UNITED STATES DEPARTMENT OF THE INTERIOR
GEOLOGICAL SURVEY
EARTHQUAKE DATA REPORT
APRIL 1990
by
U.S. Geological Survey
NATIONAL EARTHQUAKE INFORMATION CENTER 1
Open-File Report 90-604
This report is preliminary and has not been reviewed for conformity with U.S. Geological Survey editorial standards. Although this data file has been used by the U.S. Geological Survey, no warranty, expressed or implied, is made by the USGS as to the accuracy of this file, nor shall the fact of distribution constitute any such warranty, and no responsibility is assumed by the USGS in connection therewith.
1990
1USGS, Denver, Colorado
EDR No. 4-90 U. S. DEPARTMENT OF THE INTERIORPart 1 of 2P 1-174 Geological Survey
EARTHQUAKE DATA REPORT
The Earthquake Data Report (EDR) is a bulletin of all seismic phase and amplitude data which were associated with events published in the Preliminary Determination of Epicenters (PDE) Monthly Listing. It also contains information about the hypocentral computations (such as standard errors) that are not included in the PDE Monthly Listing. A machine-readable version of this EDR is available from the Books and Open-File Reports Section of the U.S. Geological Survey.
All data in the EDR are grouped by event, with events listed by origin time in date/time order through the month. All times are in Coordinated Universal Time (UTC). Locations are in decimal degrees of geographic latitude and longitude. Depths are in kilometers below the free surface. Hypocentral coordinates are determined by a modified Geiger's method and may be constrained by reported first arriving P-waves, Pdiff, and the DF branch of PKP. Data are corrected for station elevation and for the ellipticity of the Earth. Outliers may be truncated (ie., removed from the calculation) either automatically or manually. The solution is allowed to converge between rounds of automatic truncation to insure a unique result. Convergence is aided by step length damping.
The error bars of the computed hypocentral coordinates are 90% marginal confidence intervals incorpo- rating Baysian information to stabilize estimates derived from small samples (Jordan and Sverdrup, 1981). It is assumed that the travel-time errors of the data used are independent, unbiased, and have an expected standard deviation of 1 s. Monte Carlo experiments suggest that the error bars are accurate for events constrained by more than about 30 data. However, care should be exercised in interpreting these numbers in terms of absolute location accuracy because of unmodeled biases. Analysis of events with independently known coordinates indicates that most PDE determinations are accurate to a few tenths of a degree in epicentral position and 25 km in depth. For special studies, we urge that inquiry be made to this office for possible recomputation of hypocenters of interest, using more complete instrumental data.
Restricted focal depths occur in four instances. If at any point in the computation the depth becomes negative, the solution is automatically restricted at 33 km and indicated by "NORMAL DEPTH." If the unrestricted depth computation is unsatisfactory, and in the judgment of the reviewing geophysicist the earthquake probably has a shallow focus, a solution may be held at 33 km. These are also indicated by "NORMAL DEPTH." The geophysicist may restrain the depth at any value indicated by evidence from available seismograms. These are indicated by, for example, "DEPTH = 100 KM (GEOPHYSICIST)." If two or more pP phases are identified, and in general, yield depths within 10 km of the mean, then the depth is automatically restricted to this value and denoted by, for example, "DEPTH = 51 KM (5 DEPTH PHASES)." pP phases may also appear as unidentified second arrivals with associated travel-time residuals. Hypocentral coordinates derived from other sources, such as the California Institute of Technology, the University of California at Berkeley, and the U. S. Department of Energy are noted on the EDR.
Two types of magnitude are computed: body-wave magnitude (mi,) and surface-wave magnitude (Msz)- Each is a 25% trimmed mean of individual station values. Station magnitudes not used in the trimmed mean are marked with an X. This includes station magnitudes of either type which deviate significantly from the mean and surface-wave magnitudes determined from horizontal amplitudes. Body-wave magnitude? art1 computed according to the formula \og(A/T)+Q, derived by Gutenberg and Richter (1956), where A i? the P- wave amplitude in micrometers, T is the period in seconds, and Q is the depth-distance factor. Surface-wave magnitudes are computed from the formula \og(A/T) + 1.66log(A) -f 3.3, where A is the maximum vertical surface-wave amplitude in micrometers, T is the period in seconds, and A is the epicentral distance in degrees. Surface-wave magnitudes are determined only for earthquakes whose focal depths (taking into account the computed standard deviations) are potentially less than 50 km, for stations having 20° < A < 160°, and for reported periods of 18 < T < 22 s. No correction for focal depth is used in the MS calculation. Body-wave magnitudes are not determined from PKP arrivals or for stations having A < 5°. Amplitude values stated in this report are in nanometers (nm) for body-waves and micrometers (/im) for surface-waves.
The travel-time residual (observed computed) is based on the 1940 Jeffreys-Bullen P and 1968 Bolt PKP travel-time tables. Phases not used in the computation are marked by an X. The azimuth from the epicenter to the station is measured clockwise from north. The epicentral distance is the central angle in degrees.
The pulse distortion of seismic phases that have ray paths; that touch a single internal caustic (e.g., PP, pPP, SS and PKPab) can be corrected using the method of) Hilbert transformation described by Choy and Richards (1975). Arrival times that are read from the phases that are corrected for pulse distortion are identified by the symbol H preceding the phase identifier (e.g., rJPP, HpPP, HSS and HP'ab).
Hypocenter Symbols
& Indicates that parameters of the hypocenter were supplied 01 not normally used by the National Earthquake Information determination is indicated by a 2 to 5 letter code enclosed line of comments. A "-P" appended to the code indicates codes are included with the list of abbreviations in the PDE
determined by a computational procedure ervice (NEIS). The source or nature of the
by angle brackets and appearing in the first t.iat the computation is preliminary. These
Monthly Listing.
% Indicates a single network solution. A non-furnished hypocent by a single network of stations for which the date and/or origin grams available to a NEIS analyst. Also, if we define r? to be semi-minor axes of the horizontal 90% confidence ellipse, th
* Indicates a less reliable solution. In general, 8.5 < r) < 16.0
? Indicate? a poor solution, published for completeness of th
er has been computed using data reported time cannot be confirmed from seismo-
the geometric mean of the semi-major and n r} < 16.0 km.
cm.
catalog. In general, r) > 16.0 km. Thisincludes poor solutions computed using data reported by a jingle network.
The lack of any symbol indicates that r; < 8.5 km.
Note: On printers available to the NEIS for this publication, the symbol for degrees (°) appears asAlso note that certain phase codes are abbreviated because the data base and file format limit the lengthof the codes to five characters. Thus, PKP is occasionally abbreviated to P' and the numbers 2 and 3 are sometimes used to represent the AB (AC for SKKS) and BC branches of core phases, respectively. In some codes, R is used to represent repetition; for example, pRPKP represents the phase pPKPPKP and RRPG represents PgPgPg.
References
Bolt, Bruce A. (1968), Estimation of PKP Travel Times, Bull. Sets. Soc. Am., 58, pp. 1305-1324.
Choy, George L. and P. G. Richards (1975), Pulse Distortion ani Hilbert Transformation in Multiply Re-flected and Refracted Body Waves, Bull. Seis. Soc. Am., 65 pp. 55-70.
Gutenberg, B. and C. F. Richter (1956), Magnitude and Energy of Earthquakes, Ann. di Geofisica, 9, no. 1, pp. 1-15.
Jeffreys, Harold and K. E. Bullen (1940), Seismological Tables, British Assoc. for the Advancement of Science, Gray Milne Trust.
Jordan, Thomas H. and Keith A. Sverdrup (1981), Teleseismic Location Techniques and their Application to Earthquake Clusters in the South-Central Pacific, Bull. Sc.is. Soc. Am., 71, pp. 1105-1130.
APR 01 .39.939 NDEPTH -3 . 8mb (
AEGEAN SEAML 3.9
PA I G 0.27
OUR 0.40PUG 0.63NEO 0 . 89THE 1 . 07
LIT 1.19
SRS 1 . 22
KNT 1.50
AGG 1 . 60
MMB 1 . 66RDO 1 . 66KZN 1 . 77VAY 1.77
ALN 1.81PRK 1 . 86ATH 1 . 98KDZ 2.01k' K B 2.06FNA 2.20DIM 2.40KBN 2 . 55PGB 2 61VTS 2 72OHR 2 . 73
0 . 8s
SkO 2 82
JMB 3.18VLS 321
1 TM 321BERA 3.21KEk 3 . 27PVL 3 42T 1 R 3.47BC 1 3.851 TU 3 . 97SDA 4.01PVY 4.05
ULC 4.15
TTG 4. 38
BDV 4 . 58
BUC 1 4.65LC I 4.68
BUC 4.73DRA 4.74NKY 4.75
PLE 4.85PSN 4. 86HCY 4.87
BR Y 5.08
BRT 5.30CMP 5.38I SR 5.52BED 5. 55
BA I 5.59TNR 5.71
1990 00h± 4. 6km1 1 .5 ± 2.2 obs . )
(THE), 3.
268 iPdeS
355 ePc31 4 «Pb225 «Pb311 i Pd
eS278 «P
i S344 eP
eS325 eP
i S236 eP
eS352 iPc43 ePn
283 ePb322 iPn
ii Sn
57 eP111 ePb187 ePn31 i PC
340 iPc293 eP28 iPc
287 iPnd2 i PC
347 i P296 iPn
0 . 2 5 n.-ni SnLg
317 i PniPgi SniiSg
36 eP238 ePn212 ePn285 iPnd267 ePn16 i P c
295 ePn310 i Pd7 1 ePn
303 ePn312 ePn
eSn301 ePn
eSn306 ePn
eSn302 ePn
eSn18 ePd
277 PeSn
18 i Pd2 ePd
309 ePneSn
31 6 ePn38 i Pd
303 ePneSn
307 ePneS n
282 P8 i PC
1 9 ePd333 ePn
iPgiSg
O Q 4 p/ O 4 r
2 ePd
13m 2324. 0326 km
39±E ±
0 . 53s4 . 6km
(365)8 (ATH).
13 2813 3113 3213 3413 401 3 4313 5613 4514 0013 4614 0213 5014 0813 5114 1113 5213 5213 5313 5313 5614 171 3 5913 5613 5713 571 3 581 4 0014 0414 0514 0614 0814 07
1 4 4414 511 4 0914 1614 4114 441 4 521 4 2514 1614 1514 1614 1514 161 4 201 4 2814 441 4 2814 2915 1314 2915 1314 3215 2014 3715 2814 3414 3215 1914 5314 3614 38.15 30 .1437.14 3514 40 .15 33.14 42 .15 35.14 43.14 45 .1447.14 48 .1508.16 19.14 46.14 51.
.50
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. 50
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. 30
.90
.20
.20101000400060606030505070200000000000000070
00300090200070000030207000702000800000500000000000007080000000005000200000003000507070000050
-0 . 7
0 . 8-1 . 3-0 . 3-0 . 4
-0. 2
0 . 2
0 . 0
-0 . 7
-0 . 60 . 1
-0 . 6-0 . 5
4 . 8X1 . 30 . 1
-0 . 5-0. 2-e . 30 . 9
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-2. 31 . 4
ML It O./J 14 1 fO 14 3W . VV V . 4
ROI 5.76 269 P 14 50.80 -0.1OR I 5 .82 274 P 14 53.00 1.3TDS 5.93 270 P 14 54.00 0.8
«Sn 15 53. 30BZS 5.95 343 «Pc 14 51.00 -2.3CS I 5 .96 271 P 14 55 . 30 1.7DEV 6.00 352 «Pc 14 58.00 3 . 9XCFR 6.06 29 «P 15 03.00 8.1XCZ I 6.14 266 P 14 55.60 -0.6MMN 6.18 272 P 14 57 . 20 0.5VR 1 6.25 18 «Pc 14 00.00 -57. 6XMGR 6.51 274 P 15 00 . 40 -1.0
«Sn 16 04.10SCO 6.70 278 P 15 03.60 -0.5
eSn 16 11.70BBTK 6.71 88 «P 15 38.00 33. 6XATN 6.90 258 P 15 04.30 -2.6BSS 7.10 280 P 15 09.30 -0.3
«Sn 16 20 . 70MEU 7.68 251 P 15 14.00 -3.8XCEI 7.83 352 eP 14 31 00 -48. 7XZAG 8.33 317 «P 15 29.00 2.2BUD 8.37 336 «(P) 16 07.00 39. 7XPTJ 8.40 318 eP 15 25.90 -2.0VBY 8.52 314 «(Pn) 15 30.00 0.5SRO 8.89 334 eP 15 36.70 2.2
e 1744.70CEY 9.13 313 «Pn 15 37.00 -0.9LJU 9.25 314 «Pn 15 39.50 -0.1
«(Sn) 17 42.00TRI 9.49 311 «P 15 56.80 13. 9X
« 1724.00VOY 9.60 313 «Pn 15 42.50 -2.0
eSn 17 24.50SPC 9.63 345 «P 15 59.30 14. 3XZST 9.64 331 «P 15 52.90 8.0XKHC 11.82 324 P 16 14.20 -0.6HFS 21.23 346 «P 18 10.50 -0.7
0.4s 1 . 50nm 3 . 7mbNB2 22 . 56 344 P 1824.70 0.1
0.8s 3 . 20nm 3 . 9mbSUF 22.85 3 «P 18 29.80 2.5XBCAO 35.69 189 «Pd 20 34.50 10. 8X
0.4s 4 . 00nmS . D . - 1 . 2 on 69 of 88 obs .
______________________________________» APR 01, 1990 00h 17m 38.68± 1.10s
39.948 N ± 8.3km 23.788 E ±10. 3kmDEPTH - 10.0km (geophysicist)
AEGEAN SEA (365)
PLG 0.50 328 ePb 17 48.10 -0.7NEO 0.77 214 ePb 17 53.60 -0.2KZN 1.59 284 «Pb 18 07.20 0.2VAY 1.66 326 «Pn 18 08.60 0.7RDO 1.79 48 ePn 18 09.80 0.0
S . D . -0.8 on 5of Sobs.
? APR 01, 1990 00h 20m 58.71± 0.99s37.807 N ±10 1km 5.586 W ± 8.5kmDEPTH - 10.0km (geophysicist)
SPAIN (377)mbLg 3. 2 (MDD) . F« I t (III) otSon N i co I as Puerto
EHOR 0.27 87 i Pgc 21 03.60 -0.8eSg 21 07.80
EPRU 0.89 161 ePg 21 16.50 0.8eSg 21 30.00
EVAL 0.95 257 iPgc 21 16.00 -0.7eSg 21 28.50
MAL 1.43 139 ePn 21 33.50 8 . 9Xi Sg 21 46.00
EBAN 1.47 75 iPnc 21 21.70 -3.5XeSn 21 40 . 80
AFC 1.71 108 ePg 21 31.00 2. 1X«Sg 21 52.50
EPLA 2.29 350 ePg 21 37.90 0.8«Sg 22 03.30
TOL 2.39 30 ePg 21 53.50 14. 9XeSb 22 06 . 50eSg 22 1 1 . 00
GUD 3.04 21 «Pn 21 42.60 -5.3XS.D.-1.5 on 4of 9 obs .
APR 01, 1990 00h 46m 48.29± 0.96s
JD . 8 1 4 N
DEPTH -5.
± D . y Km 74.8 ± 9.
IV . »4J
9 kmt. ± j . Okm
1mb ( 62 obs . )HINDU KUSH
CUENDI
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TDSCSIMMNLJUBRG
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6.548.87
0.8s
9.280.8s
13.9914.5614.5714.7914.9316.2816.3316.5916. 93
1 7 . 40
19.531 .0s19.5619. 7920.6522.0022.870.9s26.571 .5s
29.4329.9430.5030.7932.8734.5435.0835.641 .2s35. 7237.8338.360. 7s38. 480. 7s38.5838.9839.1839. 191 .0s40.28
40.3441 .0841 . 420. 8s41 .4741 .53
41 .5841 . 821 .0s
42.0442.5842.6442.67
42. 8042.8143. 0143.0143.011.1s
43.0543. 124 -T 0 O4 j . _; O
43. 35
REGION
212 iPd141 iPc111. 94nm
«S276 iPc
36 . 60nm«S
120 P120 P1 19 P120 P1 18 P275 «P274 iPc274 «P174 «P
eS171 «P
iS156 iPd
90 . 00nm273 «Pc284 «P277 «Pd271 «Pd164 PC
20 . 1 0nm80 eP29 . 00nm
ieS
292 eP117 «P270 «P269 eP116 eP301 ePd300 iPc69 eP
1 6 . 00nm300 ePdo Q T A p_. y *j c r325 iP
92. 10nm329 iP
1 08 . 60nm295 «P306 «P293 «P308 iPc
62 . 00nm304 iP
e335 iP305 «P339 iP
49 . 90nm304 «P309 iP
ee
322 iP82 PC
1 9 . 00nmi
301 eP301 «(P)292 P308 eP
e292 Pd292 P293 P302 «P309 iP
30 . 00nmee
292 P301 «(P)293 Pd306 P
48 2548 56
50 3249 02
50 3850 0350 10
50 0950 1250 1450 3650 3550 3850 4253 5450 4854 2951 13
51 1351 1951 2651 3551 50
52 24
52 5757 4552 4852 5452 5853 0053 1953 3253 3853 43
53 4453 5954 04
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54 0554 0954 0754 10
54 2056 1954 2054 2654 29
54 2154 3056 0356 3754 3054 35
55 0254 3354 3954 4554 3955 1254 4154 4054 4354 42.54 42.
