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Attenuation of Broadband P and S Waves in Tonga: Observations of Frequency Dependent Q (1998)

Flanagan, M. P. ; Wiens, D. A.

Springer

Pure and applied geophysics 153 (1998), S. 345-375

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ISSN: 1420-9136

Keywords: Key words: Attenuation, Frequency dependence, subduction zone.

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract —Teleseismic broadband recordings of intermediate and deep focus earthquakes are used to quantify both compression (Q 〈alpha〉 and shear(Q 〈beta〉 ) wave attenuation within the Lau backarc basin. A spectral-ratio method is employed to measure differential attenuation (〈delta〉t*) between the depth phases sS, pP, and sP and the direct S and P phases over the frequency band 0.05 and 0.5 Hz. We use a stacking algorithm to combine the spectra of several phase pairs from a single event, having similar azimuth and range, to obtain more robust 〈delta〉t* measurements; these estimates are then used to compute the average Q above the focal depth. Q 〈beta〉 and Q 〈alpha〉 are measured directly from the sS-S and pP-P phase pairs respectively, however, the interpretation of 〈delta〉t* measured from sP-P requires assumptions about the ratio Q 〈alpha〉 /Q 〈beta〉 . We find an empirical ratio of Q 〈alpha〉 /Q 〈beta〉 = 1.93 for this region and use it to compute Q 〈alpha〉 and Q 〈beta〉 from the Q sP observations. We observe lateral and depth variations in both Q β and Q 〉alpha〈 beneath the tectonically active Lau Basin and the geologically older, inactive Lau Ridge and Fiji Plateau. The upper 200 km beneath the Central and Northern Lau Basin show a Q 〈beta〉 of 45–57 and a Q 〈alpha〉 of 102–121, and Q appears to increase rapidly with depth. The upper 600 km beneath the Lau backarc basin has a Q 〈beta〉 of 118–138, while over the same depth interval we observe a higher Q 〈beta〉 of 139–161 beneath the Lau Ridge and Fiji Plateau. We also find Q 〈alpha〉 of 235–303 beneath the northern Lau Basin and a higher Q 〈alpha〉 of 292–316 beneath the Fiji Plateau and the Lau Ridge measured directly from pP-P phase pairs. These geographic trends in the broadband Q measurements correlate with our previous long-period estimates of Q 〈beta〉 in this region, however, the broadband measurements themselves are higher by about a factor of two. These observations suggest substantial frequency dependence of Q in the upper mantle, beginning at frequencies less than 1.0 Hz and consistent with the power-law form Q∝ωα with 〈alpha〉 between -0.1 and -0.3.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s000240050199

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Genetic variability between two breeds based on restriction fragment length polymorphisms (RFLPs) of major histocompatibility complex class I genes in the pig (1989)

Jung, Y. C. ; Rothschild, M. F. ; Flanagan, M. P. ; [et al.]

Springer

Theoretical and applied genetics 77 (1989), S. 271-274

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ISSN: 1432-2242

Keywords: RFLP (restriction fragment length polymorphism) ; MHC (major histocompatiability complex) ; nucleotide diversity ; swine

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Restriction fragment length polymorphism analyses of SLA class I genes were performed on 55 Duroc and 24 Hampshire boars from the 1986–87 national performance tests of each breed. Few boars were inbred. Southern blotting and hybridization procedures were performed on genomic DNA isolated from white blood cells by using Pvu II, Bam HI, and Eco RI endonucleases and a swine MHC class I probe. Genetic variability within and between the two breeds was estimated in terms of nucleotide diversity, by using a mathematical analysis based on the different RFLP patterns. The nucleotide diversity calculated within each breed was less than that between the two breeds. The results from the nucleotide diversity analysis suggested that genetic variability was greater in the Duroc breed than in the Hampshire breed. A relatively high level of genetic variability was shown in the class I major histocompatibility complex genes in the pig.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00266197

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Validation of Regional Travel-Time Predictions along the Tethyan Margin for Three P-Velocity Models Built with Different Approaches (2014)

Chang, S.-J., Van der Lee, S., Flanagan, M. P.

