The 1984 Round Valley, California Earthquake Sequence

Smith, Kenneth D.; Cockerham, Robert S.

doi:10.1111/j.1365-246x.1988.tb00464.x

Cited by 27 publications

(20 citation statements)

References 46 publications

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“…Amplitudes were measured o simulated WWSSN short-period records using Nuttli's practice of taking the 3rd peak for both upswings and downswings and averaging the two amplitudes. This worked well for explosions at NTS, but PRIESTLEY and PATTON (1997) found that adopting the same Q 0 values obtained by Nuttli and Patton led to overestimation of m b (Lg) for earthquakes located near the test site. In Vol.…”

Section: Western United States (Wus) Data Setsupporting

confidence: 64%

Regional Magnitude Scaling, Transportability, and Ms:mb Discrimination at Small Magnitudes

Patton¹

2001

Pure appl. geophys.

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Ð Data sets of m b (Pn) and m b (Lg) measurements are presented for three continental regions in order to investigate scaling relationships with moment magnitude M w and event discrimination at small magnitudes. Compilations of published measurements are provided for eastern North American and central Asian earthquakes, and new measurements are reported for earthquakes located in western United States. Statistical tests on M w :m b relationships show that the m b (Lg) scale of NUTTLI (1973) is transportable between tectonic regions, and a single, uni®ed M w :m b (Lg) relationship satis®es observations for M w $4.2± 6.5 in all regions. A uni®ed relationship is also developed for nuclear explosions detonated at the Nevada Test Site and test sites of the former Soviet Union. Regional m b for explosions scale at higher rates than for earthquakes, and of signi®cance is the ®nding that m b (Pn) for explosions scales at a higher rate than m b (Lg). A model is proposed where dierences in scaling rates are related to eects of spectral overshoot and near-®eld Rg scattering on the generation of Pn and Lg waves by explosions. For earthquakes, m b (Pn) and m b (Lg) scale similarly, showing rates near 1.0 or 2/3 á log 10 M o (seismic moment). M w :m b (Lg) scaling results are converted to uni®ed M s :m b (Lg) relationships using scaling laws between log M o and M s . For earthquakes with M s greater than 3.0, the scaling rate is 0.69 á M s , which is the same as it is for nuclear explosions if M s is proportional to 1.12 á log M o , as determined by NTS observations. Thus, earthquake and explosion populations are parallel and separated by 0.68 m b units for large events. For small events (M s < 3.0), populations may converge or diverge depending on the tectonic region in which earthquakes occur and the scaling rate of explosions at small yields. Earthquakes scale as 0.64 and 0.75 on M s :m b (Lg) plots for stable and tectonic regions, respectively. While the scaling rate for explosions is $0.69, this value is uncertain due to paucity of M o observations at small yields. Measurements of [m b (P) ) m b (Lg)] for earthquakes in the western United States have an average value of )0.33 .03 m b units, in good agreement with Nuttli's estimate of m b bias for NTS. This result suggests that Nuttli's method for estimating test site bias can be extended to earthquakes to make estimates of bias on regional scales. In addition, a new approach for quick assessments of regional bias is proposed where M s :m b (P) observations are compared with M s :m b (Lg) relationships. Catalog M s :m b (P) data suggest that m b bias is signi®cant for tectonic regions of southern Asia, averaging about )0.4 m b units. 1952Howard J. Patton Pure appl. geophys., transportability by comparing scaling relationships determined for dierent regions. Regional M s :m b relationships are derived for continental earthquakes and nuclear explosions, and discrimination is investigated at small magnitudes. I will show that m b (Lg), as devised by NUTTLI (1973), is transpor...

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Section: Western United States (Wus) Data Setsupporting

confidence: 64%

Regional Magnitude Scaling, Transportability, and Ms:mb Discrimination at Small Magnitudes

Patton¹

2001

Pure appl. geophys.