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SCOVOYHFS
TRICLLBSSATNBHG
MOX
ARVASSGRF
NB2
RDPOGAPGDF 1 RossSAXVDLLLSSLETMAZLAVA 1PELPCPRUPMMKPGF
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43.3843 . 4643. 580.6s
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0 . 8s50 . 490.8s50 . 890 . 8s51.161 O e- . w s
51 . 381.0s51.820. 8s
e294 P302 eP322 eP
33 . 80nm0 . 1 4 urnLR
301 iPc310 eP294 P290 Pd304 iPd
23 . 00nm309 iPd
2 1 . 00nm298 Pd298 Pd307 iPc
36 . 00nm323 P
34 . 40nm296 Pd303 eP299 Pd299 eP303 «Pd304 ePd303 «Pd304 ePd305 ePd303 ePd305 ePd302 Pd305 eP301 P308 eP303 ePd298 iPc
22 . 05nm306 eP
3 . 60nm302 P300 P303 ePd300 P305 eP
26 . 20 nm300 P309 PtOO Do V Z r
302 P303 ePd306 eP
1 0 . 75nm300 P300 P300 iPc
37 . 60nm301 P302 iPc
1 8 . 80nm302 iPc
26 . 00nm301 P300 iPc
1 4 . 80nm309 PC309 P347 iPd305 eP
1 4 . 00nm305 eP
7 . 00nm304 iPc
28 . 20nm 305 eP
9 . 40nm305 iPc
24 . 20nm304 iPc
9 . 40nm304 iPc
28 . 00nm304 eP
32 . 00nm303 eP
16. 1 6nm
56 29.5054 45.6054 45.8054 45.70
53
10 09.0054 46.1054 46.0054 47.9054 48 . 6054 49 . 00
554 55.00
454 54. 7054 57 . 7054 57.80
554 56 . 10
554 58. 2055 00 . 2055 02.0055 03.0055 05. 2055 08.6055 09. 1055 10 . 8055 12.1055 12. 3055 13.1055 13.0055 14.7455 15 . 2455 18.3055 17 . 8055 1 7 . 60
555 18. 30
455 16. 2655 17 . 6055 20.9055 20.0655 21 .00
555 20.8855 22.40 55 23.0355 22.6255 23.2055 23 . 20
455 22.6255 22 4255 24 . 20
555 22 . 5255 25.30
555 25.40
555 25.4955 29.00
555 30.3055 30.3055 32. 0055 36 . 40
455 36.40
455 37 . 80
555 38.80
455 39.90
555 42.80
455 45.40
555 47.10
555 50 . 60
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0.90.3
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1 . 28mb0. 71 . 41 . 3
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-e . 1-1 . 1-0 . 52mb-0 . 80 . 1 0 . 0
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MAT
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85 . 7789.621 .3s91 . 250. 9s 94.1594. 730. 8s133 . 06138. 76.D . -
01 ,
304 eP 5523 . 00nm
303 eP 551 1 . 45nm
308 eP 551 1 . 45nm
302 eP 554 . 05nm
303 eP 551 2 . 75nm
316 Pd 559 . 90nm
305 «P 551 1 . 45nm
307 eP 551 6 . 00nm
307 eP 551 2 . 60nm
68 (P) 5615.00 nm
301 eP 567 . 40nm
314 eP 56344 iPc 56
50 . 00nm315 «P 56250 iPc 56103 . 00nm
i d 56299 eP 56298 iPd 56
80 . 00nm297 eP 56295 eP 56296 iPc 56295 iPc 56296 iPc 56295 iPc 56299 eP 5615 eP 573 ePc 5753 . 00nm
17 ePc 5830 . 00nm
270 PC 581 7 . 50nm
1 19 eP 58220 cP 58
5 . 00nmo a p f^ o/We" Do
267 P 581 4 . 00nm
267 P 581 1 . 50nm
267 P 581 1 . 00nm
220 iPd 581 3 . 70nm
16 iPc 58343 eP 5818 eP 5820 . 50nm
17 eP 5822 eP 58
122 PC 597 . 50nm
3 eP 591 5 . 40nm
125 iPc 591 4 . 00nm
i 591 19 ePd 59356 iPd 59
34 . 00nm3 ePc 5937 . 00nm 1 eP 007 eP 008 . 00nm
282 PKP 05287 ePKP 061.0 on 1 62 of
1990 01h 10m
50. 105
52. 504
53. 704
55. 204
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521 . 26
422.64
423.00
524J.0026. 0037
405000
01
12
35
. 405
. 50
. 30
. 404
. 105
. 105
. 8021 . 6039. 00
546. 70
K
00
03
5710
1
16941 N ± 3 . 6km 19. 987
DEPTH - 10. 0km ( geophy sALBAN 1 A
O
. 00
. 00
5. 50. 00
-0.7
. 2mb-0.2
. 9mb-0.9
. 9mb-0. 4.5mb-0.3
. 0mb-1 .0
. 9mb-0.9
. 9mb-0. 1
. 0mb-0. 9
. 9mb0.7
. 0mb-1.4
. 8mb-1 . 6-0.8
. 2mb X-0. 9-1 . 2
. 0mb
-0 . 70. 0
. 8mb-0.6-1 .3-1 . 3-1 . 2-2. 3-1 .5-0. 10. 20. 3
. 6mb-0. 2
. 3mb-1 . 8
. 0mb1 . 41 .0
. 6mb0. 5
-1.1. 0mb-1 .0
. 9mb-1 .0
. 9mb-0.5
. 0mb0.4
-0.8-0 . 1
. 1mb1 .20. 30 .6
. 8mb0.6
. 1mb0.9
. 0mb
1 .0
0.3. 4mb
0 . 4. 7mb
0. 30 . 6
. 2mb0 . 31 . 3
59 obs .
.53±E ±
i c i s
0 . 34s3 . 3km
t)(391)
ML 3.3 (SKO) . 3.1 (THE) . 3.0(TTG).
BERA 0.24 187 iPgc 10 23.20 1.6TIR 0.41 347 iPgc 10 24.00 -1.0OHR 0.64 74 iPgd 10 28.70 -0.7
0.8s 0 . 95nmiSn 10 37 . 90Lg 10 39.20
KBN 0.70 117 ePg 10 29.50 -0.9SDA .13 341 iPgd 10 37.70 0.0ULC .16 332 ePg 10 37.50 -0.7
eSg 10 54.80KEK . 24 187 eP 10 43. 50 4 . 0XBCI .43 2 ePg 10 43. 20 0.8KZN . 58 114 eP 1045.00 1.5
eS 11 09.00SKO 1 . 50 46 iPn 1043.50 0.0
IS 1 1 03. 00TTG 1.58 340 iPgd 10 45.00 0.4
eSg 11 06.50BDV 1.60 327 ePg 10 44.40 -0.5
eSg 11 05.50PVY 1.65 360 ePn 10 47.10 1.3
eSn 11 09 . 60LCI 1 . 66 249 P 10 46. 10 0.3
«Sg 11 03 . 00HCY 1.87 324 ePn 10 47.50 -1.4
eSn 11 14.00IVA 1.93 358 iPnc 10 51.60 1.8
eSn 11 17 . 50VAY 1.99 78 ePn 10 50.30 -0.2NKY 2.01 339 «Pn 10 51.60 0.6
eSn 11 17.50LIT 2 . 08 1 13 «P 10 53 . 50 1.5
eS 1 1 21 .60KNT 2.21 83 «P 10 53. 90 0.1
eS 1 1 22. 40BRY 2.23 332 ePn 10 54.50 0.2
eSn 11 26.00AGG 2.63 136 eP 10 58.10 -1.7SRS 2.73 85 «P 11 00.60 -0.7PAIG 3.00 109 eP 03.90 -1.0CS 1 3.06 249 P 04. 70 -1 . 1MMN 3.23 252 P 07.60 -0.6CZ 1 3 . 42 241 P 11.80 0.9MGR 3.47 258 P 11.50-0.2SCO 3 . 57 265 P 1 2 . 90 -0.2
S . D . - 1 . 0 on 28 o f 29 obs .
APR 01, 1990 01h 22m 1 1 . 1 9± 0.68s40.005 N ± 6.0km 23.816 E ± 6.2kmDEPTH « 10.0km ( geophy s i c i s t )
GREECE (364)MD 3.4 (ATH) .
PLG 0.46 322 ePg 22 20.50 -0.1NEO 0.83 213 ePg 22 26.50 -0.8MMB .58 358 eP 22 39.00 -0.4KZN .60 282 ePg 22 14.60 -25. 0XVAY .62 325 ePn 22 40.70 0.8RDO .74 48 ePb 22 42.10 0.5RZN .81 22 iPc 2242.00 -0.9KKB .94 344 eP 22 44.00 -0.5PRK 2.04 111 ePb 22 47 . 00 1.0KDZ 2.04 36 IP 22 44.00 -2.0PLD 2.20 17 eP 22 48.00 -0.3DIM 2.42 32 eP 22 52 . 00 0.6OHR 2.55 297 ePn 22 58.00 4.7XPGB 2 . 56 6 eP 22 54 .00 0.6VTS 2.62 350 IP 22 55.00 0.5SKO 2.66 318 ePn 22 55.50 0.6JMB 3.23 39 eP 23 09.00 6.2XPVL 3.40 19 eP 23 02.00 -3.3X
S.D. - 0.9 on 14 of 18 obs.
APR 01. 1990 01h 53m 47.38± 1.01s37.817 N ± 8.0km 21.424 E ± 8.9kmDEPTH « 10.0km ( geophy s i c i s t )
SOUTHERN GREECE (368)ML 3.2 (ATH) .
ITM 0.75 148 ePg 54 02.10 0.0VLS 0.75 299 ePg 54 02.00 -0.1AGG 1.40 30 eP 5414.80 1.9
eS 54 36.40ATH 1.82 84 ePb 54 19.30 0.3
01d 01h
KEK 2.28 327 ePg 54 29.70 4.1X LIT 2.43 20 eP 54 29.30 1.6
eS 54 56.00 KZN 2.50 6 ePn 54 29.40 0.6 PAIG 2.75 39 eP 54 30.90 -1.4 FNA 2.96 359 «P 54 36.40 1.0 PLG 3.00 31 «Pn 54 34.50 1.3OHR 3.33 352 *Pn 54 39.20 -1.3 KNT 3.53 18 eP 54 42.90 -0.5 VAY 3.61 14 «Pn 54 45.00 0.5 SRS 3.78 26 eP 54 44.30 -1.5
«S 55 28 . 20 SKO 4.15 0 ePn 55 01.50 9.4X
S.D. - 1.2 on 14 of 16 obs.
APR 81. 1990 02h 50m 48.43± 8.68s 39.943 N ± 5.0km 23.932 E ± 5.4km DEPTH - 7 . 0 ± 3 . 4 km
AEGEAN SEA (365) ML 3. 5 (ATH) , 3.2 (THE) .
PAIG 8.19 265 iPd 50 21.08 -31. 5X eS 50 55.88
OUR 0.39 6 *Pc 50 56.20 -0.2 PLG 0.57 319 «Pg 50 48.20 -11. 7X NEO 0.84 221 ePg 51 04.10 -0.8 THE 1.81 313 ePc 51 87.20 -0.6
i S 51 21.10LIT 1.12 279 ePd 51 09.20 -0.5
eS 51 25.40 SRS 1.28 348 eP 51 18.60 -8.5
i S 51 25.68 KNT 1.45 327 eP 51 14.98 -0.2
eS 5134.00 AGG 1.54 234 eP 51 15.40 -1.0
«S 51 34.90 MMB 1.65 355 i Pd 51 16.00 -2.0 K2N 1.70 283 «Pn 51 18.00 -0.7 RDO 1.72 45 ePg 51 28 .80 1.2 VAY 1.72 323 iPn 51 18.00 -1.0 RZN 1.84 19 iPc 51 19.08 -1.9 ALN 1.87 59 eP 51 19.90 -1.3 PRK 1.94 118 ePn 51 25.70 3.6X ATH 1.97 185 «Pn 51 21.50 -1.1
KDZ 2.04 33 iPc 51 21.88 -2.6 FNA 2.13 294 eP 51 26.18 1.2 PLD 2.24 15 eP 51 11.80 -15. 4X DIM 2.43 29 eP 51 38 . 00 0.9 PGB 2.61 4 eP 5132.00 0.2 OHR 2.66 297 ePn 51 32.80 8.3
SKO 2.77 318 ePn 51 33.00 -1.0 ITM 3.18 210 ePg 51 51.30 11. 5X JMB 3.22 38 eP 51 48.88 7.7X PVL 3.44 17 eP 51 40.00 -3.4X CMP 5.38 8 ePc 52 14.80 2.9X MLR 5.74 14 eP 52 16.00 -8.2
S .D . - 1 . 8 on 23 of 31 obs .
& APR 01. 1990 03h 25m 55.96s 47 . 809 N 1 19 . 1 61 W DEPTH - 7 . 7km
WASHINGTON ( 29) . CL 2. 8 (SEA) .
SAW 8.19 237 PC 25 59.96 -0.2DHW2 0.45 294 Pd 26 04.26 -8.7 WTV 0.55 259 P 26 05.83 -1.1
S 26 13 .65 DPW 0.65 84 P 26 87 . 95 -1.0 ETW 0.82 256 P 26 10.83 -1.3 NLW 0.84 289 Pd 26 11.17 -1.3 WRD 0.84 179 P 26 11.19 -1.2 CRF 1.80 189 P 26 14.38 -0.7 VTG 1 . 02 214 P 26 15 . 20 -0.2 WAH2 1.89 195 P 26 16.01 -0.6 BVW 1.11 206 P 26 16 . 72 -0.4 TBM 1.17 237 P 26 17.68 -0.3 GBL 1.23 190 P 26 18.55 -0.5 MOW 1.26 199 P 26 18.81 -0.8 EBG 1.31 227 P 2620.67 0.2 WIW 1.38 184 P 26 21.33 -0.2 BRVW 1.44 203 P 26 22.23 -0.2 RSW 1.45 192 P 26 22.14 -0.5 MXC 1.45 212 P 26 21.57 -1.0
RPW 1.70 293 P 26 25.56 -0.6
RMW 1.82 260 P 26 26.66 -1.3 FMW 1.92 244 P 26 30.67 1.2 WPW 1 .97 237 P 26 31 . 10 1.0 LNOR 2.03 162 P 26 32.33 1.4 CMW 2.08 288 P 26 34.31 2.7
25 obs . ossocioted
APR 01, 1990 04h 05m 48.74± 0.56s 45.865 N ± 7.2km 15.869 E ± 4.5km DEPTH - 10.0km ( geophy s i c i s t )
YUGOSLAVIA (383) ML 2.5 (LJU). MD 3.0 (TRI). Felt ot Bistro ond Somobor.