Seismological Society of America (SSA)

In: Bulletin of the Seismological Society of America (BSSA)

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Publication Date: 2014-06-12

Description: We validate the performance of three P -velocity models built with different approaches on regional travel-time prediction for the Tethyan margin in order to test how well they predict independently observed travel times. The three models are constructed with travel-time tomography, a compilation of a priori geologic and geophysical information, and empirical scaling with adjustment from P -arrival inversion, respectively. We compared the synthetics with reference travel times (ground truth data) obtained by using events or explosions located within 25 km with 95% confidence. We found variance of travel times is not an adequate tool to assess the performance of velocity models, because predicted travel times that have small variance can have very different mean value from that of observed ones. Therefore, we propose an alternative way, variance estimation with mean of observed travel times (zero mean). This technique is more efficient to assess the mismatch between synthetics and observed travel times. Among the three models we investigated, the EAPV11 model built mainly with the empirical scaling shows better performance on the travel-time prediction. This result is intriguing, because this model inherits crustal velocity structure, Moho depth, Pn velocities, and upper-mantle structure that affects travel times at regional distance, mostly from a scaled 3D S -velocity model for the same region. This fact may imply that although errors may be included in this scaling, this way would work better than conventional P -arrival inversion. This difference likely exists because surface waves have a better lateral resolution for the crust and uppermost mantle than travel times. Online Material: Histograms of travel-time residuals and correction surfaces of travel times with respect to iasp91 for 33 stations.

Print ISSN: 0037-1106

Electronic ISSN: 1943-3573

Topics: Geosciences , Physics

Published by Seismological Society of America (SSA)

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Regional Travel-Time Uncertainty and Seismic Location Improvement Using a Three-Dimensional a priori Velocity Model (2007)

Flanagan, M. P. ; Myers, S. C. ; Koper, K. D.

Seismological Society of America

In: Bulletin of the Seismological Society of America. 2007; 97(3): 804-825. Published 2007 Jun 01. doi: 10.1785/0120060079.

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Publication Date: 2007-06-01

Description: We demonstrate our ability to improve regional travel-time prediction and seismic event location accuracy using an a priori 3D velocity model of Western Eurasia and North Africa (WENA1.0). Travel-time residuals are assessed relative to the iasp91 model for approximately 6000 Pg, Pn, and P arrivals, from seismic events having 2sigma epicenter accuracy between 1 km and 25 km (ground truth 1 [GT1] and GT25, respectively), recorded at 39 stations throughout the model region. Ray paths range in length between 0 degrees and 40 degrees (local, regional, and near teleseismic) providing depth sounding that spans the crust and upper mantle. The dataset also provides representative geographic sampling across Eurasia and North Africa including aseismic areas. The WENA1.0 model markedly improves travel-time predictions for most stations with an average variance reduction of 29% for all ray paths from the GT25 events; when we consider GT5 and better events alone, the variance reduction is 49%. For location tests we use 196 geographically distributed GT5 and better events. In 134 cases (68% of the events), locations are improved, and average mislocation is reduced from 24.9 km to 17.7 km. We develop a travel-time uncertainty model that is used to calculate location coverage ellipses. The coverage ellipses for WENA1.0 are validated to be representative of epicenter error and are smaller than those for iasp91 by 37%. We conclude that a priori models are directly applicable where data coverage limits tomographic and empirical approaches, and the development of the uncertainty model enables merging of a priori and data-driven approaches using Bayesian techniques.

Print ISSN: 0037-1106

Electronic ISSN: 1943-3573

Topics: Geosciences , Physics

Published by Seismological Society of America

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Validation of Regional Travel-Time Predictions along the Tethyan Margin for Three P-Velocity Models Built with Different Approaches (2014)

Chang, S.-J. ; Van der Lee, S. ; Flanagan, M. P.

Seismological Society of America

In: Bulletin of the Seismological Society of America. 2014; 104(3): 1525-1532. Published 2014 Apr 08. doi: 10.1785/0120130308.

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Publication Date: 2014-04-08

Description: We validate the performance of three P-velocity models built with different approaches on regional travel-time prediction for the Tethyan margin in order to test how well they predict independently observed travel times. The three models are constructed with travel-time tomography, a compilation of a priori geologic and geophysical information, and empirical scaling with adjustment from P-arrival inversion, respectively. We compared the synthetics with reference travel times (ground truth data) obtained by using events or explosions located within 25 km with 95% confidence. We found variance of travel times is not an adequate tool to assess the performance of velocity models, because predicted travel times that have small variance can have very different mean value from that of observed ones. Therefore, we propose an alternative way, variance estimation with mean of observed travel times (zero mean). This technique is more efficient to assess the mismatch between synthetics and observed travel times. Among the three models we investigated, the EAPV11 model built mainly with the empirical scaling shows better performance on the travel-time prediction. This result is intriguing, because this model inherits crustal velocity structure, Moho depth, Pn velocities, and upper-mantle structure that affects travel times at regional distance, mostly from a scaled 3D S-velocity model for the same region. This fact may imply that although errors may be included in this scaling, this way would work better than conventional P-arrival inversion. This difference likely exists because surface waves have a better lateral resolution for the crust and uppermost mantle than travel times.

Print ISSN: 0037-1106

Electronic ISSN: 1943-3573

Topics: Geosciences , Physics

Published by Seismological Society of America

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