open file report 86-551l · 2010. 12. 17. · united states department of the interior geological...

UNITED STATES DEPARTMENT OF THE INTERIOR

GEOLOGICAL SURVEY

EARTHQUAKE DATA REPORT December 1985

NATIONAL EARTHQUAKE INFORMATION CENTER

Open File Report 86-551L

This report is preliminary and has not been reviewed for conformity with U.S. Geological Survey editorial standards

EDR No. 12-85 U. S. DEPARTMENT OF THE INTERIORMay 29, 1986 .P. 1-142 Part 1 of 2 Geological Survey

EARTHQUAKE DATA REPORT

The Earthquake Data Report (EDR) is issued to those individuals and organizations having a special need for information used in the preparation of the Preliminary Determi- nation of Epicenters (PDE) monthly listing.

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 incorporating Baysian information to stabilize estimates derived from small sam- ples (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"1 . The geophysicist may restrain the depth at any value indicated by evidence from available seismograms. These are indicated by, for example, "DEPTH = 100 KM (GEOPHYSI- CIST)". 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 (mb) 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 magnitudes are computed according to the formula log(^/T) + Q, derived by Gutenberg and Richter (1956), where A is 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) + 1.66 log(A) -(-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 ac :ount 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 (/xm) 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.

Hypocenter Symbols

& Indicates that parameters of the hypocenter were supplied or determined by a ccmpu- tational procedure not normally used by the National Earthquake Information Service (NEIS). The source or nature of the determination is indicated by a 2 to 5 letter code enclosed by angle brackets and appearing in the first line of comments. A "-P" ap- pended to the code indicates that the computation is preliminary. These codes are included with the list of abbreviations in the PDE Monthly Listing.

% Indicates a single network solution. A non-furnished hypocenter has been computed using data reported by a single network of stations for which the date and/or origin time cannot be confirmed from seismograms available to a NEIS analyst. Also, if we define rj to be the geometric mean of the semi-major and semi-minor axes of the horizontal 90% confidence ellipse, then T? < 16.0 km.

* Indicates a less reliable solution. In general, 8.5 < 77 < 16.0 km.

? Indicates a poor solution, published for completeness of the catalog. In general, r/ > 16.0 km. This includes poor solutions computed using data reported by a single 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 as """.

References

Bolt, Bruce A. (1968), Estimation of PKP Travel Times, Bull. Sets. Soc. Am., 58, pp. 1305-1324.

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, Sets. Soc. Am., 71, pp. 1105-1130.

* DEC 81. 1985 eeh 24m 57.12± 1.84*23.391 N ±11. 5km 121.723 E ±18. 1kmDEPTH - 26.8 ± 7.9 km

TAIWAN (244)

TWF1 0.39 264 IPc 25 06.00 0.3 S 25 11.50

TWO 0.70 350 IP 25 10.00 -0.6«S 25 19.00

TWG 0.83 227 iPc 25 12.50 -0.3TWK 1.14 264 IPc 25 17.50 0.1TWO 1.20 317 IPd 25 18.00 -0.2TWC 1 .22 5 iPc 25 18.50 0.1TATO 1.59 352 «(P) 25 24.30 0.5TWZ 1.70 356 «Pc 25 25.50 0.1

S.D. - 0.4 on 8 of 8 ob» .

? DEC 01, 1985 eeh 43m 33.04± 6.53*20.528 S ±63. 1km 178.111 W ±63. 1kmDEPTH - 628.2 ± 57 .8 km4 . 8mb ( 2 obs . )

FIJI ISLANDS REGION (181)

DZM 14.48 261 iPc 46 37. Oe 1.3CTA 33.38 264 iPd 49 23.00 -6.5

0 . 6» 1 7 . 67nm 4 . 9mbPMG 35.25 283 «P 49 38.00 -0.9ASPA 44.41 257 i Pd 50 51.90 -0.1WB2 44.48 262 IPd 50 51.40 -1.2WBN 50.78 253 «P 51 39.00 -0.7NAU 61.32 255 «P 52 52.00 0.2COL 88.29 12 «P 55 18.00 -0.7CHG 90.15 290 IPc 55 31.80 2.5

0 . 6» 7 . OOnm 4 . 8mbCLL 148.66 347 IPKP 02 11.40 S.2XBRG 148.26 345 i(PKP)02 12.00 5.5XPRU 148.93 344 PKP 02 13.80 6.2XKHC 149.97 345 PKP 02 16.20 7. OX

02 24.40S.D. -1.5 on 9 of 13 obs .

DEC 01, 1985 OOh 47m 41.89± 0.50s42.283 N ± 5.0km 19.950 E ± 4.3kmDEPTH - 10.0km (gcophys i c i t )

YUGOSLAVIA (383)DUR 2.8 (TTG) .