PTJ 0.87 60 iPgc 05 51.30 0.1 e(Sg) 85 53. 68
ZAG 0.09 121 iPgc 05 51.40 0.0 i Sg 05 53. 18
VBY 0.56 230 ePg 85 59.60 -0.5 i Sg 06 07.00
LJU 0.95 281 iPgc 06 06.80 0.0 i 06 88 . 00 iSg 06 21 . 98
CEY 1.02 263 «Pg 06 88.48 8.4 «Sg 06 24 . 48
RIY 1.16 244 ePg 06 10.50 0.0 i Sg 06 26 . 60
VOY 1.39 278 ePn 86 14.50 0.3 eSn 06 34.50
TRI 1.48 265 ePg 06 15.40 0.0 i Sg 06 36 . 10
ZST 2.48 19 eP 86 36.88 7.8X SRO 2.57 40 e(P) 06 41.00 9 . 9X
e 07 19. 30 HVAR 2.72 171 i(Pn) 06 13.40 -19. 8X
i Sg 0654.18 KHC 3.62 335 iPn 06 45.60 -0.4
Sn 07 26.50 Sg 07 45 . 00
PRU 4.22 348 ePg 07 88.58 14. 0X eSg 08 13.50
GRF 4.95 322 e(Pg) 07 26.50 21. 7X «Sg 08 29.80
S.D. -0.3 on 9of 14 obs .
APR 01, 1990 05h 07m 36.18± 0.91s 68.061 N ± 6.5km 154.448 W ±11. 2km DEPTH - 18.0km ( geophy s i c i s t ) 3 . 6mb ( 1 obs . )
ALASKA (676) ML 4 . 0 (PMR) .
IMA 2.02 171 iPc 08 10.78 -0.1 BRW 3.36 347 e(P) 88 38.70 1.1 FBA 4.14 137 iPc 08 40.30 -0.4 TTA 5.19 188 eP 08 55.20 -0.5 PMR 6.88 158 eP 09 18.80 -0.5 TOA 6.92 146 eP 09 22.80 2.8 SVW 7.00 185 eP 09 20.00 -1.2
DWY 7.38 116 P 09 25.00 -0.3 INK 7.79 78 P 0933.00 1.0 MBC 13.25 37 P 18 45.00 -1.5 YKA 17.30 90 eP 11 37.90 -0.9
0.6s 2.98nm 3. 6mb S.D. -1.2 on 12 of 12 obs .
* APR 01, 1990 05h 29m 82.54± 0.91s 38.090 N ± 8.4km 21.645 E ± 9.1km DEPTH - 10.0km ( geophy s i c i s t )
GREECE (364) ML 3.1 ( ATH) .
VLS 0.84 276 iPgc 29 18.00 -0.7 ITM 0.94 166 ePg 29 20.00 -0.4
eSn 29 36.58 ATH 1.64 93 ePn 29 33.10 1.6
eSb 29 54 . 00 NEO 1.73 45 ePb 29 38.70 -2.2 KEK 2.17 319 ePb 29 40.50 1.3 KZN 2.22 2 ePb 29 40.80 0.9 PLG 2.67 31 ePn 29 47.00 0.6 OHR 3.09 348 ePn 29 53.50 1.3 VAY 3.30 12 ePn 29 55.00 -0.3 SKO 3.88 358 ePn 30 01.50 -2.8
S.D. -15 on 10of 10 obs .
* APR 01. 1990 07h 43m 12.08± 1.50s 34.415 N ±14. 2km 138.166 E ± 9.9km DEPTH - 41 .6 ± 1 1 .9 km 3.9mb ( 1 obs.)
NEAR S. COAST OF HONSHU, JAPAN (230)
IIDJ 1.08 349 iPd 43 38.60 -8.4
S 43 44.40 CHJJ 1.77 22 P 43 41 .20 8.5
S 44 03.60 TSRJ 2.11 303 P 43 45.40 -8.3 MAT 2.12 1 iPd 43 46.30 0.5
iS 44 12.28 WKYJ 2.14 266 P 43 46.10 0.0MTMJ 2.19 352 P 43 47.20 0.4
S 44 14.80 KAKJ 2.43 42 P 43 49.40 -0.7 Nl 1 J 2.9B 13 P 43 56. 90 8.0
eS 44 36. 10 TKSJ 3.44 264 P 44 05.00 0.5 YONJ 3.95 283 P 44 11.30 -0.4 MBC 59.77 16 eP 53 14.50 -8.2 YKA 67.38 29 eP 54 04.00 -0.9
1.0s 1 . 20nm 3 . 9mb LRM 77.86 42 eP 55 08.20 1.0 ZOBO 158.29 59 PKP 03 02.00 5.9X
S.D. -0.6 on 13 of 14 obs .
. APR 01, 1990 08h 26m 52.51± 8.93s 35.080 N ±10. 1km 45.493 E ± 8.6km DEPTH - 33.0km (normol)
IRAN-IRAQ BORDER REGION (346)
SLY 0.52 1 iPn 27 03.00 -0.4 iS» 27 04 . 58 iSn 27 09.00
KER 1.51 118 ePc 27 09.58 -8.2X BHD 2.02 207 ePn 27 25.00 0.1
e 27 29.00 iSn 27 55.80 i 28 01 .00
MSL 2.31 305 ePnd 27 29.00 0.0 iPg 27 34.50 iSn 28 83.50iSg 28 13.58
TAB 3. 06 12 eP 27 40.00 0.2 IR5 4.17 87 eP 27 55.80 -0.6 IR1 4.27 84 iPd 27 58.08 1.1 IR4 4.43 86 eP 27 57.08 -2.4 1 R2 4 . 45 81 eP 2801.58 1.9
S.D. -1.5 on 8of 9obs.
» APR 01, 1990 09h 15m 54.20± 0.95s 18.369 S ±16. 6km 177.844 W ±11. 3km DEPTH - 608 .4 ± 10.5 km 4. 4mb ( 13 obs. )
FIJI ISLANDS REGION (181)
VUN 3.53 275 eP 17 18.40 8.8WB5 45.06 260 eP 23 18.50 -8.8 WRA 45.08 260 PC 23 18.88 -0.7
0.6s 6 . 50nm 4 . 3mb ASPA 45.19 255 iPd 23 19.90 -0.4
1.1s 26 . 00nm 4 . 7mb iPcP 24 46.00 iS 29 16.08
MBL 58.39 256 eP 24 54.10 -1.1 0.4s 4 . 00nm 4 . 0mb
NANU 62.11 254 i PC 25 19.40 -0.1 MAT 68.59 323 i Pd 25 58.90 -8.5
0.8s I1.19nm 4. 4mb SPA 71.75 180 iPc 26 17.80 0.2
0.8s 11.67nm 4. 5mb PRS 76.19 44 eP 26 43.58 09 MHC 76.59 43 e(P) 26 45. 10 8.1 PLM 77 .63 49 P 26 51 .00 0.3 FRI 77.66 44 eP 26 50.90 8.4 PEC 77.71 48 P 26 50.50 -0.4 CMB 77.81 43 eP . 26 51 .40 0.1 WDC 77.95 40 eP 26 51.60 -0.4 MIN 78.38 40 eP 26 54.70 0.3 KVN 79.86 43 P 27 02.00 -0.2 TNP 79 .91 44 P 27 02. 70 0.2
8.7s 2 . 89nm 3 . 8mb PMR 82.92 13 P 27 16.10 -0.8
61d 09h
BJ 1PNT
PV09ALQ
ANMO
FBA
LRMBH06
GOL
RSSD1 NKYKA
KEVSODSUF
NURNB2
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KASKRA W 1 TI/ c pF. j r
SPCCLL
BRG
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MLRMOXPRUENN
MEMSROZST
GRF
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ABHDOUTODRUPFLN
CDF
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KBA
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FELHAU
LPF
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VOYVBYCEYTR 1LOR
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e.8484e.85851 .85e.860.8687e.88
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9192940 .1261281320 .1341360 .1370 .
1 421 .
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1 451 460 .
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1 471 471 47
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1481 48148148149e .
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1501501561511510 .
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8s. 49. 817s.62. 966s. 968s. 145s.98. 327s. 78 5s. 52. 19. 523s. 41. 56. 676s
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. 258s50
. 92. 93. 547 s. 69. 80.85
. 91
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6s. 74 8s. 806s. 939s
. 968s. 18. 248s. 308s. 376s. 75. 83. 87. 08. 1 48s.369s
1531534
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310
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352354
10425
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343341342343358
10358139
. 1 7nm«P«P. 00nmP«P. 50nmP. 99nmP. 7 4 ntn«PP. 09nmP . 1 6nm
PePd«P. 20nm«PKP«PKP«PKP. 68nm«PKPPKP. 88nmePKP. 90nmPKP. 60 nmi PKPcePKPA D If DC r IV r
6 P K P
. 80 nmi cePKPiPKPd. 08nmiPKP. 00nmePKP. 80nmePKP
2727
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. 30nmi PKPc. 00nmiePKP. 1 0nmePKPePKP. 75nmePKP. 50 ntnePKP. 40nmePKPePKPePKPePKPePKP. 75nmePKP. 25nm
3434
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3434343434
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2627
3132
29
31
3738
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575953
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2525 2725
272727
28
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08103032
32333208333833
3434343436
37
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4737
3839
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3940404040
4 1
0000
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80
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2060
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5090 5050
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60809070705050
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3030005080
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4 . 6mb0.90.5
4 . 5mbe. 0
-0 .64 . 1mb-2.8
4 . 1mb-1 . 1
4 . 8mb0 .6
-0 . 94 . 3mb
0 .2 4 . 3mb
-0. 8-0.7
-17 . 5X
3.3X1 .2
-0. 7
1 . 10.7
-10. 4X
-3 . 7X
1 . 40.9 2 . 5 X
-0 . 1
1 . 31 . 9
2. 3X
2 . 7X
-19 . 2X-17 .5X
2 . 7X4 . 0X
3 . 9X4 . 8X3 . 8X
4 . 5X
4 . 2X
4 . 4X4 .5X4 . 5X4 . 7X5 ") V. £ A
5 . 6X
5. 4X
5. 0X
5 .6X
5.5X6 . 2X
6 . 1 X
6. 0X
5 .6X6 . 6X6. 2X6.5X6. 7X
7 . 1X
LBF 151.42 357 «PKP 34 41.40 6.8X0.8s 67.1 5nm
AVF 151.64 358 «PKP 34 41.60 6.8X0.8s 2 . 70nm
MFF 151.78 3 «PKP 34 41.90 6.9X0.6s 7 . 20nm
TCF 152 . 16 360 «PKP 34 420.6s 31 . 55nm
LSF 152 . 19 1 «PKP 34 4!0 . 8s 94 . 05nm
MAF 152.22 359 «PKP 34 4]0.6s 2 . 70nm
1.00 7 . 4X
'.80 7 . 2X
1. 50 7 . 8X
BCAO 158.83 231 «PKPc 34 4(4. 00 -1.10.7s 3 . 00nm
S . D . -0.9 on 40 of 81 obs .
? APR 01, 1990 09h 28m 51.37± 0.99s31.292 S ± 9.7km 69.212 W ±10. 1kmDEPTH - 33.0km (normol)
SAN JUAN PROVINCE, ARGENTINA (137)
RTCB 0. 40 1 19 eP 29 0S 29 1!
RTBS 0.42 209 ePd 29 0S 29 1:
.00 1.4
. 40
.00 0.2
.80RTLL 0.64 94 ePc 29 0^.20 0.2
eS 29 1^.20RTCV 0.81 135 ePc 29 0$ . 30 -1.1
S 29 20 . 70CFA 0.89 111 iPd 29 06.90 -0.6
i S 29 23.00RTRS 1.14 349 ePc 29 10.90 -0.1
S . D . -1.1 on 6of 6obs.
? APR 01. 1990 10h 35m 1 2 . 30± 9.69s 12.070 S ±96. 9km 122.062 E ±30. 9kmDEPTH - 33.0km (normal)3 . 9mb ( 2 obs . )
SOUTH OF TIMOR
KNA 7.47 120 eP 37 0;eS 38 2'
MBL 9.29 193 eP 37 2(eS 39 0!
NANU 12 . 15 210 eP 38 0'0.3s 12. 00nm
eS 401'WB5 14 . 15 125 eP 38 3'
eS 40 5<WRA 1 4 . 1 6 1 25 P 38 3:
0.3s 0 . 50nmMEKA 14.84 192 eP 38 46
0.3s 11. 90nmASPA 16.11 137 i PC 38 58
0.5s 1 0 . 90nmeS 41 48
MRWA 17.97 197 eP 39 23COOL 18.74 182 eP 39 30BAL 19 . 10 194 eP 39 37MUN 20.53 194 eP 39 55
S . D . -1.5 on 9of
APR 01 , 1 990 10h 52m 3634 . 973 S ± 9 . 1 km 67 . 299DEPTH - 29.0 ± 10 . 4 km 4 . 5mb ( 2 obs . )
MENDOZA PROVINCE, ARGENTINAFelt (II) o t Mendoza .
CHCH 2.96 290 eP 53 23i S 54 03
(293)
.10 1.4
.00
.30 -0.7
. 00
.40 -1.75.6mb X
. 00
.20 -1.3
. 80
.00 -0.73 . 7mb
.40 4 . 8X4 . 7mb X
.40 0.34. 2mb
. 30
.00 1.6
.00 -0.8
.00 1.9
.00 4 . 4X1 1 obs .
. 28± 1.47sW ± 9 . 1 km
(139)
.20 0.8
. 50FCH 2.97 303 iPd 53 23.00 0.1
i 53 58. 70PCH 2.98 296 eP 53 23.00 0.2
i 53 59.00RTCV 3.27 341 ePc 53 27.00 0.2CFA 3.45 347 IP 53 29
S 54 24LNV 3.55 285 eP 53 29
i 53 38i 54 20
ZON 3 . 61 34 1 i Pd 53 31eS 54 21
RTCB 3. 70 340 eP 53 33RTBS 3.76 331 ePc 53 34RTLL 3.76 345 ePd 53 33LCCH 3.84 292 eP 53 42
.50 0.1
. 50
.00 -1.7
. 10
. 20
.00 -0.6
. 00
.20 0.3
.30 0.6
.70 -0.1
.00 7 . 2X
i 54 30.00RTRS 5.12 339 iPc 53 54.00 0.9ANT 11.55 346 «(P) 55 30.50 8.2XCCH 17.55 4 P 56 37.70 -3 . 1 XLPB 18.38 358 P 56 52.80 1.7
1.0s 64.00nm 4.7mbZOBO 18.64 358 Pd 56 54.80 0.3
1.0s 23. 75nm 4 . 3mbZ 20s 0 . 18um
LR 03 30.00SIV 19.71 18 P 57 05.80 -0.7BAO 25.90 47 «P 58 08.50 0.8KIC 71.74 68 P 03 58.00 0.0HYB 144.95 111 «PKP 12 13.00 0.3
S.D. - 0.8 on 17 of 20 obs.
APR 01, 1990 10h 55m 05.12± 0.90s40.358 N ± 9.4km 21.996 E ± 7.5kmDEPTH - 10.0km ( geophy s i c i s t )
GREECE (364)MD 3.3 (ATH) .
KZN 0.18 254 iPgc 55 09.00 -0.2VAY 1.06 24 «Pn 55 24.00 -1.0PLG 1.11 89 «Pg 55 25.70 -0.2
«Sg 55 41 .00OHR 1.18 310 iPn 55 26.30 -0.9
0.9s 0.1 2nmiSg 55 47.50Lg 55 51 . 70
NEO 1.41 138 «Pb 55 31.20 0.3SKO 1.67 346 «Pn 55 36.50 2.0KEK 1.81 250 «Pg 55 43.00 6.5X
S.D. -1.4 on 6 of 7 obs.
APR 01, 1990 11h 36m 39.67± 0.83s5.811 S ± 8.1km 129.826 E ±15. 2km
DEPTH -217.5± 8. 4 km4 . 8mb ( 2 obs . )
BANDA SEA (280)
AAI 2.66 322 «Pd 37 27.20 0.4MTN 7.11 170 eP 38 22.00 -0.2
eS 39 38.00KNA 9.93 186 «P 38 58.10 -0.7
eS 40 42.00WB5 14.67 163 «P 39 58.00 -0.4
e 40 05. 00eS 42 35.00
OIS 17.46 148 iPc 40 31.90 0.7eS 43 40.00
MBL 18.07 211 eP 40 37.30 -0.3ASPA 18.18 168 iPd 40 39.00 0.2
0.3s 15. 00nm 4 . 9mbIS 43 54 . 70
NANU 21.63 218 eP 41 14.60 1.20.3s 7 . 00nm 4 . 7mb
GUN 54.05 311 P 45 44.48 -0.1PK I 54.23 310 P 45 45.32 -0.5KKN 54.44 310 P 45 46.98 -0.2DMN 54.48 310 P 45 47.68 0.1GKN 55.04 310 P 45 51.22 -0.2
0.3s 28 . 00nm 5 . 4mb XS.D. -0.6 on 13 of 13 obs.
