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陈培善 《地震学报(英文版)》2008,21(6):672-672
For showing the epicentral distribution in and near China as well as all over the world,two epicentral maps for the earthquakes occurred last year are published annually in the 6-th issue 相似文献
458.
陈培善 《地震学报(英文版)》2008,21(4):438-440
Illustration All the data in this catalog are chosen from the ″Preliminary Seismological Report of Chi-nese Seismic Stations″ (Its abbreviation is ″Monthly Report″). The catalog includes the events of 相似文献
459.
Body-wave Attenuation in the Region of Garda, Italy 总被引:1,自引:0,他引:1
Raúl R. Castro Marco Massa Paolo Augliera Francesca Pacor 《Pure and Applied Geophysics》2008,165(7):1351-1366
We analyzed the spectral amplitude decay with hypocentral distance of P and S waves generated by 76 small magnitude earthquakes (ML 0.9–3.8) located in the Garda region, Central-Eastern Alps, Italy. These events were recorded by 18 stations with velocity
sensors, in a distance range between 8 and 120 km. We calculated nonparametric attenuation functions (NAF) and estimated the
quality factor Q of both body waves at 17 different frequencies between 2 and 25 Hz. Assuming a homogeneous model we found that the Q frequency dependence of P and S can be approximated with the functions Q
P
= 65 f
0.9
and Q
S
= 160 f
0.6
, respectively. At 2 Hz the Q
S
/Q
P
ratio reaches the highest value of 2.8. At higher frequencies Q
S
/Q
P
varies between 0.7 and 1.7, suggesting that for this frequency band scattering may be an important attenuation mechanism
in the region of Garda. To explore the variation of Q in depth, we estimated Q at short (r ≤ 30 km) and intermediate (35–90 km) distance paths. We found that in the shallow crust P waves attenuate more than S (1.3 < Q
S
/Q
P
< 2.5). Moreover, P waves traveling along paths in the lower crust (depths approximately greater than 30 km) attenuate more than S waves. To quantify the observed variability of Q in depth we considered a three-layer model and inverted the NAF to estimate Q in each layer. We found that in the crust Q increases with depth. However, in the upper mantle (~40–50 km depth) Q decreases and in particular the high frequency Q
S
(f > 9 Hz) has values similar to those estimated for the shallow layer of the crust. 相似文献
460.
First Order Seismic Microzonation of Haldia, Bengal Basin (India) Using a GIS Platform 总被引:2,自引:0,他引:2
The seismic microzonation of the Bengal Basin, Haldia region, India is carried out using the Analytical Hierarchy Process
(AHP) on the Geographic Information System (GIS). Three themes are used for the seismic microzonation, namely Peak Ground
Acceleration (PGA), predominant frequency and elevation map. An analysis of the maximum magnitude (m
max) and the b value is carried out after preparing the earthquake catalogue from various sources. On the basis of the tectonic
set up and seismicity of the region, five seismic zones are delineated which can be a threat to Haldia. They are broadly classified
as Zone 1: Arakan-Yoma Zone (AYZ), Zone 2: Himalayan Zone (HZ), Zone 3: Shillong Plateau Zone (SPZ), Zone 4: Bay of Bengal
Zone (BBZ) and Zone 5: Shield Zone (SZ). The m
max for Zones 1, 2, 3, 4 and 5 are 8.30 ± 0.51, 9.09 ± 0.58, 9.20 ± 0.51, 6.62 ± 0.43 and 6.61 ± 0.43, respectively. The PGA
value is computed for Haldia following the attenuation relationship taking the m
max of each source zone. The expected PGA at Haldia varies from 0.09–0.19 g. The predominant frequency of Haldia is also calculated
using the H/V ratio with a frequency ranging from 0.1–3.0 Hz. The elevation map of Haldia is also generated using the Shuttle
Radar Topography Mission (STRM) data. A first-order seismic microzonation map of Haldia is prepared in which four zones of
hazard have been broadly classified for Haldia as very high seismic hazard zone, high seismic hazard zone, moderate seismic
hazard zone and less seismic hazard zone. The very high seismic hazard zone is observed along the southern part of Haldia
where there are major industrial and port facilities. The PGA for the four hazard zones are: 0.09–0.13 g for low hazard zone,
> 0.13–0.15 g for moderate hazard zone, > 0.15–0.16 g for high hazard zone and > 0.16–0.19 g for very high hazard zone. 相似文献