PVY 0.31 3 iPgc 47 48.30 -0.1ISg 47 53.8e

TTG 0.53 286 «Pg 47 51.30 -1.3isg 48 ee.se

IVA 0.59 356 «Pg 47 53.50 -0.4«Sg 48 02.86

ULC 0.61 239 «Pg 47 54.20 0.0eSg 48 03.40

BDV 0.83 270 «Pg 47 58.00 0.0«Sg 48 1 1 .00

NKY 0.88 307 «Pg 47 58.50 -0.4«Sg 48 12.ee

HCY 1.09 279 «Pg 48 02.70 0.4«Sg 48 19.50

PLE 1.12 339 «Pg 48 03.60 0.6«Sg 48 21 .50

SKO 1.15 105 IPn 48 02.40 -1.0BRY 1.21 301 «Pg 48 04.30 -0.2

«S 48 24.eeOHR 1.33 151 «Pn 48 06.90 0.4VAY 2.18 115 iPn 48 19.20 0.5CEY 5.27 313 «(Pn) 49 05.00 2.4X

«Sn 50 09.40VOY 5.75 313 «Pn 49 11.00 1.6

«Sn 50 19.eeS.D. -0.8 on 1 3 of 14 obs .

DEC 01, 1985 Olh 05m 49.63± 0.67«44.615 N ± 4.9km 111.100 W ± 9.1kmDEPTH - 5.0km ( g« ophy s i c i s t )

HEBGEN LAKE REGION (458)ML 2.8 (NEIS) .

IMW 0.73 171 «P 06 03.90 -0.3CCMT .30 284 «P 06 15.20 0.9LCCM .34 336 «P 06 14.90 -0.1TMI .44 205 «P 06 16.00 -0.6SXM .54 357 «Pn 06 17.70 -0.2LRM .54 322 «Pn 06 18.40 0.4HPI .70 239 «P 06 20.70 0.4

BUT 1.74 324 «Pg 06 22.80 2.0X Sn 06 44.20

BDW 2.15 148 «P 06 27.40 0.6HRY 2.16 347 «Pn 06 27.50 0.6NEW 5.53 313 «(P) 07 13.00 -1.7

S.D. - 0.9 on 10 of 11 obs.

DEC 01. 1985 01h 08m 53.48± 6.66s44.627 N ± 4.5km 111.054 W ± 8.3kmDEPTH - 5.0km ( g«ophy s 1 c i s t )

HEBGEN LAKE REGION (458)ML 3.8 (NEIS) .

IMW 0.73 174 iPc 09 07.70 -e.5CCMT 1.33 283 iPd 09 18.80 0.2LCCM 1.34 335 «Pd 09 18.70 -0.1TMI .46 206 «P 09 20.00 -0.8SXM .53 356 iPnd 09 22.10 0.5LRM .55 321 iPnd 09 22.20 0.2HPI .73 239 «P 09 24 .80 0.1BUT .75 323 «Pg 09 26.00 1.2

Sn 09 46.70BDW 2.14 149 «P 09 31.00 0.4HRY 2.15 346 «Pn 09 30.06 -0.7LDM 4.83 324 IPd 10 08.00 -0.6

«S 11 26.70MFW 5.34 286 «P 10 17.20 1.3NEW 5.55 313 «P 10 17.00 -1.8

Lg 11 45.00SES 5.77 e «P 10 38.ee 16. 1XBMN 6.19 230 «P 10 37.00 9.1XPV09 6.29 166 «P 10 36.00 0.5EUR 6.31 217 IP 10 35.50 5 . 8X

e.2s 6. 14nm 5. 1mb XPNT 7.50 312 «P 10 54.00 7 . 8XYMT3 8.82 209 «P 11 15.00 10. 3X

S.D. -0.9 on 1 4 of 19 obs .

DEC 01. 1985 01h 37m 01.76± 0.52s51.601 N ±11. 8km 174.521 W ± 5.3kmDEPTH - 33.0km (normal)4 . 8mb ( 26 obs. )

ANDREANOF ISLANDS. ALEUTIAN IS. ( 7)

ADK 1.37 283 iPd 37 25.50 0.7KDC 14.12 56 «P 40 20.60 -1.2COL 19.16 36 «P 41 25.00 0.2INK 25.76 34 «P 42 30.00 -0.6MBC 32.41 22 «P 43 30.00 -0.1NEW 36.29 72 «P 44 03.00 -0.7EDM 36.35 63 iPc 44 04.90 0.7

0.5s 28 . 00nm 5 . 4mbMAT 36.47 264 «P 44 05.00 -0.3MDJ 37.16 282 Pd 44 69.20 -1.8EUR 41.68 83 IP 44 49.00 0.1

0. 1s 10. 77nm 5.5mbSNY 42.36 282 i PC 44 53.70 -0 . 4BDW 43.67 75 «P 45 05.00 -0.1