& APR 01, 1990 11h 38m 04.30s
36.812 N 121 .577 WDEPTH - 7 . 0km
CENTRAL CALIFORNIA ( 39) . ML 2.5 (BRK) .
SAO 0.12 114 iPd 38 06.80 -0.1GCC 0.40 303 eP 38 11.80 -0.6PRS 0.51 161 iPd 38 14.20 -0.3MHC 0.53 354 iPd 38 15.20 0.2
IS 38 23. 00ARN 0.54 4 i PC 38 1 5 . 10 0.0LLA 0.55 111 iPc 38 15.00 -0.3
eS 38 23. 10PCC 0.94 317 eP 38 21.30 -1.2PR I 0 .99 132 eP 38 23. 80 0.3BKS 1 . 19 334 e(P) 38 26.80 0.1PHAM 1.36 135 eP 38 28.00 -1.7FR I 1.51 83 eP 38 31 . 20 -0.5CMB 1 .55 38 eP 38 31 .40 -0.9KVN 3.54 50 eP 39 04 . 00 3.0
13 obs- associated
? APR 01. 1990 12h 04m 32.85± 2.48s 36.508 S ±17. 6km 149.322 E ±23. 6km DEPTH - 10.0km ( geophy s i c i s t )
NEAR S.E. COAST OF AUSTRALIA (603) ML 3. 4 (CNB) . 3.4 (RIV). 3.2 (TOO) .
CNB 1.19 2 i PC 04 55 . 20 0.1 eS 05 14 . 00
eS 05 15.80 BWA 2.21 340 iPd 05 09.00 -1.1
eS 05 43 . 00 RIV 3.07 30 e(P) 05 31.00 8.8X
eS 06 05.00 TOO 3.24 250 ePn 05 25.00 0.2
ePg 05 37.00 eSn 06 00.00 eSg 06 15.00
CMS 5.79 329 eP 06 04.60 3.8X eS 07 44.00
COO 6.29 21 e(P) 06 08.00 0.0 eS 07 44 . 00
S.D. -1.0 on 5of 7obs.
31.696 S ± 5.9km 72.028 W ±11. 8km DEPTH - 58 . 7 ± 1 0 . 7 km 4 . 9mb ( 2 obs . )
OFF COAST OF CENTRAL CHILE (134)
ROCH 1.54 146 iPd 07 29.00 -1.1 iS 07 48 . 00
JACH 1.56 129 iPc 07 29 50 -0.8
iS 0747.00 LCCH 1.82 168 iPd 07 34.50 0.8
iS 07 54 .50 SAN 2.10 147 iPc 07 37.90 0.2
iS 0803.50 TACH 2.16 155 iP 07 38.50 -0.1
iS 08 04 . 00 FCH 2.19 138 iP 07 39.00 -0.3
i S 08 05 . 00 RTBS 2.20 90 ePd 07 39.70 0.7 PCH 2.31 147 eP 07 40.50 -0.2
i S 0809.00 LNV 2.31 167 iPd 07 40.60 -0.1
i 07 52.50 i 0812.70
CHCH 2.51 153 eP 07 44.00 0.4 i S 08 15.00
RTRS 2.68 56 iPc 07 46.40 0.5 RTCB 2 . 76 87 iPc 0747.90 0.7
eS 08 35.00ZON 2.86 88 iPc 07 48.20 -0.4
eS 08 35.00 RTCV 2.98 94 ePc 07 51.00 0.8 RTLL 3.06 84 i PC 07 51.10 -0.3 CFA 3.23 89 iPd 07 53.90 0.1
eS 08 36 . 1 0 LPB 15.51 14 eP 10 55.00 13. 7X ZOBO 15.76 14 P 10 44.90 0.2
Z 22s 0 . 1 8um LR 1604.00
S I V 18.55 35 P 1117.50 -1.3 BAD 27.11 59 eP 12 42.40 -1.5 LIC 74 . 05 72 P 18 36 . 60 0.5 KIC 74.36 72P 1838.50 06
0.8s 1 0 . 00nm 4 . 8mb LKO 75.53 69 PC 18 45.22 0.6
0.8s 17.00nm 5. 0mbWRA 122.77 210 PKPd 25 58.10 2.5X
0.8s 1 . 20nm GBA 146.73 116 PKPc 26 42.50 2 6X
0.8s 5 . 50nm
S.D. - 0.7 on 22 of 26 obs.
% APR 01. 1990 12h 58m 15.35± 0.93s 31 118 S ± 9.3km 69.119 W ± 1 1 . 0 km DEPTH - 33.0km (normol)
SAN JUAN PROVINCE, ARGENTINA (137)
RTCB 0.46 143 iPd 58 26.50 1.1 RTLL 0.59 111 iPc 58 27.80 0.4
eS 5841.00
S 58 40.00 RTCV 0.89 146 eP 58 30.60 -1.0
S 58 46.00 CFA 0.90 123 iP 58 31.00 -0.6
S 58 46. 10 RTRS 0.99 343 i PC 58 32.90 0.0
eS 58 49.50 S.D. -0.9 on 6of 6 obs.
% APR 01, 1990 13h 04m 39.81± 4.97s 42.965 N ±17. 6km 1.141 W ±27. 2km DEPTH - 10.0km ( geophy s i c i s t )
PYRENEES (378) MD 2.0 (STR) .
80H 0.17 35 Pg 04 43. 68 0.0 Sg 04 45.65
ELYF 0.23 28 Pg 04 44.74 -0.1 Sg 04 47 . 61
ISSF 0.26 76 Pg 04 45.63 0.2 Sg 04 49.27
MADF 0.30 53 Pg 04 46.15 0.1 Sg 04 50. 10
ATE 0.34 69 Pg 04 46 . 98 0.1Sg 04 51 . 48
Sg 04 53.09 ESCF 0.43 75 Pg 04 48.47 -0.1
Sg 04 54.08 OGE 0.53 67 Pg 04 50.42 -0.1
Sg 04 57 . 44 JAU 0.57 82 Pg 0451.12 -0.4
S.D. - 0.2 on 9 of 9 obs.
APR 01, 1990 13h 50m 04.11± 0.94s 39.977 N ± 7.9km 23.885 E ± 8.0km DEPTH - 10.0km ( geophy s i c i s t )
AEGEAN SEA (365) MD 2. 9 (ATH) .
PLG 0.52 320 iPgd 50 14.00 -0.6 NEO 0.84 218 ePg 50 20.00 -0.4 MMB 1.61 356 ePd 50 33.00 0.3 KZN 1.65 282 ePb 50 34.00 0.6 VAY 1.67 324 ePn 50 34.00 0.4 RDO 1.72 47 ePb 50 35.60 1.4 RZN 1 .82 20 iPc 50 36 . 00 0.1 KKB 1.98 342 eP 50 38.00 -0.1 KDZ 2.04 34 iPd 50 37.00 -1.8 PGB 2. 58 5 eP 50 52. 00 5 . 4X VTS 2.66 349 eP 50 48.00 0.1 PVL 3.41 18 eP 51 20.00 21. 6X
S.D. - 1.0 on 10 of 12 obs.
* APR 01, 1990 13h 52m 22.80s 37 .270 N 121 . 625 W DEPTH - 6 . 0km
CENTRAL CALIFORNIA ( 39) . ML 2 . 7 ( BRK) .
MHC 0.07 349 iPd 52 24.80 0.0 ARN 0.11 43 iPc 52 25. 30 0.1 GCC 0.38 231 ePc 52 30.40 -0.1
iS 52 36.00 SAO 0.52 164 iPd 52 33.30 0.0 PCC 0.64 291 eP 52 34.50 -1.2 BKS 0.78 322 iPc 52 38.90 0.6 BRK 0.79 320 eP 52 37.60 -0.8 ZSP 0.84 324 ePc 52 38.90 -0.5 LLA 0.85 140 eP 52 38.50 -1.1 PRS 0.96 168 eP 52 40.40 -1.0
PRI 1 . 37 145 eP 52 47 . 20 -1.2 KVN 3.30 56 e(P) 53 20.00 3.8
13 obs. ossocioted
« APR 01, 1990 14h 48m 39.93± 1.06s
DEPTH - 10.0km ( geophy s i c i s t ) CENTRAL ITALY (381)
ARV 0.40 320 P 48 42.90 -5.2X eSg 48 51.50
ASS 0.48 256 P 48 49.00 -0.6 eSg 49 03.10
MNS 0 . 92 209 P 48 59 . 50 1.9
PGD 1.33 301 P 49 04.00 -0.6 eSn 49 25.00
SDI 1 .53 165 P 49 06.00 -1.4 eSn 49 32.50
RBL 3. 26 3 P 49 32.50 0.4 eSn 49 56.50
KBA 3.89 1 eP 49 41.50 0.3 e 50 26.00
? APR 01, 1990 15h 13m 38.81± 3.00s 46.232 N ±28. 7km 2.672 E ±17. 1km DEPTH - 5.0km ( geophy s i c i s t )
FRANCE (538) ML 1.7 (LOG).
MAF 0.07 262 Pg 13 40.70 0.1 Sg 13 41 . 50
TCF 0.33 280 Pg 13 45.30 -0.1 Sg 1349.10
BGF 0.35 20 Pg 13 45.90 0.1 Sg 13 50.80
AVF 0.73 40 Pg 13 53.30 -0.1 Sg 14 03.90
« APR 01, 1990 15h 38m 54 . 28± 1.09s 23.357 S ±19. 8km 111.733 W ±16. 7km DEPTH - 10.0km (geophys i c i s t ) 4 . 8mb ( 9 obs . )
EASTER ISLAND REGION (685)
LPB 41.45 89 eP 46 50.00 6.4X ZOBO 41.51 88 P 46 45 . 20 1.0
1.2s 12.84nm 4. 5mb Z 25s 0.28um 4.0MszX
LR 59 08.00 SI V 48 .07 91 P 47 35. 60 -0.7 ALO 58.19 5 eP 48 51.50 0.4
1.0s 2 . 50nm 4 . 2mb FRI 60.49 353 eP 49 07.00 0.4 TUL 60.84 15 eP 49 09.10 0.0
1.1s 8 . 40nm 4 . 8mb e 49 16 . 50 e 4922. 70
PV09 61.58 2 P 49 14.50 0.1 CMB 61.60 352 eP 49 15.20 0.9 OLY 61.61 19 P 49 14.00 -0.3 KVN 62.36 354 P 49 20.00 0.4 GOL 63.01 6 P 4924.00 0.1 FVM 64.22 19 P 49 31.00 -0.6
0.7s 1 0 . 88nm 5 . 2mb WDC 64.40 351 eP 49 32.60 -0.1 BLA 67 . 08 27 P 49 50 .00 0.0
1.2s 27 .27nm 5. 3mb RSSD 67.51 6 P 49 52.00 -0-9 LRM 68.85 359 eP 50 05.40 4.2X NEW 71.45 356 P 50 15.20 -1.5
1.0s 1 5 . 00nm 5 . 1mb PNT 72.68 355 eP 50 25.00 1.0
0.7s 4 . 00nm 4 . 6mb RSON 75.59 12 P 50 40.80 0.1
0.9s 9 . 29nm 4 . 8mb EDM 76.27 359 eP 50 45.00 0.5 YKA 85.58 359 eP 51 32.80 -0.7
1.0s 5 - 20nm 4 . 7mb INK 92.79 352 eP 52 07.00 -0.5 LZH 146.79 301 ePKP 58 37.00 0.1
1.5s 29 . 00nm CHG 151.05 267 ePKP 58 48.00 4 . 3X
S.D. -0.7 on 21 of 24 obs .