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“…Following this line of reasoning, it will be shown that the CLVD decomposition is to be preferred in the absence of compelling source complexity or other situations which would lead to major and minor couples. Conversely, it can be argued that reporting the source in terms of major + minor double couples as done recently by Priestley, Smith & Cockerham (1988) is as reasonable as reporting a double couple + CLVD, as is more common, in the absence of the kind of mathematical arguments presented here.…”

Section: Introductionmentioning

confidence: 77%

Choosing the ‘best’ double couple from a moment-tensor inversion

Strelitz

1989

Geophysical Journal International

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General moment-tensor solutions contain double couples, compensated linear vector dipoles (CLVD's) and isotropic sources. Since double-couple solutions are considered to be standard, it is important to find the best double-couple solution that is consistent with the original solution. It is proved that for a number of reasonable measures of fit, the best double couple is the one formed by removing a CLVD source with a magnitude of the intermediate non-zero eigenvalue. It is also shown that mixtures of double couple and CLVD's may result from near-source changes in rigidity.

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“…The additional high-frequency energy causing the spectrum to drop off with a slope less than co-2 past the comer frequency can arise due to fault roughness (Gusev 1983). Such effects have been observed for earthquakes over a wide magnitude range Brune et al 1986;Smith et al 1988). The lack of this roughness energy in the spectrum of the Edgecumbe earthquake indicates a relatively uniform rupture process.…”

Section: Source Parameters Of the Main Shockmentioning

confidence: 84%

“…This presumably represented the upper limit for the surface which slipped during the main shock. In several cases where dense seismograph networks were in place at the time of a main shock, allowing accurate aftershock locations immediately following a main event, it has been observed that the aftershock zone grew in size by 10-20 % in the first few hours (e.g., Smith & Priestley 1988;Priestley et al 1988). This is to be expected since aftershocks should be most frequent at the boundaries of the slip zone where the main shock has increased the stress.…”

Section: Source Parameters Of the Main Shockmentioning

confidence: 85%

“…The shape of the spectrum beyond the corner frequency is important in the calculation of the total radiated energy; if the amplitude spectrum falls off as co-2 , the velocity spectrum falls off as CO-I and the velocity squared spectrum, which is proportional to energy, falls off as co-2 , thus, there is relatively little contribution to the total energy for frequencies beyond the corner frequency. However, if the amplitude spectrum falls off as CO-I beyond the comer frequency, the velocity spectrum and the velocity squared spectrum are constant, and the contribution to the total radiated energy is proportional to the bandwidth of that portion of the spectrum (Smith et al 1988). The additional high-frequency energy causing the spectrum to drop off with a slope less than co-2 past the comer frequency can arise due to fault roughness (Gusev 1983).…”

Section: Source Parameters Of the Main Shockmentioning

confidence: 99%

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Source parameters of the 1987 Edgecumbe earthquake, New Zealand

Priestley

1989

New Zealand Journal of Geology and Geophysics

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Moment tensor inversions of low-frequency teleseismic surface-wave and body-wave data for the 1987 March 2 Edgecumbe earthquake, New Zealand, give an average seismic moment of 7.0 X 10 18 N m. Measurements of seismic moment at low frequencies are converted to spectral levels normalised to 10 km distance and combined with the acceleration spectrum from a strong-motion seismogram recorded at about 15 km epicentraldistance, to giveacomposite source spectrum for the main shock covering more than four decades in frequency. The source spectrum shows a constant low-frequency level, a comer frequency of 0.22 Hz, and a high-frequency slope of approximately ro-2 . The comer frequency implies a fault radius of 6 km giving an average fault displacement of 2 m and a stress drop of 5 MPa. Integration of the velocity-squared spectrum indicates an energy release of 1.1 X lOIS J.

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The 1984 Round Valley, California Earthquake Sequence

Cited by 27 publications

References 46 publications

Regional Magnitude Scaling, Transportability, and Ms:mb Discrimination at Small Magnitudes

Regional Magnitude Scaling, Transportability, and Ms:mb Discrimination at Small Magnitudes

Choosing the ‘best’ double couple from a moment-tensor inversion

Source parameters of the 1987 Edgecumbe earthquake, New Zealand

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