1.0s 4 . OOnm 4 . 1mbBJI 47.93 285 *P 45 37.50 -1.1RSON 48.11 57 IP 45 39.80 -0.1

e . 5s 15. 28nm 5 . 3mbSSE 50.67 272 «P 46 01.20 1.4TIY 51.66 285 «P 46 07.00 -0.3XAN 56.23 284 «P 46 39.50 -1.4KEV 57.94 351 «P 46 51.00 -1.5SOD 60.29 351 IP 47 e8.00 -0.8OTT 60.83 53 «P 47 11.50 -1.3GYA 62.94 279 P 47 26.60 -0.7KJF 63.24 349 ip 47 27.00 -1.6

0.6s 15.60nm 5.3mbSUF 64.86 350 iP 47 37.80 -1.4NUR 67.18 350 IP 47 53.00 -1.0N82 67.62 357 P 47 55.90 -0.9

0.6s 3 . 60nm 4 . 6mbUPP 68.46 353 IP 48 01.50 -0.5CHG 73.37 279 «P 48 32.00 -0.2KKN 74.65 295 «P 48 46.00 0.2

0.6s 30 . 00nm 5 . 5mbPKI 74.75 295 «P 48 40.40 -0.1

0.6s 21. OOnm 5.3mbDMN 74.89 295 «P 48 41.40 0.2

0.7s 33.eOnm 5.4mbBRG 77.65 355 i(P) 48 56.00 0.0

0.9s 12. eOnm 4 . 9mbMOX 78.00 356 «(P) 48 59.00 1.1ENN 78.01 360 «P 48 59.00 1.1

DOU 78.68 1 PC 49 92.46 6.8 49 12.46

KHC 79.41 355 iP

81d 83h

ML 3.6 (PMR).

IMA 1.58 269 eP 86 15.88 8.4COL 1.56 143 IP 86 15.88 -8.3

i 86 18.48FBA 1.56 143 «P 86 15.88 -8.3TTA 4.14 222 eP 86 52.88 -1.1PMS 4.93 178 «P 87 85.58 1.3INK 6.75 64 «P 87 24.88 -5.8X

S.D. 1.2 on 5 of 6 obs.

? DEC 81, 1985 83h 34m 28.38± 1.86s3.888 S ±17. 8km 182.984 W ±25. 4km

DEPTH - 16.8km ( geophy s i c i s t )4 . 4mb ( 8 obs . )

NORTHERN EASTER 1. CORDILLERA (694)

GIE 13.83 77 «P 37 41.78 13. 4XLTX 32.96 359 «P 48 58.88 8.5

1.8s 3 . 28nm 4 . 2mbJCT 34.23 5 iP 41 18.88 1.5

1.8s 5 . 58nm 4 . 4mbALO 38.68 355 eP 41 45.88 -1.3

1.8s 3.88nm 3. 9mbGOL 43. 3S 357 eP 42 26.88 1.3

1.8s 5 . 88nm 4 . 2mbGLD 43.39 357 «P 42 26.58 1.6JAS1 44.57 348 eP 42 35.88 8.7

1.1s 1 . 16nm 3 . 7mbEUR 44.71 3 55 19.58 -6.3CD2 37.77 765 e? 55 18.88 -1.5GYA 38.27 257 P 55 26.28 1.4WMO 43.29 292 P 56 84.58 -1.3MBC 48.22 19 e? 56 41.88 -3.4XCHG 48.63 258 iPc 56 55.68 7.3X

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SMF

AVF

LP~

1.8s 25 . 58nm 5. 2mb54.98 34 eP 57 34.88 -8.154.91 34 «P 57 34.38 -8.758. 18 281 «F 57 56.88 -2.268.81 338 «P 58 14.88 -2.362.78 335 «P 58 27.88 -2.68.6s 1.78nm 4. 4mb

i 58 48.88 46km63.17 45 «P 58 44.88 11. 6X64.35 335 iP 58 37.28 -2.78.6s 6 . 78nm 4. 9mb64.75 37 «P 58 42.88 -8.68.8s 8.88nm 4.8mb64.96 195 «P 58 43.28 -1.164.97 195 PC 58 42.88 -1.58.7s 2 . 58nm 4 . 4mb66.49 334 iP 58 51 .58 -2.166.88 274 «P 59 82.88 S.7X67.44 267 P 59 18.68 18. 3X69.69 265 eP 59 13.88 -1.669.92 348 P 59 12.68 -2.48.7s 19.88nm 5.2mb78.84 338 «P 59 13.48 -2.38.4s 6 . 98nm 5 . 8mb78.89 339 «P 59 14.98 -1.171 .84 37 «P 59 28.38 -1.773. 15 51 «(P) 59 37.88 2.875.88 55 «P 59 58.88 8.576.41 329 «Pc 59 54.88 8.91.8s 48.88nm 5.4mb

