the modern-day Campaspe River Valley in north-eastern Victoria, is an important local source of ground water. The exact location of the lead near Goornong is disputed, and it is consequently of interest to see whether a geophysical method can add information to the existing hydrological and geological data.

Two microtremor methods have been applied in this area. The horizontal to vertical spectral ratio method (HVSR) was used as a reconnaissance tool to gain information about the change in resonant frequency across the field area. Modelling of the HVSR data qualitatively estimated a basement depression below and east of the river. The passive seismic spatial autocorrelation (SPAC) method was applied at four locations in the vicinity of the aquifer to gain information about depth to bedrock and layer intervals as well as shear wave velocities. Unconstrained inversion of SPAC data resulted in similar basement topography, but overestimated by tens of metres. Constraining the basement depth to that found in nearby boreholes gives a relatively unchanged data misfit, and an approximate location of the vertical boundaries of the deep lead. Use of these methods in groundwater exploration would primarily be for cost-effective mapping of regolith and basement structure between boreholes, especially in saline overburden, land or urban environments.

Key words: Microtremors, HVSR, SPAC, groundwater studies.


Acknowledgments

C.S. is supported by a Monash Graduate Scholarship and a Monash International Postgraduate Research Scholarship. The authors would like to thank Mark Reid (Department Primary Industries Victoria) for providing insight into the field area, CRCLEME for field work support and James Roberts for field work assistance.


References

Aki, K., 1957, Space and time spectra of stationary stochastic waves, with special reference to microtremors. Bulletin of the Earthquake Research Institute 35, 415.
Asten M. W. , and Dhu T. 2004, Site response in the Botany area, Sydney, using microtremor array methods and equivalent linear site response modelling: Australian Earthquake Engineering in the New Millennium, Proceedings of a conference of the Australian Earthquake Engineering Soc., Mt Gambier South Australia, Paper 33.

Asten M. W. , Dhu T. , and Lam N. 2004, Optimised array design for microtremor array studies applied to site classification; observations, results and future use: Conference Proceedings of the 13th World Conference of Earthquake Engineering, Paper 2903.

Bodin, P., Smith, K., Horton, S., and Hwang, H., 2001, Microtremor observations of deep sediment resonance in metropolitan Memphis, Tennessee. Engineering Geology 62, 159.
Crossref | GoogleScholarGoogle Scholar | Brown C. M. , and Stephenson A. E. 1987, Geology of the Murray Basin, Southeastern Australia: Bureau of Mineral Resources, Australia, Bulletin 235.

Chiew, F. H. S., and McMahon, T. A., 1991, Groundwater Recharge from Rainfall and Irrigation in the Campaspe River Basin. Australian Journal of Soil Research 29, 651.
Crossref | GoogleScholarGoogle Scholar | Nakamura Y. 2000, Clear identification of fundamental idea of Nakamura’s technique and its applications: XII World Conference, Earthquake Engineering, New Zealand.

Nogoshi, M., and Igarashi, T., 1971, On the amplitude characteristics of microtremor (part 2). Journal of the Seismological Society of Japan 24, 26.
Okada H. 2003, The Microseismic Survey Method: Society of Exploration Geophysicists of Japan. Geophysical Monograph Series No. 12, Society of Exploration Geophysicists.

Tokimatsu K. 1997, Geotechnical site characterization using surface waves: in Ishihara (Ed.), Earthquake Geotechnical Engineering: Balkema.




* *Presented at the Australian Earth Sciences Convention, June 2006, Melbourne.