APR 01, 1990 16h 13m 05.35± 0.14s 24.358 N ± 3.0km 141.188 E ± 3.2km DEPTH - 208.0km ( 4 depth phoses) 5. 3mb ( 49 obs . )
VOLCANO ISLANDS REGION (213) CENTROID, MOMENT TENSOR (HRV)Doto Used: GDSN L . P . B . : 1 1 S , 23C Centroid Locotion: Origin Time 16:13:10.2 0.9 Lot 24.06N 0.10 Lon 140. 62E 0.05 Dep 202.7 3.8 Ho 1 f-du r o t i on 1.7 Moment Tensor; Scole 10*«17 Nm Mrr 0.11 0-05 MM--0.31 0.10
01 d 16h
WKYJPJG
GUMO
GUA
KAGJTKSJCHJJ
KAKJ
TSRJKUMJMAT
MTMJYONJN 1 1 JSHNJMRRJ
HOOJ
KUSJ
SSE
CVP
ASAJ
P 1 P
SZPBAG
PGP
HKC
PPRBJ 1
MN 1PMGLZH
KM 1
LOEMTNNSTCHG
BDT
KNAADK
Mff- 0.42 0.09 Mrt--0.29 0.06Mrf- 0.32 0.08 Mtf- 1.20 0.09
Principol Axes:T Vol- 1.31 Pig- 4 Azm-306N 0.03 71 206P -1 . 34 19 37
Best Double Coup 1 e : Mo- 1 . 3» 1 0» 1 7NPl:Strike- 80 Dip-74 Slip- -11NP2: 173 79 -164
10.97 335 eP 15 39.40 1.51 1 . 26 161 eP 1542.10 0.5
pP 15 47 . 801 1 . 26 161 eP 15 42. 20 0.50.9s 8 18 . 41 nm 6 . 1mb
eS 17 50.001 1 . 32 1 61 eP 1543.00 0.60.8s 668 . 66nm 6 . 1mb11.37 309 i P+ 1545.70 2.711.44 329 P 15 46. 40 2.61 1 . 80 351 P 15 44 .90 -3 . 6X
S 17 48 . 401 1 .84 356 P 15 45 . 50 -3 . 4X
S 17 50.5012.02 339 P 15 51 . 40 0.212.22 314 i P+ 15 57.70 4.0X12.41 349 eP 15 54 . 00 -2.20.7s 34 . 25nm 4 . 9mb
eS 18 00.0012.53 347 P 15 55 . 50 -2.312.70 330 eP 16 01 . 90 2.112 . 98 352 P 15 59 . 20 -4 . 1 X13.11 320 i P+ 1608.10 3 . 1 X18.02 360 P 1701.40 -1.8
S 20 15 . 5018.06 5 P 1703.90 0.3
S 20 14 . 8018 92 8 P 17 12 . 20 -0.3
S 20 35. 3018.92 295 i Pd 1713.50 0.80.9s 699.00nm 6. 2mb
i 1718.0019.24 254 ePd 17 16.40 0.4
eS 1752.0019.75 3 P 17 20. 90 -0.1
S 20 56 . 3020 . 07 257 i Pd 1725.00 0.70.7s 148.00nm 5.6mb20.50 255 ePd 17 29.60 1.020 . 86 252 eP 17 33 . 90 1.5
eS 21 12 . 0021 . 95 244 eP 1744.00 1.20.8s 3 1 . 00nm 4 . 9mb24.88271 i P 1812.20 1.6
eS 22 22.0025.85 240 ePc 18 25.00 5.4X26. 19 313 eP 18 21 . 50 -1.00.8s 78.00nm 5. 5mb
N 1 1 s 0 . 58umePP 18 58 . 00eS 22 36.00
27.73 217 ePc 18 35.70 -0.934 . 06 1 69 eP 1931.00 -0.834.12 299 i PC 1933.30 0.84.0s 400.00nm 5.4mb X
2 15s 0 . 50um 4 . 4MszXN 1 1 s 0 . 40um
pP 19 36.30 10kmXsP 19 37 . 50PPP 20 54.00S 24 43.00sS 24 50.00
34.85 279 iPc+ 19 40.00 1.22.0s 0 . 40nm 2 . 7mb X
sP 21 10. 50i 21 26 . 50S 24 56.00sS 26 06.00
37.41 267 eP 20 00.00 -0.238 . 26 196 iPd 20 05 . 60 -1.539 4 1 265 i PC 2019.00 2.339 . 56 270 i PC 2018.80 0.90.9s 49 . 37nm 5.1mb39.95 268 eP 20 20.00 -1.00.6s 1 2 1 . 50nm 5 . 6mb41 . 67 198 eP 20 34 .00 -1.042.17 38 e(P) 20 39 . 20 0.4
SNG1 PM
CTA
WB5
SHL
WRA
OIS
ASPA
GUN
PK 1
KKN
DMN
GKN
RMOWARB
SONBRS
ANMTTAND 1
KDC1 MA
COOLBRWHYBADEPMR
BALCANFBAM 1 DTOAGBA
MUNKODPOORKG
BOMODE
1 NK
SI TMBC
MA 1 0
PUZMNG
PGZKHZYKA
KEV
42.41 253 eP 20 41.80 0.6 e 25 26.0043.34 250 ePc 20 51.00 2.2 PGC 75.49 43 ePd 24 23.70 -4.4X0.7s 25.00nm 4.8mb 0.7s 81.00nm 5.6mb44.45 173 iPd 20 57.30 -0.2 MCW 75.87 43 P 24 31.30 1.01.0s 16.50nm 4.4mb GMW 76.30 44 P 24 33.90 1.2
i 21 39.70 BMW 76.40 45 P 24 34.20 0.844.47 189 iPd 20 56.90 -0.7 SOD 76.62 339 iP 24 32.90 -1.2
e 26 (19.00 e 25 43.00iScP 27 13.20 RMW 76.95 44 P 24 37.30 0.9
44.51 282 iP 20 !i8.30 0.1 SHW 77.15 45 P 24 38.80 1.2iS 27 16.50 LON 77.21 44 P 24 38.30 0.5
44.54 189 Pd 20 f'7.00 -1.1 PNT 77.60 41 ePd 24 40.50 0.70.5s 83.20nm 5.4mb 0.9s 99.00nm 5.5mb44.67 182 iPd 20 IB . 40 -0.8 FHC 77.95 51 eP 24 43.40 1.40.6s 28.00nm 4.9mb VGB 78.35 45 P 24 45.00 1.0
e 21 46.00 DAG 78.36 355 iPd 24 41.50 -2.048.26 189 iPd 21 25.80 -1.4 0.7s 9.59nm 4.6mb0.6s 52.00nm 5.1mb TAB 79.00 307 eP 24 49.00 1.1
Z 22s 0.31um 4.2MszX DPW 79.04 42 P 24 48.30 0.6iPP 22 12.70 WDC 79.05 50 iPd 24 48.50 0.6iS 28 67.50 SUF 79.27 335 iP 24 47.10 -1.5LR 39 26.50 0.5s 23.80nm 5.2mb
49.43 287 PC 21 26.88 0.2 PMO 79.47 112 iP 24 51.70 1.30.4s 182.00nm 5.9mb 0.8s 50.00nm 5.3mb49.90 286 PC 21 29.70 -0.5 LTCM 79.49 51 P 24 50.00 -0.20.6s 78.00nm 5.4mb NEW 79.53 42 P 24 51.00 0.649.98 287 PC 21 4(0.36 -0.3 pP 25 41.80 210km0.6s 106.00nm 5.5mb EDM 79.54 36 iPd 24 50.50 0.250.16 286 PC 21 41.80 -0.3 1.0s 102.00nm 5.5mb0.5s 72.00nm 5.5mb NWRM 79.62 53 P 24 51.00 0.150.50 287 PC 21 44.30 -0.3 TPT 79.70 112 IP 24 52.70 1.10.5s 96.00nm 5.6mb 0.8s 45.00nm 5.3mb51.07 171 eP 21 48.00 -0.6 MIN 79.80 50 ePd 24 52.00 -0.152.18 197 eP 21 56.00 -0.8 VAH 79.81 112 iP 24 53.00 0.80.4s 15.00nm 4.9mb 0.8s 15.00nm 4.8mb52.39 38 iPd 21 97.00 -1.0 RUV 80.00 112 iP 24 54.40 1.252.65 167 iP 21 59.90 -0.4 0.8s 25.00nm 5.0mb
e 22 03.50 ORV 80.19 51 ePd 24 54.00 0.0i 22 1J2.80 BRK 80.31 53 ePd 24 55.10 0.5eS 28 27.00 PCC 80.36 53 ePd 24 55.00 0.1
52.81 26 eP 22 01.60 0.6 GCC 80.83 54 ePd 24 57.70 0.456.26 29 iPd 22 26.00 -0.1 MHC 80.97 53 ePd 24 58.70 0.556.81 289 iPc 22 30.30 0.0 ARN 81.04 53 P 24 58.80 0.30.5s 49.30nm 5.5mb NUR 81.10 333 iP 24 56.80 -1.4
iS 30 07.00 0.6s 13.00nm 4.8mb57.14 36 iPd 22 31.50 -0.7 e 25 53.0057.93 26 iPd 22 37.70 -0.2 SAO 81.34 54 eP 25 00.20 0.2
i 23 27.50 PRS 81.57 54 ePd 25 01.90 0.758.19 200 eP 22 38.00 -1.8 CMB 81.60 52 iPd 25 01.80 0.458.26 20 ePd 22 39.70 -0.2 LLA 81.77 54 ePd 25 02.70 0.458.52 276 iPc 22 42.00 -0.4 SES 82.13 38 iPd 25 04.10 0.259.05 182 eP 22 45.50 -0.1 0.9s 121.00nm 5.6mb59.23 31 iPd 22 45.30 -1.3 PRI 82.17 54 ePd 25 05.40 0.91.0s 390.00nm 6.1mb PHAM 82.49 54 P 25 06.70 0.7
e 23 38.80 FRI 82.52 53 iPd 25 06.30 0.259.48 205 eP 22 45.00 -3.6X KVN 82.80 50 P 25 08.00 0.259.81 173 eP 22 51.00 0.1 BCH 83.00 55 P 25 09.00 0.360.17 28 eP 22 52.00 -1.0 SYP 83.35 55 eP 25 11.00 0.460.47 34 eP 22 55.20 0.1 LRM 83.48 42 iPd 25 21.70 10. 5X60.66 31 iPd 22 56.40 -0.1 ABL 83.78 55 P 25 13.00 0.260.79 272 PC 22 57.20 -0.7 TNP 83.84 51 P 25 13.00 -0.10.7s 24.90nm 5.0mb ISA 83.99 54 eP 25 13.00 -0.760.89 204 eP 22 58.00 -0.2 HPI 84.07 45 P 25 15.60 1.461.98 269 eP 23 05.60 -0.6 UPP 84.28 335 IP 25 12.40 -2.162.42 279 i PC 23 07.30 -1.4 FFC 84.53 31 iPd 25 16.00 0.162.49 203 iPc 23 11.60 2.8 0.6s 36.00nm 5.3mb0.5s 31.00nm 5.4mb CLC 84.56 53 iPd 25 17.00 0.563.24 280 eP 23 11.90 -2.1 PAS 84.86 55 eP 25 17.00 -1.065.18 293 eP 23 25.90 0.2 SBB 84.89 54 eP 25 18.00 -0.2
eS 31 55.00 MWC 84.92 55 eP 25 18.00 -0.565.89 24 ePd 23 23.20 -1.1 PTI 84.94 45 P 25 19.70 1.30.5s 24.e0nm 5.2mb 1 MW 85.35 44 P 25 21.90 1.366.42 36 ePd 23 3 * . 30 0.4 GSC 85.37 53 iPd 25 21.00 0.468.75 15 ePd 23 47.10 -1.0 RVR 85.53 55 eP 25 21.00 -0.30.5s 49.00nm 5.5mb HFS 85.57 337 eP 25 18.40 -2.669.62 301 iPc 23 5J.50 1.3 0.5s 11.00nm 4.9mb0.8s 11.35nm 4.7mb Z 20s 0.14um 4.4Msz
eS 32 4>.00 LR 56 42.0071.19 150 eP 24 0J.80 0.5 PEC 85.73 55 P 25 22.00 -0.372.09 153 P 24 07.90 -0.6 NB2 85.81 338 P 25 20.00 -2.20.4s 11.00nm 4 9mb 0.8s 5.70nm 4.4mb72.41 153 eP 24 09.90 -1.5 DUG 85.92 48 P 25 24.00 0.772.85 155 P 24 11.30 -1.6 0.9s 69.55nm 5.5mb74.97 28 eP 24.25.70 -1.2 PLM 86.19 55 eP 25 24.00 -0.80.9s 34.70nm 5.1mb KAS 86.30 314 iPc 25 25.30 0.375.26 341 iP 24 2!). 20 -1.3 TPC 86.46 54 eP 25 25.00 -0.90.6s 26.10nm 5.1mb BAR 86.64 56 eP 25 27.00 0.2
81 d 16h
BW86 86.79 44 P 25 27.48 -8.18.9s 6.78nm 4. 5mb
_ p 0 e * 7 e Q f) at 4 1. p r ^ b l/.bly ^ w 4 km DAU 86.86 47 P 25 28.48 8.4
pP 26 16.58 195kmXMSU 87.16 49 P 25 38.88 8.6GLA 87.85 55 i Pd 25 33.58 8.9FRB 89.13 13 eP 25 37.88 -1.8RSSD 89.47 41 P 25 48.48 8.1
pP 26 38.58 282kmSPC 89.89 326 e(P) 25 48.78 -1.4RSON 98.87 31 P 25 45.68 -0.7
8.9s 62.73nm 5. 6mbGOL 91.89 45 P 25 48.78 0.9
pP 26 41 . 80 21 5kmGLD 91.16 45 P 25 49.38 1.2SRO 91.76 326 eP 25 49.78 -8.7BRG 91.86 338 eP 25 49.88 -1.0CLL 91.98 338 i PC 25 50.10 -1.3ZST 92.13 326 eP 25 51.80 -0.3PRU 92.19 329 eP 25 51.80 -1.3ANMO 92.93 50 P 25 56.80 0.5
1.1s 22.1 5nm 5 . 2mbALO 92.93 50 ePd 25 56.80 -0.3
1.8s 21 . 50nm 5 . 2mbe 26 48.80
KHC 93.23 329 PC 25 56.60 -0.6
GRF 93.93 330 eP 26 80.00 -0.4OHR 94.59 319 eP 26 02.70 -1.0KIC 134.89 308 PKP 32 83.00 1.1TIC 134.89 309 PKP 32 83.00 1.1LIC 135.19 308 PKP 32 04.00 1.6ARE 148.44 82 ePKP 32 31.00 5.1XLNV 150.07 16 ePKPd 32 32.50 5.0XTACH 150.51 16 ePKPd 32 34.00 5.8XROCH 150.56 14 ePKPc 32 34.60 6.0XSAN 150.78 15 ePKP 32 34.50 5.9XPCH 150.87 16 ePKPc 32 34.60 5.7XFCH 151.10 15 ePKPd 32 36.70 7.2XZOBO 151.40 79 PKP 32 31.00 0.3
1.8s 31 . 25nmi 3237. 00
LPB 151.52 80 PKP 32 37.00 6.3XCCH 153.57 80 PKP 32 40.60 7.2XSIV 157.53 72 PKP 32 38.60 0.3
i 33 10 . 50
S.D. - 1.0 on 171 of 189 ob&.
? APR 01, 1990 17h 06m 20.21± 0.90s31.509 S ±11. 1km 69.002 W ± 8.3kmDEPTH - 33.0km (normal)
SAN JUAN PROVINCE, ARGENTINA (137)
ZON 0.28 98 iPd 06 30.30 2.5XeS 06 43.00
RTBS 0.41 248 iPd 86 30.00 0.5RTLL 0.49 69 i PC 06 31.90 1.2RTCV 0.53 132 e(P) 06 30.90 -0.4CFA 0.66 99 iP 06 32.50 -0.6
eS 0646.90RTRS 1.39 343 eP 06 42.80 -0.7
S.D -1.1 an 5of 6abs.
? APR 01, 1990 17h 46m 21.89± 4.03s33.719 S ± 9.9km 71.611 W ±29. 8kmDEPTH - 10.0km ( geophy s i c i s t )
NEAR COAST OF CENTRAL CHILE (135)
LNV 0.29 145 iPc 46 28.60 0.7iS 4635.80
TACH 0.57 84 iPd 46 34.60 1.2-i S 46 45 . 00
CHCH 0.83 105 iPd 46 36.80 -1.9
i S 4647.50SAN 0.84 72 iP 46 39. 30 1.2
iS 4653.00ROCH 0.90 34 iPd 46 39.00 -0.3
i S 4653.30PCH 0.92 84 iPd 46 39.00 -0.5
i S 4653.30FCH 1.17 71 iPd 46 43.60 -0.4
i S 47 01 . 50S.D. -1.4 on 7of 7 obs .
APR 01, 1990 17h 50m 08.52± 1.16s29.912 S ± 5.4km 73.044 W ±12. 4km
DEPTH - 33.8km (normal)OFF COAST OF CENTRAL CHILE (134)
RTRS 3.12 96 iPc 58 55.98 -8.6JACH 3.47 143 i PC 51 81.58 -8.1
iS 51 48 . 58ROCH 3.51 151 eP 51 12.98 18. 6X
i 51 59.58RTBS 3.55 128 ePc 51 83.88 1.2ZON 4. 18 1 15 eP 51 1 1 .88 8.5FCH 4.14 146 iPd 51 11.88 -8.3
iS 51 57 .88TACH 4.14 155 iPd 51 18.58 -8.5
iS 51 55. 88RTLL 4.19 111 iPc 51 11.88 -8.7LNV 4 . 26 161 eP 51 12. 98 8.2
iS 51 56 . 88PCH 4.28 158 iP 51 12.90 -8.2
i S 51 59. 58RTCV 4.33 118 eP 51 14.68 8.8CFA 4.47 113 iP 51 15.48 -8.4
S 5147. 58CHCH 4.58 154 iPc 51 16.38 8.1
iS 28 38 . 00ZOBO 14.31 19 P 53 32 .88 8.6SIV 17.69 41 P 54 13.38 -8.7
S.D. -8.7 on 14of 15 obs .
? APR 81, 1998 18h 81m 19.83± 1.28s28.878 N ±12. 5km 123.815 E ± 1 7 . 1 kmDEPTH - 33.8km (normal)3 . 8mb ( 1 obs . )
PHILIPPINE ISLANDS REGION (248)
TWG 3.28 308 ePc 02 09.40 0.4TWF1 3.39 317 ePc 02 16.50 4.7XCVP 3.68 211 ePc 02 16.50 0.8
eS 0257.00TWM1 3.70 302 iPc 02 15.10 -1.8
eS 02 31 . 50PIP 3.94 230 iPd 02 35 20 15. 7XSZP 4.58 224 iPc 83 24.88 55. 3XW85 41.80 165 eP 09 07 88 -1.1YKA 85.84 23 eP 13 54.80 0.9
0.6s 0.40nm 3. 8mbS.D. -1.4 on 5of 8 obs .
» APR 01, 1990 I8h 13m 52.73± 2.57s
15.729 N ±18. 8km 60.479 W ±24. 8km DEPTH - 33.0km (normal)
LEEWARD ISLANDS ( 92)ML 2 . 8 (FDF) .
MGG 0.83 283 eP 14 07.78 -0.2S 1417.78
SFG 8.87 387 eP 14 88.17 -8.3S 1418.78
BBL 8.98 258 eP 14 18.18 -8.2S 1422.28
DOG 1.14 286 eP 14 12.54 8.1FDF 1.18 213 iPc 1413.19 8.1
0.1s 1 . 45nmS 14 28.20
SEG 1.19 384 eP 1413.43 8.3 S 14 27 . 78
PAG 1.19 285 eP 14 13.42 8.2S 14 27 .38
MVM 1.24 199 iPc 14 13.69 -0.1S 14 29. 40
8IM 1 . 33 205 iPd 14 15 . 27 0.8S 14 32 . 28
SLB 1.97 196 eP 14 48.82 24. 3XS.D. -8.2 on 9 of 18 obs.
% APR 81, 1998 18h 42m 84 . 30± 1.36s48.971 N ±15. 9km 14.491 E ±21. 2kmDEPTH - 10.0km ( geo phy s i c i s t )
SOUTHERN ITALY (390)
BSS 0. 30 127 P 42 10. 88 8.3eSg 4217.40
DUI 0.69 358 P 42 18 . 08 8.0SCO 0.74 123 P 42 18.70 -0.2
eSg 42 29.18SO 1 0.89 326 P 42 21 . 50 0.8
eSg 42 35 . 50MGR 1.16 135 P 42 25.90 -0.1
«SgS.D. - 8. 2 on
APR 81 , 1996 I9h43.188 N ± 2 . 8kmDEPTH - 28.9 ± 3.
PYRENEES
42 41 . 285 a f 5 obs .
13m 32.64± 8. 37s1.418 W ± 3 . 5km
4 km r(378)
ML 3.8 (LOG). mbLg 3.7 (MOD),3. 6 (UCC) . MD 2.(IV) at St . JeanFranc*. Felt inBasque region ofSpain.