« 88 84.58 34km77.88 328 «P 88 89.18 12. 4X77 .77 334 «(P) 59 59.88 -1.677 .83 333 iPd 88 12. 48 1 1 . 4X1.2s 23 . 88nm78.33 344 PC 88 15. 18 1 1 . 4X8.9s 19.88nm78 . 34 338 «P 88 17 .88 1 3 . 3X78.39 332 «P 88 83.88 -8.3

« 88 15.78 48km78.78 334 «P 88 88.58 2.3

« 88 18.58 32km78.87 329 «P 88 86.58 -8.279.88 338 e(P) 88 87.58 8.179.83 337 «P 88 87.58 8.88.9s 33.88nm 5.3mb

i 88 19.98 42km79. 45 332 iPc 88 18.88 8.1

« 88 21 . 38 37km79.63 338 «P 88 18.48 -8.479.74 334 «P 88 1 1 .48 8.8

e 88 23.58 48km88.38 337 «P 88 14.88 -8.88.9s 42.88nm 5.4mb

« 88 26.58 42km88.58 337 Pd 88 27.88 1 1 . 6X81 .86 338 P 88 38.38 1 1 . 9X81 .29 331 IP 88 21 .98 2.88.8s 1S.28nm 5.8mb

i 88 25.78 l2kmXi 88 31 . 88

81 .38 337 P 88 32. 78 13. IX81 .35 338 P 88 31 .88 1 1 .9X81 . 42 57 IP 88 21 .88 1.81.8s 6 . 88nm 4 . 5mb82.89 335 «P 88 24.28 8.382.33 43 «P 88 23.88 -2.382.76 335 «" 88 27 .68 8.282 . 91 54 i P 88 29 . 88 8.61.1s 9 . 49nm 4 . 8mb83.89 348 «P 88 33.68 8.58.8s 5.38nm 4. 7mb84. 12 337 «P 88 34. 78 8.41.8s 1 8 . 88nm 4 . 9mb84.32 337 iPd 88 39.48 4.2X84.33 348 eP 88 36 . 38 1.81.8s 13.68nm 5. 8mb84.35 337 eP 88 35.73 8.21.8* 1 8 . 86nm 4 . 9mb84.41 337 eP 68 36.48 8.78.8* 3 . 28nm 4 . 5mb84.78 337 «P 88 39 . 88 1.88.9* 9 . Bftnm 5 . 8mb84 . 78 337 «P 88 39.88 1.88.8* 4 . 88nm 4 . 6mb84.86 334 eP 88 38.68 8.28.8* 4 . 58nm 4 . 7mb

MZF 85.44 337 e 3 88 42. 5C 1.68.8s 9 . +8nm 6 . 8mb

TCF 85.48 338 < " 88 43.38 2.28.8s 8 . 38nm 5 . 8mb

LSF 85.78 338 e,' 88 43.38 1.18.8s 8 . $8nm 5 . 8mb

CAF 86.77 337 *^ 88 49.36 1.81.8s 18 . ")8nm 5 . 8mb

COR 86.81 334 e" 81 61 *e 11. 7XLFF 87.13 338 e? 88 51 18 2.e

8.8s 8 . 88nm 5 . 8mbLPO 87.24 338 «? 88 51.86 2.1SOB1 144.35 17 «PKP 87 38.80 -2.2XITR 144.37 13 «PKP 87 37.88 -2.4XBDF 148.37 32 «PKP 87 4B.48 1.5

S . D . - 1 . 5 on 64 of 83 obs .

* DEC 81. 1985 dSh 86m 37.19± 8.41s53.783 S ± 6.8kn 59.482 W ±12. 6kmDEPTH - 18.8kir. ( geophy s i c i s t )4.9mb ( 7 obs.) 3.9Msz ( 2 obs.)

FALKLAND ISLANDS REGION (148)

AIA 11.76 198 «P 89 29.88 2.8VBA 15.83 353 «P 18 19.88 -1.8RFA 28.85 338 «Pc 11 12.28 -1.8LNV 21.57 332 «P 11 25.88 -3.7XSAN 21.84 334 eP 11 33.88 1.5BACH 21.98 334 «P 11 33.58 1.4PEL 22.14 334 eP 11 33.58 -1.8

e 18 33.88ROCH 22.39 334 «P 11 38.88 8.8SLA 29.38 349 «Pd 12 41.88 -8.6VAO 32.14 22 «P 13 18.98 3.9XTPZ 32.62 349 P 13 13.78 2.2SPA 36.48 188 i?>c 13 42.48 -8.9

1.8s 28.38nm 4.9mbCNC8 37.58 346 « u 13 55.88 1.6LPB 37.79 346 P 13 56.08 8.4

Z 28s 8. Mum 4 .5Msz(S) 21 26.88L3 26 28.88

ZOBO 38.85 346 PC 13 58.28 8.21.1s 11. 68nm 4 . 6mb

Z 22s 8.35um 3.3MszLR 26 24.88

ARE 38.42 341 «' 14 84.88 3.2XBDF 39.89 18 e° 14 88.88 1.8

« 14 18.88SBA 45.61 192 IP 14 59.88 1.2

8.7s 28.55nm 5.2mbSOBl 46.88 25 «P 15 88.58 -8.8

« 15 12.78ITR 47.97 28 «P 15 16.98 -1.8

« 15 23.28e 15 25.88

ATB 58.68 9 e(P) 15 38.88 -6.68UL 72.85 181 l a c 18 87.28 -1.8

8.7s 7.53nm 4.9mbKIC 75.37 57 «? 18 22.58 8.8KRI 76.83 99 «P 18 25.28 -1.3LSZ 76.42 97 i° 18 29.88 8.3KRP 77.11 222 P 18 31.88 -1.1MTD 77.22 181 " 18 36.88 2.9AVY 84.61 115 e^d 19 12.98 8.6BNG 86.46 78 IPd 19 22.18 8.9

8.6s 3 . d8nm 4 . 7mbJCT 98.92 326 «P 19 48.88 -1.2

1.8s 9 . 16nm 5 . 8mbWB2 185.63 193 ePdiff28 47.48 -1.4WRA 185.63 193 Pdiffd28 47.38 -1.5

1.8s 3 . S8nm 5 . 3mbBIAL 115.81 214 ePKP 25 25.88 3.4XYKC 123.71 333 ePKP 25 33.88 -2.2XYKA 123.75 333 ePKP 25 34.68 -8.7GBA 127.52 123 PKPd 25 42.88 -1.1

8.4s 8 . 88nmSUF 133.88 48 ePKP 25 88.88 8.4MBC 138.27 343 ePKP 28 56.88 -8.9DMN 143.11 121 e?KP 20 87.98 -S.1X

8.8s 28 . 98nmPKI 143.23 121 ePKP 26 87.88 -5.5X

7.8s 1 4 . 88nmKKN 143.35 121 «PKP 26 88.46 -5.8X

8.6s 1 7 . 88nmS. D . - 1 . 3 on 33 of 41 obi .

81d 85h

ft DEC 81, 1985 05h 32m 18.69*58.878 N 150.660 WDEPTH - 90.3km

GULF OF ALASKA ( 15).

NNL 1.21 345 eP 32 41.35 0.1SEW 1.38 26 «P 32 41.78 -1.4

IS 33 08.78KDC 1.49 221 eP 32 43.73 -8.9SLKM 1.65 8 eP 32 46.83 -8.8

iS 33 86.911 LU 1.71 321 eP 32 46.58 -1.1MPA 1.75 22 eP 32 47.39 -8.6

IS 33 88.39KNIM 2.09 44 eP 32 49.78 -2.9PTE 2.16 22 IP 32 52.89 -0.6PWL 2.31 38 iP 32 55.88 -8.6

iS 33 21 . 18SPU 2.41 344 eP 32 56.54 -8.6

IS 33 25.48PMS 2.44 13 iP 32 56.92 -0.5CRP 2.51 343 eP 32 59.11 8.6CGLM 2.53 345 iP 32 58.85 8.2FID 2.83 47 iP 33 01 .84 -1.6V2W 3.81 42 eP 33 04.56 -8.6

IS 33 37 .67SKT 3.14 352 eP 33 07. 19 8.2KLU 3.53 48 iP 33 12.12 -8.3

1 7 obs . ossoc 1 o t«d

DEC 81. 1985 86h 16m 39.70± 8.27s16.547 S ± 6.9km 66.788 E ± 4.7kmDEPTH - le.dkm ( geophy s i c ! s t )5.2mb ( 46 obs.) 4.6MSZ ( 2 obs.)

MID-INDIAN RISE (429)CENTROID. MOMENT TENSOR (HRV)Doto Used: GDSNL.P.B. : 12S, 25CC«n t ro i d Loco t i on :Origin Time 06:16:47.2 8.6Lot 16.06S 0.09 Lon 66.53E 8.88Dep 18.8 FIX Ho 1 f -du r o t i o n 1.6Moment Tensor; Sco 1 e 10**24 D-CM

Mrr 8.16 8.04 Mtt 8.98 8.85Mff- 1.86 8.05 Mrt 8.88 8.13Mrf 8.61 0.17 Mtf- 8.58 8.85Principol Axes:T Vol- 1.42 Pig-21 Azm-183N -8.39 68 299P -1.03 6 195

Best Double Coup I e : Mo-1 . 2 1 8» « 24NP1 :St r i ke-241 Dip-71 Slip- 11NP2: 147 79 161