BOH 8.31 184 Pgsg
ELYF 8.31 92 PgMADF 8.44 94 Pg
sgISSF 8.48 188 Pg
SgATE 8.53 188 Pg
sgESCF 8.63 99 P
sgLHE 8.64 114 Pg
sgf\f*C ft C Q Q 1 Onu b t. w . o y y i "9
sgJAU 8.78 188 Pg
sgBTH 8.89 93 iPgECRI 8.98 235 iPc
eSEPF 1 . 38 96 Pn
SgLFF 2.35 41 Pn
pgsg
ETOR 2.41 192 ePeS
LPO 2.41 51 PnPgSg
EROO 2.72 149 ePeS
EBR 2.75 148 ePn
eSgP 1 F 9QQ 4. 4. P nnjr £. > y y ^ ̂ r n
Snsg
CAF 3.86 54 PnSn
GUD 3.25 228 ePeS
ETER 3 . 27 1 84 ePeS
MFF 3.54 14 PnPgSnsg
ECHE 3.68 174 ePeS
LSF 3.72 33 PnSnsg
TOL 3.84212 ePnePgeSni SbeSg
TCF 4.84 39 PnSnsg
MAF 4.16 42 PnSnsg
BGF 4.54 48 PnSnsg
EV I A 4.61 191 ePEPLA 4.68 238 eP
eSESEL 4.78 135 eP
eSLPF 4.86 3 Pn
Pg
9 (STR) . Fe I tPied de Port,
ports of theFrance and
13 39. 47 -8.813 44. 1 113 39.94 -8.313 42. 22 8.113 48.5513 42. 42 -8.413 49.1613 43.52 8.813 51 . 3913 45.82 -0.113 53.4213 44. 74 -0.713 53.47 13 46 . 38 0.213 56 . 8813 47 .92 0.213 59. 1713 49. 38 8.23 51 . 48 8.84 84.883 56. 78 1.84 1 6 . 88411.40 1.44 17 . 404 49.884 12. 28 1.2
14 43. 2814 12. 28 1.314 19.8814 51 . 8814 1 6 . 48 1.114 46 . 981 A *?*^ ft ft Q *>Y14 ^D.WW y . / A
15 82.5014 19 . 50 0.314 53.3015 87 . 2814 28. 48 0.214 56 . 5014 23. 40 0.415 88. 1014 26.40 3 . 3X15 07. 5014 28.88 1.014 40.5015 88.7815 26.8014 39.40 1 1 . 5X15 20. 7014 30. 00 0.515 11.0815 38.9014 31 . 00 -0.214 48 . 5815 22.5815 36. 0015 46 . 5014 33.60 -0.515 18. 6015 39. 2014 35. 10 -8.715 22. 2815 45. 3014 40 . 60 -0.615 31 . 8015 55.8014 42. 88 -0.314 42.50 -8.615 34 .0014 43. 40 0.015 34 . 8014 46. 28 0.615 05. 00
01d 19h
AVF
SMF
SSF
GRR
EBAN
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? APR 01. 1990 19h 25m 55.25± 1.08s 47.185 N ±11.4km 14.386 E ±11.7km DEPTH = 10.0km (geophysicist)
AUSTRIA (546) ML 2.8 (VKA), 1.9 (KBA). Fe I t (IV) o t Obe r Ze i r i ng .
KBA
R8L
VKA
KHC
PRU
%
0.
0.
1 .
2.
2 .
S.D.
APR 0141.164DEPTH -
SOUTHERN
BSS
DU 1SGO
SDI
MGR
AZ 1
%
0 .
0 .0.
0.
1 .
1 .
S.D.
APR 0141 .255DEPTH -
SOUTHERN
BSS
DU 1SGO
SDI
MGR
%
0.
0 .0 .
1 .
1 .
S.D.
APR 01
72
93
69
02
81
N
262
217
50
345
2
0. 0
1 990± 9.
iPgdiSgPeSgePgeSgiiPgSgePgsgon
1 9h7km
2626262626262626262627
4 of
29m
09 .1 9 .13.22 .25 .45 .47 .29 .56 .46 .20.
16 .14 . 801
1 0 . 0km ( geophy s iI TALY
37
5672
92
1 7
31-
N
179
3331 47
306
151
3090.2
1990±12.
PiSgPPeSgPeSgPeSgPon
19h1 km
29292929292929292929
6 o f
59m
24 .32 .28 .31 .42 .34 .48 .38 .56 .4 1 .
02 .15.018
10.0km (geophysiI TALY
49
5873
01
19
-
f
199
31*4
162
297
160
1 .2
1 990
PiSgPPeSgPeSgPeSgon
20h
595959595959595959
5 o f
30m
12 .18 .1 5 .16.26.20 .36 .23.40.
15 .
5060105000
50408010
50505 obs
78± 0E ±14cist)
0
0
0
0
5
.0
.0
. 0
. 0
. 5X
83s8km
(390)
30 -00
0
00 -0
1090605060 -2000
6 obs
05± 1E ±18cist)
0
0
0
0
. 1
. 2
. 2
. 2
. 1
. 0
60s3km
(390)
50200030 -3000 -0090 -305 obs
75± 2
0
1
0
1
0
.5
. 1
. 1
.2
. 3
51s
31.443 S ± 8.0km 68.178 W ±20. 8kmDEPTH - 18.0km (geophysicist)
SAN JUAN PROVINCE, ARGENTINA (137)
CFA 0.17 198 iPd 30 20.00 0.3eS 30 24s.90
RTLL 0.27 294 i PC 30 2RTCV 0.52 216 ePc 30 2
eS 30 3RTBS 1.11 258 eP 30 3
eS 30 5RTRS 1 . 68 319 e(P) 30 4
S . D . -0.4 on 5of
1 . 70 0.25.80 -0.45. 206.70 0.23.505.10 -0.2
5 obs.
% APR 01, 1990 21h 27m 45.87± 0.70s41.090 N ±10. 5km 14.731 E ±15. 6kmDEPTH - 10.0km (geophy
SOUTHERN ITALY
BSS 0.30 169 P 27 5eSg 28 0
DU 1 0.61 340 P 275 SGO 0.69 140 P 27 5
eSg 28 1SDI 0. 92 312 P 28 0
s i c i s t )(390)
2.60 0.49.60B.50 0.39.50 0.0 9 .903 . 50 0.0
eSg 28 18.00MGR 1.14 146 P 28 06|.80 -0.4
eSg 28 22J.70AZ 1 1 . 32 313 P 28 10.00 -0.3
eSg 28 30.00S . D . -0.4 on 6of 6 obs .
« APR 01, 1990 22h 24m 27-5l± 1.23s39 .945 N ± 9 .5km 23. 95DEPTH - 10.0km (geophy
AEGEAN SEA
PLG 0.58 318 ePb 24 3NEO 0.85 222 ePb 24 4MMB 1 . 65 354 eP 24 5RDO 1.70 45 ePn 25 0VAY 1 . 73 323 ePn 25 0RZN 1.83 18 eP 250KKB 2.03 341 iPd 25 0KDZ 2.03 33 eP 25 0 PGB 2.61 3 eP 25 1VTS 2 . 70 348 iP 251
E ±13 .0kmic i s t )
(365)
.50 -0.8
.00 0.01.00 1.3.00 3.7X.00 3.2X
1. 00 0.5
!.00 -0.1.00 -1.2 i.00 5.6X! .00 0.1
JMB 3.21 37 eP 25 2$. 00 6. IXS . D . -1.0 on 7 of 11 obs.
APR 01 , 1990 22h 31m 237 . 802 N ±11. 6km 13.16DEPTH - 10.0km (geophy
S 1 C 1 LY
CVT 0.32 247 P 31 2MCT 0 . 41 1 1 4 P 313
eSg 31 4ERC 0.51 297 P 31 3FA I 0 . 66 1 42 P 314LVI 0 . 68 286 P 313
eSg 31 4GIB 0.71 74P 313
eSg 31 5MNO 1.22 83 P 314MEU 1 . 57 1 16 P 315ATN 1.85 78 P 315
S . D . -1.5 on 9of
7 APR 01 , 1 990 22h 35m 442 . 859 N ±1 4 . 0km 1 47 . 02DEPTH - 33.0km (normal4 . 2mb ( 4 obs . )
OFF COAST OF HOKKAIDO, JAP
BJ I 23. 23 274 eP 40 5INK 47.22 30 eP 44 2GUN 50.98 274 P 44 4KKN 51 . 49 274 P 445YKA 56.59 33 eP 45 2
0.8s 0 . 50nmWB5 63.51 193 eP 46 1WRA 63.57 193 Pd 46 1
0.9s 2 . 00nmNB2 70.40 339 P 47 6
1.1s 3 . 1 0nmHFS 70.48 337 «P 47
t . 42± 0 . 75s) E ± 5.5kmi i C i S t )
(398)
J.80 -1.3?. 80 0.01 .205. 50 0.79 .00 2.43.30 0.43. 503 .60 0.29.407 . 20 0.09.20 -2.35 . 40 -0.1
9 obs .
3.20± 0.73s5 E ±1 4 . 8km
VN (225)
5. 00 -0.29.00 0.89.40 0.22. 80 -0.13 . 80 -0.9
3 . 6mb5.00 -1.33.20 1.4
4 . 2mb9 . 40 -0.1
4 . 3mb.20 0.3
0.4s 1 . 00nm 4 . 2mbS.D. - 6.9 on 9 of 9 obs.
? APR 02. 1990 00h 21m 25.85± 8.27s42.610 N ± 9.8km 18.239 E ±61. 6kmDEPTH - 18.0km (geophysicist)
YUGOSLAVIA (383)ML 2. 1 (TTG) .
HCY 0.25 130 iPgd 21 31.60 0.4iSg 21 35.00
BRY 0.37 38 ePg 21 33.20 -0.2eSg 21 38.00
BDV 0.54 127 iPgc 21 36.50 -0.4 iSg 21 43.30
NKY 0.59 70 ePg 21 38.50 0.5eSg 21 44.50
TTG 0.78 103 ePg 21 40.60 -0.4eSg 21 50.40
HVAR 1.43 294 i(Pn) 21 36.00 -15. 9XiSn 21 58. 10
S.D. - 0.6 on 5 of 6 obs.
? APR 02, 1990 01h 10m 37.84± 7.54s42.976 N ±37. 5km 1.811 W ±48. 5kmDEPTH - 5.0km (geophysicist)
PYRENEES (378)
BOH 0. 60 78 Pg 1049.94 0.1Sg 10 54.66
ELYF 0.63 72 Pg 10 50.37 -0.1Sg 1055.22
MADF 0.75 77 Pg 10 52.60 -0.2Sg 10 59.04
1 SSF 0.75 86 Pg 10 52.86 0.1Sg 10 59.75
ATE 0.82 82 Pg 10 53.97 -0.2Sg 1 1 01 . 85
ESCF 0.91 83 Pg 10 55.42 -0.4Sg 1104.14
OGE 1.00 78 Pg 10 57.65 0.4JAU 1.06 86 Pg 10 58.41 0.0
Sg 1 1 09 . 61S.D. -0.3 on 8of 8 obs .
APR 02. 1990 02h 36m 13.01± 0.81s35.373 N ± 8.0km 3.680 W ± 8.0kmDEPTH - 10.0km (geophysicist)
STRAIT OF GIBRALTAR (385)mbLg 2 . 9 (MOD) .
EMEL 0.60 97 iP 36 24.70 -0.3eS 36 32.00
TAF 1.18 118 iPg 36 36.00 0.9iSg 36 52.00i 36 55.00
MAL 1.48 337 ePn 36 44.00 4.4XEJ 1 F 1.81 307 eP 36 45.60 1.2AFC 1 .88 3 eP 36 44.20 -1.4
eS 37 08.00ENIJ 1.99 36 eP 36 47.00 0.0
eS 37 07.00EPRU 2.03 322 eP 36 50.70 3.1XI FR 2.20 213 iPn 36 49.50 -0.9
i S n 37 16.50i 37 1 7 .00
EBAN 2.79 358 eP 36 59.00 0.5S.D. -1.2 on 7of 9 obs .
» APR 02, 1990 03h 40m 44.58± 1.11s29.660 N ± 9.0km 138.150 E ±11. 1kmDEPTH - 492 .5 ± 12.8 km4 . 0mb ( 6 obs . )
SOUTH OF HONSHU, JAPAN (211)
MAT 6.86 0 (P) *2 30.00 -0.2CHTO 37.19 262 iP 47 14.70 0.6
0.9s 6.82nm 4. 2mbGUN 45.52 281 P 48 21 .40 0.2KKN 46.07 281 P 48 25.20 0.0GKN 46.56 282 P 48 28.80 -0.1WB5 49.39 185 eP 48 50.00 -0.1WRA 49.45 185 PC 48 50.30 -0.2
0.5s 1 . 70nm 3 . 7mbINK 62 . 19 25 eP 50 19.00 0.4MBC 64.34 15 eP 50 33.00 0.7YKA 71.56 28 eP 51 16.20 0.0
02d 03h
0.5s 0.90nm 3. 6mbSUF 73.34 334 eP 51 25.90 -0.5
0.5s 3.60nm 4. 2mbNFS 79.64 335 eP 52 00.00 -0.7
0.5s 3.90nm 4. 1mbNB2 79.89 337 P 52 01.80 -0.3
0.6s 3 . 1 0nm 3 . 9mb
S.D. - 0.5 on 13 of 13 obs.
? APR 02, 1990 03h 47m 48 . 1 9± 6.69s33.421 S ±17. 8km 72.917 W ±50. 9kmDEPTH - 10.0km ( geophy s i c i s t )
OFF COAST OF CENTRAL CHILE (134)
LCCH 1.13 93 iPc 48 09.00 -0.3IS 48 19 . 00
1 HA 1.14 70 eP 48 1 0 . 00 0.5IS 48 20.80
LNV 1.36 113 iP 48 13.50 0.3iS 48 29.50
ROCH 1.66 75 eP 48 17.10 -0.6eS 48 35.00
TACH 1.67 99 i PC 48 17.20 -0.4iS 48 35.00
SAN 1.89 92 iP 48 20.60 -0.2i S 4841.20i 4844. 00
CHCH 1.96 106 iP 48 21.80 0.0i S 48 45 . 00
PCH 2.02 96 iPd 48 23.00 0.3i S 48 47 . 00
FCH 2.20 88 iPd 48 26.00 0.4i S 48 52 . 00
S.D. -0.4 on 9of 9obs.
APR 02, 1990 05h 11m 20 . 1 3± 1.82s8.248 N ± 7.5km 127.058 E ± 8.6km
DEPTH - 46 . 8 ± 1 7 . 7 km4.8mb ( 11 obs.) 4.0Msz ( 1 obs.)
PHILIPPINE ISLANDS REGION (248)
DAV 1 . 87 232 eP 1 1 52 . 00 1.81 . 0s 1360. 00nm
BAG 10.29 323 eP 13 54.50 6.2XGUMO 18.27 72 eP 15 31.20 -0.8PJG 18.27 72 eP 15 31.00 -1.0MTN 21.34 169 eP 16 05.00 -0.5SSE 23.38 347 PC 16 27.50 2.0
1.0s 19.00nm 4. 5mbZ 20s 0 . 50um 4 . 0MszE 12s 0 . 20um
sS 20 40.00KNA 23.90 176 eP 16 31.00 0.3WB5 28.86 166 eP 17 15.50 -1.1
e 17 22 . 20WRA 28.92 166 Pd 17 15.10 -2.0
0.9s 1 . 40nm 3 . 6mb XCHTO 29.24 294 eP 17 19.20 -0.8
1.1s 1 1 . 78nm 4 . 5mbOIS 31.17 157 eP 17 36.00 -1.1BJ 1 33.12 345 eP 17 53.50 -0.4
0.9s 1 0 . 00nm 4 . 7mbLZH 34.87 326 eP 18 07.60 -1.7
Z 1 5s 0 . 30um 4 . 2MszXMRWA 38.74 196 eP 18 41.50 -0.3NWAO 42.00 192 eP 19 09.50 1.0GUN 43.48 302 P 19 20.82 -0.4
0.9s 69.00nm 5. 4mbPK 1 43 . 77 301 P 1922.76 -0.7
0.7s 20.00nm 5. 0mbKKN 43.94 302 P 19 24.02 -0.8
0.9s 28 . 00nm 5 . 0mbDMN 44.03 301 P 19 24.98 -0.6
0.9s 34 . 00nm 5 . 1mbGkN 44.55 302 P 19 28.68 -1.0
0.6s 1 4 . 00nm 5 . 0mbBWA 47.01 156 eP 19 50.10 1.2CAN 48.03 156 eP 19 58.60 1.8GBA 48.95 281 PC 20 03.20 -0.9
0.9s 3 . 80nm 4 . 4mb
MAIO 67.10 306 eP 22 11.00 -0.4KEV 85.79 340 eP 24 01.00 5.6XINK 85. 87 22 eP 2358.00 2.1MBC 87.50 13 ePd 24 05.80 2.1
1.0s 1 4 . 00nm 5 . 2mbpP 24 17.20 36kmX
SUF 87.70 333 eP 24 05.60 0.8
NUR 88.93 331 eP 24 13.00 2.2DAG 92.86 353 eP 24 28.00 -0.7YKA 95.27 24 eP 24 45.50 5.4X
0.7s 1 . 40nm 4 . 5mbZOBO 163.17 120 ePKP 31 23.00 3.0X
S.O. - 1 . 4 on 28 of 32 obs.