AVY 18.23 260 ePc 28 52.48 -2.4KOD 28.66 23 eP 22 39.80 -8.2TET 31.78 266 iP 23 87.80 8.4GBA 31.78 20 P 23 87.88 0.5IKZ 33.71 276 iP 23 23.08 -0.7

0 . 8s 4 . 30nm 4 . 4mbKRI 35.58 264 iPc 23 37.20 -1.8POO 35.56 12 iP 23 39.28 -8.1HYB 35.71 28 eP 23 38.88 -2.6

1.2s 57 . 10nm 5. 3mb8UL 36.28 258 iPc 23 44.38 -1.3

1.0s 25.80nm 5.0mbPPI 36.85 68 ePd 23 52.58 2.3SLR 36.88 249 iPc 23 49.50 -1.1

1.2s 56.25nm 5.2mbZ 22s 1 .67um 4. 8Msz

LSZ 37.83 266 iP 23 51.28 -8.71.8s 4 . 88nm 4 . 1mb X

M2Z 37.08 273 iPd 23 51.68 -8.81.3s 8 . 48nm 4 . 4mb

i 24 12.88i 25 88.30

PSI 37.12 62 eP 23 54.08 1.5BFS 38.35 247 i Pd 24 08.88 -2.1

1.8s 128.88nm 5.6mbKMZ 39.55 269 i Pd 24 12.88 -8.3

1.8s 4 . 88nm 4 . 8mb Xi 25 18.28i 25 44.58i 26 23.00

IPM 39.98 61 ePd 24 28.80 4.2X1.8s 27 . 70nm 4 . 9mb

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KSHGYACD2ASPALZHWMO

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WB2XANWHNADE

T 1 Y

NJ2BTOHHCT 1 ASKOVR 1MLRcvoBJ 1SPA

YOUBEOK 1 CCANCTA

SROSPCKRA

SOPLJU2STSNYVOYVKA

K8A

8HGKSPCN2

39.98 287 IPc 24 17 .00 8.940.58 66 ePd 24 22.50 1.144.27 47 eP 24 54.50 3.0X44.38 248 iPd 24 51.38 -0.60.7s 26.03nm 5.2mb45.66 85 iPc 25 83 . 90 1.245.96 48 eP 25 81.08 -4.8X46. 10 13 eP 25 04.58 -1.446.82 1 15 eP 25 12.88 0.347 .27 1 18 eP 25 15. 88 -8.247.33 43 eP 25 17 .80 1.247.38 22 iP 25 16.40 0.01.1s 119. 88nm 5 . 9mb47.46 23 iP 25 16.60 -0.51.8s 38.88nm 5.4mb47 .61 22 iP 25 18.08 -0.148.26 47 eP 25 23.88 -8.148.54 118 eP 25 25.88 -8.248.95 1 1 1 eP 25 28.50 0.150.38 184 eP 25 38 .90 8.11.8s 59 . 80nm 5 . 5mb51 .67 27 PC 25 48. 78 -8.951.97 289 iPd 25 49.30 -2.30.8s 38.88nm 5.3mb

ic 25 50.88id 26 15.28 vid 27 84.40

51.98 289 eP 25 49.28 -2.41.8s 19 . 58nm 5 . 8mb54.04 344 eP 26 85.88 -1.654.30 41 eP 26 84.00 -4 . 8X56. 17 111 iPc 26 21 . 30 -1.08.7s 29.80nm 5.4mb56.38 9 P 26 22.88 -1.657.75 43 PC 26 33.20 -0.359. 12 37 eP 26 41 .20 -1.763.81 188 iPc 27 88. 40 -1.163.84 33 eP 27 88.00 -1.663. 07 17 Pd 27 88.88 -1.5

S 35 46.8663 .68 28 iPd 27 12 .58 -1.263. 94 104 Pd 27 15. 50 -0.28.9s 46.1 0nm 5 . 7mb63. 95 104 iPc 2714.70 -1.064. 39 38 P 27 16. 80 -1.665.52 44 eP 27 25.00 -0.666 . 12 121 iPc 27 29. 30 -0.31.1s 55 . 70nm 5 . 7mb68.99 37 eP 27 47.80 -0.5

S 36 53.8069.49 46 PC 27 58.80 -0.669 .64 34 P 27 51 .50 0.070.65 35 P 27 57 .60 0.078.87 41 eP 27 56.80 -2.171 .65 326 IP 28 01 .88 -2.571.88 332 ePc 28 84.58 -0.371.95 331 ePd 28 05.00 -0.472.10 331 eP 28 05.80 -1.172.71 38 «P 28 18.88 8.273. 56 188 IPd 28 14.80 0.11.0s 30.88nm 5.3mb74. 12 122 eP 28 18. 10 -0.274. 15 328 e(P) 28 18. 18 0.074. 21 282 «P 28 18.88 -1.174. 45 123 eP 28 28.50 8.274.92 107 iPc 28 23. 10 -8.11.8s 38 . 88nm 5 . 3mb