* APR 02, 1990 05h 16m 27.20± 2.07s34.037 S ±16. 9km 70.528 W ± 8.1km DEPTH - 10.0km ( geophy s i c i s t )
CHILE-ARGENTINA BORDER REGION (127)
CHCH 0.15 315 PC 16 31.50 0.9S 16 39 .50
PCH 0.42 2 PC 16 35.50 -0.2TACH 0.51 318 PC 16 37.50 -0.1SAN 0.59 349 PC 16 38.90 -0.3
S 16 53.00FCH 0.73 16 PC 16 39.50 -2.4
S 16 55. 00LNV 0.74 276 P 16 40.20 -1.4
S 16 55 . 00ROCH 1.14 339 Pd 16 48.40 -0.2
S 1710.00IHA 1.37 317 eP 16 54.00 1.7
i (S) 17 14. 60RTCV 2.74 38 e(P) 17 13.10 1.0ZON 2.93 33 eP 17 16.00 1.2CFA 3.10 39 e(P) 17 15.10 -1.9
eS 1 7 20 . 00RTLL 3.21 33 i Pd 17 19 .00 0.3RTRS 3.96 14 e(P) 17 30.70 1.4
S.D. -1.4 on 13 of 13 obs .
APR 02. 1990 05h 21m 02.71± 0.50s 43.900 N ± 5.4km 7.217 E ± 4.4kmDEPTH - 10.0km ( geophy s i c i s t )
NEAR SOUTH COAST OF FRANCE (379)ML 2. 0 (LOG) . 2.0 (STR) .
MVIF 0.05 265 Pg 21 03.56 -1.4AURF 0.08 99 Pg 21 04.72 -0.6TOUF 0.12 11 Pg 21 04.60 -1.2SBF 0 . 16 103 Pg 21 07 . 00 0.5
Sg 21 09 . 80AUTN 0.18 58 Pg 21 06.40 -0.5
Sg 21 10.34REVF 0.19 146 Pg 21 07.48 0.5
Sg 21 12.57SAOF 0.26 70 Pg 21 08.11 -0.1
Sg 21 12.01CALN 0.28 238 Pg 21 07.76 -0.9LMR 0.76 222 Pg 21 18.30 0.7
Sg 21 28. 10LRG 0. 76 235 Pg 2118.50 0.9
Sg 21 29.00LPG 1 . 63 348 Pn 2132.70 0.9
Pg 21 35.40Sg 21 59.70
LPL 1 . 65 348 Pn 21 33. 30 1.2Pg 21 36.00
S.D. - 1.0 on 12 of 12 obs.
* APR 02, 1990 05h 42m 42 . 36± 1.50s16.055 N ± 7.4km 61.208 W ± 1 1 . 6 kmDEPTH - 10.0km ( ge ophy s i c i s t )
LEEWARD ISLANDS ( 92)ML 1 . 9 (FDF) .
SFG 0.20 3 eP 42 46. 99 0.3S 42 49.50
DOG 0.39 267 eP 42 50.93 0.5SEG 0.45 321 eP 42 50.95 -0.5
S 4256. 00PAG 0.45 267 eP 42 51.59 0.0
S 42 57 .20BBL 0.59 206 eP 42 54.10 -0.2
S 43 02 . 60S.D. -0.6 on 5 of Sobs.
APR 02, 1990 05h 56m 09.76± 0.32s30.805 S ± 9.1km 177.729 W ± 7.6kmDEPTH - 51.8km ( 5 depth phoses)5 . 1mb ( 10 obs . )
KERMADEC ISLANDS (178)
PUZ 7.97 203 P 58 04. 20. -1.4
NOZMNGTCWTHZ
MS Z BRS
CNBCANBWARMO
TOOCTA
OISASPA
WRA
WB5SBAVNDAMTNCOOL
MUN SPA
NANUPRSPR 1PASPLM
RVRSBBFR 1TPC
CMBCLC
GSC
WDCM 1 NTNP
KVNALO
ANMO
PV091 D OL r D
RSSDYKA
MBCFRBSCHDAGSODSUF
NUR
NB2
BCAO
HFS
KHC
S 59 37.408.54 203 eP 58 13.00 -0.411.23 208 eP 58 45.20 -5 . 1 X12.23 210 eP 58 58.40 -5.2X13.28 212 eP 59 19. 10 1.5
eS 01 39.10*^fi£O*K^D Ct Ct 1 £i && A£t17. Bo ^ 1 D er 00 1O.00 W.0 25.96 270 iPd 01 41 .50 2.20.7s 1 6 . 00nm 4 . 7mb
e 01 49.00 27kmXeS 05 18.00
27 .87 252 iPd 01 59.90 3. 3X28. 17 252 iPc 02 01 .80 2.528.66 254 iPc 02 04.00 0.229.66 270 iPc 02 14.00 1.20.7s 61 . 00nm 5 . 4mb31 .02 247 eP 02 27.00 2.334.09 280 iPc 02 52.00 0.40.8s 1 29 . 1 0nm 5 . 9mb
eS 09 04.0039.58 275 iPc 03 37.60 -0.243.32 267 iPd 04 07.00 -1.50.4s 23 . 00nm 5 . 3mb
LR 21 43.8044.34 272 Pd 04 15.80 -1.00.4s 25.30nm 5.3mb44. 35 273 eP 04 15.50 -1.347 .65 184 eP 04 49 .80 7 . 6X47 . 71 186 e(P) 04 47 . 80 5 . 1 X50. 28 279 eP 05 01 .00 -2.251 . 87 253 iPc 05 14. 30 -0.90.3s 4 . 00nm 4 . 9mb55.58 250 eP 05 41 .20 -1.2 59.36 180 eP 06 13.40 4.5X
1.1s 1 9 . 05nm 5 . 1mb 59.44 260 eP 06 08.30 -1.485. 16 42 ePc 08 42.20 0.685. 44 43 eP 08 44. 20 1.185.59 46 eP 08 52.00 8.2X85.89 47 eP 08 45.00 -0.5
e 09 01 . 00 56km85. 98 46 eP 08 45 . 00 -0.786.17 46 eP 0847.00 0.386. 59 43 ePc 08 49. 10 0.586.89 47 eP 08 5 1 . 00 0.8
e 09 04.00 43km86.91 42 ePc 08 50.20 0.087 .05 45 eP 08 51 . 00 0.0
e 09 07.00 56km87. 20 46 eP 08 52.00 0.3
e 09 07.00 52km87 . 48 39 ePc 0853.10 0.387.82 39 eP 08 54.50 -0.288.78 43 P 0859.70 0.30.6s 4 . 1 7nm 4 . 9mb88.91 42 P 08 59 . 80 -0.293. 65 51 eP 09 22.00 0.01.0s 3 . 50nm 4 . 7mb
e 09 37.30 52km93. 65 51 P 09 22.50 0.50.8s 2 . 24nm 4 . 6mb93.99 47 P 09 23 . 50 -0.197 . 65 1 14 P 09 45.00 4 . 0X100.34 45 Pdiff 09 51.50 -0.8105.71 25 ePKP 14 26.20 -1.9X0.6s 0 . 30nm112.75 13 ePKP 14 40. 00 -1.1125.60 31 ePKP 15 04.00 -2 . 1 X126.41 42 ePKP 15 07.00 -1.0132.91 6 ePKP 15 17.00 -2.7X140.64 345 ePKP 15 23.00 -11. 4X144.57 341 iPKP 15 37.80 -3.5X0.6s 1 9 . 1 0nm146.77 340 iPKP 15 45.30 0.30.7s 44 . 00nm149.19 352 PKP 15 51.90 3.0X0.9s 25 . 50nm149.62 214 iPKPc 15 57.00 6.0X0.3s 38 . 00nm
ic 16 33.20149.69 349 ePKP 15 52.50 2.9X0.7s 20 . 40nm
Z 17s 0. I5um 4.9MszXLR 02 07.00
159.79 338 ePKP 16 04.10 0.6e 16 42 . 40
S.D. 1.1 on 40 of 56 obs.
10
APR 02. 1990 06h 20m 42.44± 1.13s4.691 S ±12. 7km 145.538 E ±10. 4km
DEPTH - 33.0km (normal)4 . 3mb ( 2 obs . )
NEAR N COAST OF PAPUA NEW GUINEA(200)
LAT 2.43 143 i Pd 21 21.40 0.7PMG 4.95 161 «P 21 56.00 -0.5UT M 1 ft 1~J 9 ** Q * P 9 A 1 9 ft ft Ct **Wlin fv. J f £. jy C r ^ f J^.Uv v . 3
WB5 18.61 215 eP 25 00.00 0.6WRA 18.68 215 Pd 24 59.90 -0.3
0.6s 10. 70nm 4 . 2mbASPA 21.95 210 «P 25 34.40 -0.8
0.7s 1 2 . 00nm 4 . 4mbINK 90.98 22 eP 33 44.00 -0.1
S.D.-0.7 on 7 o f 7 obs .
APR 02, 1990 06h 22m 57.68± 0.30s42.908 N ± 6.7km 146.870 E ± 6.2kmDEPTH - 33.0km (normal)4.8mb ( 35 obs.) 4.0Msz ( 1 obs.)
OFF COAST OF HOKKAIDO, JAPAN (225)
NIIJ 8.27 229 P 24 57.70 -0.5 KAKJ 8.46 220 «P 24 59.00 -1.8
«S 26 29.00CHJJ 9.16 224 eP 25 10.00 -0.5
S 26 49.70MAT 9.21 229 (P) 25 11.00 -0.3
0.8s 13. 43nm 5 . 2mb(S) 26 55.00
MTMJ 9.41 231 «P 25 16.00 1.9BJ I 23.11 273 «P 28 01.00 -0.5
1.5s 52 00nm 4 . 8mbN 16s e.58um
«S 32 14 . 00SSE 23.56 248 P 28 10.50 4.6X
1-2s 22 . 00nm 4. 5mbZ 20s 0 . 50um 4 . 0MszN 12s 0 . 30umE 14s 0 . 30um
eS 32 30.00LZH 33.60 273 «P 29 38.00 0.9
20s 33 . 00nm 4 . 9mbZ 14s 0 . 40um 4 . 3MszX
i 3024. 00SVW 38.31 41 eP 30 17.20 0.6IMA 39.49 34 «P 30 26.90 9.4
0.7s 1 7 . 90nm 4 . 9mbFBA 41.90 35 «P 30 48.30 2.2CHTO 46.86 254 eP 31 28.30 1.8
0.7s 4 . 1 3nm 4 . 5mbINK 47.23 30iPc 3128.20 -0.6MBC 49.68 18 «P 31 46.50 -1.2GUN 50.86 274 P 31 58.20 0.4
0.5s 24 . 00nm 5 . 4mb
KKN 51.37 274 P 32 01.58 0.10.6s 15.00nm 5. 1mb
PK 1 51.40 274 P 32 01.88 0.00.6s 7.00nm 4. 8mb
DMN 51.60 274 P 32 03.42 0.20.6s 13.00nm 5.1mb
GKN 51.72 275 P 32 04.50 0.4YKA 56.62 33 «P 32 38.20 -1.1
0.7s 1 . 50nm 4.1mbEDM 62.16 42 «P 33 18.00 9.2NEW 63.05 48 P 33 24.20 0.5WB5 63.53 193 «P 33 26.90 -0.1WRA 63.59 193 PC 33 26.70 -0.7
1.2s 4 . 80nm 4 . 5mbSUF 64.59 334 iP 33 31.90 -1.6
0.7s 7.40nm 4. 9mbGBA 65.83 266 PC 33 41.70 -0.3
0.6s 2 . 60nm 4 . 5mbFFC 66.50 36 «P 33 45.00 -0.9
0.7s 8.00nm 4. 9mbNUR 66.69 333 eP 33 45.90 -1.1LRM 67.06 48 «P 33 48.30 -1.7CMB 67.14 59 «P 33 50.80 0.5KVN 67.95 57 P 33 55. 80 0.3TNP 69 . 99 57 P 34 02 . 90 0.3
0.7s 4.78nm 4. 7mbFRB 70.05 16 «P 34 06.00 -1.7NB2 70.31 339 P 34 07.80 -1.7
0.7s 4.00nm 4. 6mbHFS 70.39 337 «P 34 08.30 -1.6
e.os o.eunm o . wmo BWee 70.61 49 P 34 11.80 0.0
0.7s 2 . 92nm 4 . 5mbPV09 73.67 52 P 34ANMO 77.66 54 P 34ALO 77.67 54 «P 34
0.9s 1 . 89nmCLL 77.97 332 i PC 34
0.9s 1 1 . 00nm KBA 81.41 330 i Pd 35
0.7s 6 . 70nme 35
SKO 82.28 322 eP 35OHR 83.26 322 «P 35FLN 84.30 339 eP 35
0.6s 3 . 60nm
30.80 0.653.50 0.853.00 0.3
4 . 1mb53. 10 -0.7
4 . 9mb i o fl A a o1 _ . 00 V . £
4 . 8mb26.5016 . 50 -0.522.70 0.627 .80 0.6
4 . 7mbLOR 84.43 336 eP 35 fe7.90 0.0
0.8s 5 . 35nm 4 . 8mb LBF 84.65 335 eP 35 29.10 0.0
0.6s 4.05nm 4. 8mbGRR 84.75 339 eP 35 29.80 0.4
0.6s 5 . 40nm 4 . 9mbSMF 84.99 335 eP 35 31.10 0.4
0.6s 4 . 50nmAVF 85.01 336 eP 35
0.6s 3 . 60nmLPL 85.08 333 eP 35
0.6s 2 . 70nmLPG 85.09 333 eP 35
0.6s 3 . 60nmLPF 85. 12 339 eP 35
0.6s 5 . 40nmMAF 85.76 336 «P 35
0.8s 6 . 05nmTCF 85.81 336 «P 35
0.7s 2 . 20nmLSF 86.04 337 eP 35
0.6s 1 . 80nmMFF 86 . 19 338 «P 35
0.6s 5 . 40nmS.D. - 0.9 on 55 of
% APR 02, 1990 07h 38m31 . 160 S ±10 .3km 68.9
4 . 8mb31 . 30 0.5
4 . 7mb32 .00 0.6
4 . 6mb32. 10 0.5
4 . 7mb32. 20 0.9
4 . 9mb35.40 0.8
4 . 9mb34. 70 -0.1
4 . 5mb36.60 0.6
4 . 5mb37 . 30 0.6
5.0mb56 obs.
31 . 92± 0 .93s79 W ±10 . 3km
DEPTH - 33.0km (normojl )SAN JUAN PROVINCE, ARGENTINA (137)
RTLL 0 . 47 111 iPc 38 [43 . 10 1.0RTBS 0.64 219 «Pd 38
S 38CFA 0.77 125 iPd 38
«S 38RTCV 0.791521 PC 38
S 38RTRS 1 .07 337 iP 38
S.D. -1.0 on Sot_____ _ _______ __- APR 02, 1990 08h 19m
1 0 . 066 S ± 8 . 2km 154 . :DEPTH - 33.0km (norm<4 . 9mb ( 10 obs . )
DENTRECASTEAUX ISLANDS RE
PMG 7.15 275 «P 21RMO 17 . 18 197 eP 23BRS 1 7 . 30 185 «P 23WB5 21 .63 241 «P 24WRA 21.68 241 PC 24
1.3s 32 . 00nmMTN 22.95 261 «P 24ASPA 23.76 233 iPd 24
1.0s 32 - 00nmZ 15s 6.1 0um
PPR 40.58 298 ePc 27MAT 48.79 343 (P) 28
1.2s 1 2 . 50nmCHTO 61.73 298 «P 29
1.0s 1 0 . 50 nmpP 29
GUN 76.19 302 P 310.9s 22 . 00nm
PK I 76. 48 302 P 311.1s 1 8 . 00nm
KKN 76.66 302 P 311.0s 1 6 . 00nm
DMN 76.74 301 P 311.1s 46 . 00nm
45.00 0.558. 0045.90 -0.559. 1046. 00 -0.756. 0050. 40 -0.2
5 obs .
34 . 10± 0 .59s75 E ±10 . 5km1)
G 1 ON (194)
20 .00 0.935.00 1.733. 50 -1.323 .00 -0.724 . 40 0.2
4 . 6mb36. 00 -0.745.80 1.2
4 . 8mb3 . 4MszX
13.00 0.520.00 1.9
4 . 8mb51 . 50 -0.6
4 . 9mb57.20 19kmX21 . 06 -0.6
5 . 2mb22 . 34 -0.9
5 . 0mb23. 22 -0.9
5 . 0mb24.06 -0.6
5 . 4mb
l»KN / / . *o JB* 1" Jl *O.** -l.B
1.1s 35 . 00nm 5 . 3mbPMR 83.83 24 eP 32 62.00 0.7FBA 86.18 21 eP 32 12.80 -0.2INK 92.79 21 «P 32 44.00 0.0YKA 99.32 28 eP 33 14.30 0.4
0.9s 0 . 70nm 4 . 2mbBAD 146.20 139 «PKP 39 15.70 2 . 9X
S.D. -1.0 on 19 of 20 obs .
7. APR 02, 1990 09h 28m 17.62± 4.14s18.599 N ±34. 2km 66.486 W ± 9.0kmDEPTH - 10.0km ( geophy s i c i s t )
PUERTO RICO REGION ( 90)
LRS 0.46 228 P 28 27.00 0.1S 28 37.00
PORP 0.56 195 P 28 28.80 0.2
SJG 0.58 147 iP 28 30.00 0.6S 28 42. 10
LPR 0.65 1 16 P 28 30.80 0.1CPD 0.78 136 P 28 32.20 -0.6
S 28 45.70S.D. -0.6 on 5of 5 obs .
APR 02, 1990 09h 34m 22.71± 0.86s35.616 N ± 9.1km 28.240 E ± 7.6kmDEPTH - 10.0km ( geophy s i c i s t )
EASTERN MEDITERRANEAN SEA (371)MD 3.7 (ATM).
ARC 0.61 351 iPbc 34 35.60 0.7KAP 0.87 266 iPnd 34 45.60 6.2XKSL 1.20 65 ePn 34 45.60 0.5CIN 1.98 356 ePn 34 56.00 -0.6
iSg 35 18.00NPS 2.17 261 ePb 35 10.00 10. 5XSMG 2.37 332 ePn 35 01.50 -0.7CSS 4.22 97 eP 35 28.20 -0.3VLI 4.43 286 ePn 35 32.00 0.5PRNI 7.74 131 «P 36 18.00 -0.1
S.D. -0.7 on 7 of 9 obs.
APR 02, 1990 09h 38m 58.11± 0.83s42.901 N ± 5.7km 146.898 E ± 4.4kmDEPTH - 38.5 ± 7 . 8 km5.0mb ( 46 obs.) 4.0Msz ( 2 obs.)
OFF COAST OF HOKKAIDO, JAPAN (225)
KUSJ 1.62 278 i P+ 39 24.40 -0.2«S 39 44.90
HOOJ 2.71 260 P 39 42.50 2.2eS 40 15.50
ASAJ 3.33 293 iP+ 39 50.70 1.7MRRJ 4.32 266 P 40 04.40 1.3
eS 40 55.90kllll fi O fl O T ft D A ft s 7 Q ft . ft 7NIIJ O./OiJUr 4WO/.5?v "~ V . f
KAKJ 8.46 220 P 40 58.80 -2.3S 42 28.60
CHJJ 9.17 224 P 41 08.80 -2.1S 42 47.80
MAT 9.22 229 «P 41 11.00 -0.71.0s 22 . 00nm 5 . 3mb
eS 42 54.00MTMJ 9.42 231 P 41 13.90 -0.6IIDJ 10.17 226 P 41 24.40 -0.3TSRJ 11.21 233 P 41 39.30 0.5BJ I 23.14 273 «P 44 01.00 -0.6
1.5s 1 05 . 00nm 5 . 1mbZ 18s 0 . 59um 4 . 1Msz
eS 47 56.00SSE 23.58 248 Pd 44 10.00 4.0X
1.0s 39 . 00nm 4 . 9mbZ 20s 0.50um 4.0MszN 16s 0.50um
sP 44 21 . 00eS 48 20.00esS 48 28.00
LZH 33.63 273 PC 45 38.00 0.81.5s 42 . 00nm 5 . 1mb
Z 15s 0.40um 4.3MszXE 15s 0 . 30um
TTA 38.21 38 «P 46 15.60 0.0SVW 38.30 41 «P 46 17.20 0.8IMA 39.49 34 ePc 46 25.40 -0.9
0.7s 29 . 30nm 5 . 2mbKDC 40.02 47 eP 46 29.70 -0.8
*
11
02d 09h
KM IPMR
FBACHTO
I NK
GUN
KKN
PK I
DMN
GKN
YKA
NO IKEVDAGPNT
SODEDMHYBNEW
WB5WRA
WDCSUF
MA I 0M I NPOOORVGBA
FFC
NUR1 p » tL fTM
CMBASPA
K VNFR 1TNP
FRBCLCNB2
HFS
BW06
SBBPASGSCRVRP LMTPCRSSDBARPV09GOLGLD
KRA
VR 1KSPMLRANMOALO
CLL
SCHPRU
40. 16 258 PC 46 33.50 1.141.42 41 P 46 41 . 50 -0.50.7s 7 . 56nm 4 . 5mb41.89 35 «Pc 46 46.10 0.246 . 88 255 i PC 4728.10 1.61.1s 22 . 08nm 5 . 0mb47.23 30 iP 47 28.30 -0.30.8s 30 . 00nm 5 . 3mb50 . 88 274 P 4758.12 0.30.9s 78 . 00nm 5 . 7mb51 . 39 274 P 4801.60 0.10.9s 53 . 00nm 5 . 5mb
51 . 42 274 P 4801.80 0.01.1s 50 . 00nm 5 . 4mb51 . 62 274 P 4803.46 0.21.0s 47 . 00nm 5 . 4mb51 . 74 275 P 48 04 . 04 0.01.2s 79 . 00nm 5 . 6mb56.61 33 eP 4837.70 -1.40.8s 4 . 50nm 4 . 6mb56.77 280 i Pd 48 40.80 0.159.44 339 eP 48 57.00 -1.860.26 356 eP 49 01.00 -3.3X61.08 48 eP 49 10.00 -0.30.8s 6 . 00nm 4 . 8mb61.18 338 eP 49 08.00 -2.762.15 42 ePc 49 16 . 70 -0.862.57 269 eP 49 20.00 -0.763.04 48 P 4922.50 -0.91.1s 1 4 . 8 1 nm 5 . 0mb63 . 52 193 eP 49 27 . 20 0.563 . 59 193 PC 4927.70 0.50.7s 6.70nm 4. 8mb64 . 28 58 ePc 49 32 . 00 0.464.61 334 iP 49 31. 50 -1.90.7s 6.30nm 4. 8mb64 .74 297 eP 49 35. 08 0.264.99 57 ePc 49 36.20 -0.365. 32 273 eP 49 37 . 00 -1.765 .52 58 e(P) 49 39 . 50 -0.265.85 266 PC 49 41.60 -0.40.8s 8 . 80nm 4 . 9mb66.49 36 iPc 49 45.00 -0.60.8s 1 3 . 00nm 5.1mb66.71 333 eP 49 45.70 -1.2 67 . 05 48 eP 4950.10 0.4
67.13 59 eP 49 50 . 50 0.567. 311 93 eP 4952.50 1.40.8s 6 . 00nm 4 . 7mb67 . 93 57 P 49 55 . 40 0.168.19 59 e (P ) 4956.80 0.269.08 57 P 5002.90 0.60.7s 7.33nm 4. 8mb70.05 1 6 eP 5006.00 -1.570 . 25 59 eP 5010.00 0.670 . 33 339 P 50 07 . 20 -2.20.9s 1 5 . 50nm 5 . 0mb70.40 337 eP 50 08.00 -1.80.8s 1 5 . 50nm 5.1mb70.60 49 P 5011.00 -0.61.0s 9 . 25nm 4 . 8mb70.82 60 eP 5013.00 0.270.94 61 eP 50 10.00 -3.5X71.08 59 eP 5015.C0 0.671.55 61 eP 5017.00 -0.172 . 28 6 1 P 5024.20 2.472 . 32 60 eP 50 22 . 00 0.272 .68 45 P 50 23.70 -0.372.84 61 eP 5026.00 1.273.66 53 P 5030.00 0.175.00 50 P 5037.80 0.275 . 05 49 P 50 39 . 00 1.30.8s 42 35nm 5 . 5mb76.48 328 i PC 50 45.20 -0.20.7s 38 . 00nm 5 . 5mb76.87 322 ePd 50 49.00 1.377.21 330 eP 50 49 . 00 -0.577.51 322 eP 50 52 . 00 0.677.65 54 P 5053.70 1.377 . 65 54 eP 50 53 . 00 0.61.0s 4 . 25nm 4 . 4mb77 . 98 332 i PC 50 53 . 10 -0.51.2s 26 . 00nm 5.1mb
i 51 00 . 8078.51 1 9 eP 5056.00 -0.578. 55 331 P 50 57 . 20 0.4
e 5104.50
EKA 78.88 343 P 50 59.00 0.50.8s 7 . 20nm 4 . 7mb
KHC 79.61 331 iPc 51 03.00 0.30.9s 6 . 00nm 4 . 6mb
KBA 81.43 330 i PC 51 12.50 0.00.9s 1 0 . 80nm 4 . 8mb
id 51 13.20SKO 82.30 322 iP 51 17.60 0.7VAY 82.30 321 eP 51 17.20 0.4CDF 82. 37 334 eP 51 17.30 0.1
0.8s 5.35nm 4. 6mbTUL 82.97 47 eP 51 09.00 -11. 5X
0.7s 3 . 1 0nmOHR 83.27 322 eP 51 22.00 0.0FVM 84.13 42 P 51 26. 40 0.1
0.8s 1 2 . 1 2nm 5 . 1mbLOR 84.45 336 eP 51 27.80 0.0
0.6s 4 . 95nm 4 . 8mbLBF 84.66 336 eP 51 28.80 -0.1
0.8s 6 . 70nm 4 . 9mbSSF 84.74 336 eP 51 29.30 0.1
0.8s 6 . 05nm 4 . 8mbSMF 85.01 335 eP 51 31.00 0.4
0.8s 12.1 0nm 5 . 1mbAVF 85.03 336 eP 51 31.00 0.4
0.8s 8 . 05nm 5 . 0mbLPL 85.09 333 eP 51 32.00 0.7
0.6s 3 . 60nm 4 . 7mbLPG 85.10 333 eP 51 31.90 0.5
0.8s 9 . 40nm 5 . 0mbBGF 85.39 336 eP 51 33.30 0.8
0.8s 6.70nm 4. 9mbCKI 85.52 332 P 51 26.50 -6.7X
eSg 51 28.50MAF 85.78 336 eP 51 35.20 0.8
0.8s 16.10nm 5. 3mbTCF 85.82 336 eP 51 35.40 0.7
0.6s 2.70nm 4. 6mbLSF 86.06 337 eP 51 36.50 0.7
0.8s 13. 45nm 5 . 2mbMFF 86.21 338 eP 51 37.30 0.8
0.8s 10. 75nm 5 . 1mbSIV 144.08 50 PKP 58 30.80 -0.8BAD 149.98 30 ePKP 58 58.20 17. 0X
S .0. - 1 . 0 on 97 of 103 obs .
APR 02, 1990 10h 45m 23 . 69± 0.52s47.173 N ± 6.3km 11.329 E ± 4.2kmDEPTH - 10.0km ( ge ophy s i c i s t )
AUSTRIA (546)ML 3. 1 (KBA) , 3 . 0 ( LOG) .
OGA 0.37 214 iPgc 45 30.10 -1.2OSS 0.95 240 ePc 45 40.50 -1.4FUR 0.99 358 i PC 45 43.60 1.0CT I 1.15 169 P 45 44.50 -0.7
eSg 45 56.00FVI 1.15 120 P 45 44.50 -0.7
eSg 45 58.50BHG 1.19 62 iPc 45 45.20 -0.6SAX 1.35 274 ePc 45 49.30 0.4KBA 1.38 93 iPgc 45 47.30 -1.8
iSg 46 04.60i 46 06.00e 02 32.00iSg 03 09.30
VDL 1.45 242 ePc 45 49.40 -0.7LLS 1.62 260 ePc 45 54.30 1.7SAL 1 . 66 200 P 45 55.00 2.1
eSg 46 15.50RBL 1 . 70 1 1 5 P 45 55 . 00 1.3
eSg 46 12.00MDI 1 . 79 219 P 45 58. 00 3. 2X
eSg 46 21.20TMA 2.00 239 ePc 46 01.70 3.6XSLE 2.01 288 ePd 45 59.00 0.9ZLA 2.02 280 ePd 46 01.40 3.1XVOY 2.10 122 ePn 46 00.70 1.2
eSn 46 29.00VA 1 2.20 234 P 46 06.00 5.3X
eSn 46 33.00MMK 2.58 245 ePd 46 08.40 2.0D IX 2.91 249 ePd 4612.70 1.5CDF 3.00 296 Pn 46 12.10 -0.1
Pg 46 21 .00Sg 46 58.80
BSF 3.15 284 Pn 46 14.00 -0.3
Sg 47 03.20EMS 3.23 252 «Pd 46 16.30 0.8HAU 3.47 286 Pn 46 18.80 -0.1
Sg 47 14.20LPG 3.59 244 Pn 46 21.40 0.6BNI 3.87 238 P 46 30.00 5.4XSMF 5.16 267 Pn 46 41.30 -1.5AVF 5.47 269 Pn 46 46.00 -1.2BGF 5.85 267 Pn 46 51.00 -1.5MAF 6.10 264 Pn 46 54.20 -1.9
S.D. - 1 . 3 on 25 of 30 obs.
it APR 02, 1990 11h 13m 22.98s48.832 N 122. 188 WDEPTH - 0.8km4 . 2mb ( 8 obs . )
WASHINGTON ( 29). CL 4.3 (SEA). Slightdamage (VI) ot Deming. Felt (V)ot Nooksock; (IV) ot Acme,Everson, Ferndale, Glacier,Lynden, Maple Falls and Sumos;(III) at Bellingham. Also feltin the Abbo t s f o r d-M i ss i on areo,British Col umb i o .
MBW 0.20 1 04 P 13 27 .53 0.6VDB 0.20 16 Pd 13 27 .72 0.7CMW 0.41 174 PC 13 30.73 -0.5MCW 0.45 251 Pd 13 31.50 -0.5HNB 0.51 330 P 13 32.52 -0.7OHW 0.56 204 P 13 33.49 -0.6RPW 0.59 130 Pd 13 34.14 -0.6SNB 0.65 265 Pd 13 35.29 -0.7JCW 0.66 165 Pd 13 35.39 -0.8PGC 0.86 258 P 13 38.00 -2.1VGZ 0.86 241 Pd 13 38.32 -1.9BIB 0.93 308 Pd 13 39.65 -1.9BLN 0.98 213 Pd 13 40.90 -1.5BLH 1.00 174 Pd 13 42.00 -0.8PGW 1.05 195 P 13 42.57 -1.0WPB 1.06 321 Pd 13 41.89 -2.0HTW 1.07 165 Pd 13 42-65 -1.3STW 1.20 236 Pd 13 44.13 -2.0NAB 1.26 289 Pd 13 44.97 -2.2 SPW 1.28 182 ePc 13 47.25 -0.3
HDW 1.32 206 Pd 13 46.20 -2.1SHB 1.35 305 Pd 13 46.68 -2.1
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