IS 38 84.8077.28 329 eP 28 33.88 -2.077 .38 331 eP 28 36.80 0.678.85 331 eP 28 39.28 -8.81.0s 48 . 08nm 5 . 5mb

e 28 45.98e 28 49.40

78.87 328 eP 28 39.00 -1.278.88 326 eP 28 48. 58 0.278.14 329 eP 28 38.90 -1.678.25 40 eP 28 48. 30 -1.078. 42 325 eP 28 41 .80 -1.378.58 328 eP 28 42.88 -1.0

i 28 49.4079.36 326 e(P) 28 47.88 -8.51.3s 37.58nm 5.2mb

i 28 53.6888.81 326 eP 28 49.50 -1.388.29 338 eP 28 52.88 -8.280.49 39 Pd 28 52.88 -1.4

KHC

PRU

LMR

FURFRF

LRG

BRG

CDRGRFLPG

CLL

MOX

BSF

MDJCDFHAU

NUR

SMF

L8F

1 FRCAF

WLFLOR

AVF

SSF

BGF

LPO

SUF

RJF

GRCMEMMALLFF

MAT

LSF

DOUKJF

SNFUCCTOLLGRMFF

MUD

SODKEVTP2CNCBLPB

Z080

88.53 328 PC 28 52.50 -1.81.2s 24 . 08nm 5. 1mb

e 28 59.9880.59 329 eP 28 53.08 -8.8

e 29 88.8881 . 13 328 eP 28 58.30 1.61.0s 9 . 60nm 4 . 8mb81.14 326 iPc 28 56.48 -8.481.16 328 «P 28 58.60 1.68.8s 13.48nm 5.0mb81 .28 328 eP 28 59.48 1.98.8s 1 1 . 80nm 5.0mb81 .45 329 «P 2S 80.80 1.81.3s 29.80nm 5.2mb

e 29 16.80e 29 24.00

81 . 76 328 «Pc 29 81 .20 1.182.09 327 eP 20 59.08 -2.682. 15 322 iPc 2V 03.26 8.88.9s 7 . 28nm 4.8mb82. 18 329 eP 29 02.80 0.81.5s 51 . 08nm 5. 4mb82. 46 328 eP 29 05.08 1.41.6s 43 . 88nm 5. 3nb83. 41 324 iPc 29 69.60 1.08.9s 14. 40nm 5 . 2mb83.45 48 Pd 29 08. 18 -0.783 .46 325 i PC 29 18.80 1.183. 75 324 eP 29 1 1 . 40 1.10.6s 3 . 60nm 4 . 8mb83.89 341 eP 29 14.88 3.3X

2 28s 8.28um 4.5MszeS 39 40.88LR 08 20.88

84. 48 322 i PC 29 15.00 1.10.8s 8 . 80nm 5 . 8mb84.57 322 i PC 29 15.60 1.10.8s 1 4 . 70nm 5 . 3mb84.59 307 i P 29 16.00 1.084.69 328 i PC 29 17 .00 1.90.6s 3 . 98nm 4 . 8mb84. 77 325 PC 29 16.60 1.484. 79 323 i PC 29 16.90 1.48.8s 9 . 98nm 5.1 mb84.84 322 i PC 29 17 .00 1.38.9s 5 . 58nm 4 . 8mb84.89 322 iPc 29 17 .60 1.68.8s 13.90nm 5.2mb85.02 322 iPc 2& 18.70 2.01.2s 26 . 70nm 5. 3mb85. 1 1 319 iPc 29 19.20 2.11.8s 8 . 08nm 4 . 9mb85. 15 343 iP 29 15.98 -1.00.7s 12.58nrr 5.2mb85.21 320 iPc 29 19.40 1.80.9s 11. 18nm 5 . 1mb85.26 322 i PC 29 17.68 -0.285.36 326 P 29 20.00 1.885.36 310 eP 29 20.00 1.585.52 319 iPc 29 21 . 16 2.08.8s 10 . 78nm 5 . 1mb85.57 58 eP 29 19.00 -0.61.2s 31 . 25 nm 5 . 4mb85.66 321 iPc 29 21 .78 1.88.8s 8.58nm 5.8mb85.85 325 P 29 22.78 2.085.89 344 iP 29 19.80 -8.81.2s 66.58nm 5.7mb

i ?9 26.80eS 39 56.00eSS 45 06.00

86 . 24 325 P 2924.40 1.886.35 326 P 29 26.80 2.9X86. 42 313 eP ?9 26.00 2-286. 47 316 eP ?9 29.00 5. 0X86.85 321 i PC 29 27 .50 1.81.2s 17. 80nm 5 . 2mb87.11 332 iPd 29 29. 40 2.71.3s 85 . 00nm 5 . 8mb88.68 346 iP 29 33. 70 -0.498.49 347 eP 29 36.80 -6.5X119.98 233 ePKP 35 36.00 2.6X124.38 236 ePKP 35 44.00 1.8X124.63 236 ePKP 35 44.00 1.5

LR 1 9 1 6 . 00124.80 236 PKPd 35 44.50 1.51.8s 5 . 88nm

61d 66h

Z 24s 8.28um 4.8MszXLR 16 eg.ee

INK 126.68 9 «PKP 35 43.ee -1.4YKA 134.10 i «PKP 36 ee.ee 1.3RSNT 134.11 1 «PKP 36 00.30 1.6EDM 143.41 e «PKPd 36 13.ee -3.8XSES 146.19 3 "5 7 «PKP 36 2e.ee -e . 9PNT 146.91 8 ePKP 36 25.ee 3.ex

e . 9s 1 9 . 00nmNEW 148.21 5 «PKP 36 28.ee 3.8XFVM 156.67 321 «PKP 36 30. 8e 1.8LRM 15e.8e 359 «PKP 36 35.56 7.0XBDW 153.66 354 «PKP 36 34.26 1.5

e . 9s 9 . 40nmALO 166.69 343 «PKP 36 43.66 1.6

« 37 25.66CSC 161.66 9 «PKP 36 46.68 4.4X

37 32.66JCT 161.44 321 iPKP 36 44.36 2.2X

1.6s 7 . 58nmTPC 162.34 8 «PKP 37 38.66 55. 1XGLA 163. 51 5 «PKP 36 48.66 3.9XLTX 164.56 327 «PKP 36 48.56 3.3X

S.D. - 1.3 on 127 of 146 obs.

? DEC 61. 1985 66h 56m 62 . 62± 1.67s17.978 S ±28. 9km 174.286 W ±18. 3kmDEPTH - 33.6km (normol)4 . 8mb ( 4 obs . )

TONGA ISLANDS (173)

DZM 18.56 254 iPd 66 23.76 4.7XNOU 18.59 253 iPc 66 25.66 5.7XBRS 31.72 2*7 IP 62 31.16 5.3XCTA 37.36 266 iPd 63 15.36 1.6

6.8s 11. 19nm 4.8mbWB2 48.46 259 «P 64 43.76 -6.6

66 21 .36WRA 48.47 259 PC 64 43.86 -6.6

6.5s 3 . 76nm 4 . 7mbASPA 48.55 254 «P 64 45.66 6.6

pP 65 66.66 86kmXWBN 55.62 256 «P 65 33.66 -6.6SBA 66.63 185 eP 66 13.66 6.8SPA 72.14 186 iPc 67 25-16 -6.7

6.7s 7 . 81 nm 4 . 8mbCOL 85.67 11 «P 68 36.66 6.1

6.8s 7 . 69nm 4 . 9mbWTS 146.65 3t)9 «PKP 15 42.66 2 . 3X

6.9s 11. 00nme 16 66.66

KSP 146.14 348 «PKP 15 42.56 2.6XCLL 146.24 352 ePKP 15 42.66 1.9X

1.2s 1 6 . 66nme 16 61 .66

PRU 147.29 349 PKP 15 45.56 3.7Xe 16 65.76

S.D. -1.6 on 8 of 15 obs.

DEC 61, 1985 68h 63m 39.92± 2.27s4.676 S ±25. 8km 145.616 E ± 9.9km

DEPTH - 33.6km (normal)3.8mb ( 1 obs.)

NEAR N COAST OF PAPUA NEW GUINEA(266)

MDG 6.96 127 «P 63 57.66 6.6LAT 2.79 135 «P 64 28.66 4.8XTZZ 3.82 261 «P 64 38.66 6.1PMG 5.1b 156 «P 64 57.66 6.1CTA 15.37 176 «P 67 27.66 16. 9XWB2 18.39 213 «P 67 54.26 6.1WRA 18.39 214 PC 67 54.30 6.1

6.7s 5 56nm 3.8mbASPA 21.71 269 «P 66 36.66 -6.3

S. D . - 0. 2 on 6 of 8 obs .

? DEC 61. 1985 68h 17m 11.66± 2.14s32.664 S ±15. 3km 179.286 W ±29. 2kmDEPTH - 33.6km (normol)4.7mb ( 2 3bs.)

SOUTH OF KERMADEC ISLANDS (179)

GNZ 6.92 "98 P 18 53.86 1.1(S) 26 66.86

KRP 7.23 215 P 18 56.66 -1.6CTA 33.63 283 «P 23 53.66 7.5XASPA 41.90 269 -P 25 61.66 6.4

WB2 43.68 275 eP 25 69.76 -6.1WRA 43.69 275 Pd 25 69.96 6.6

1.3s 13 . 26nm 4 . 5mbSPA 58.11 186 iPc 27 63.68 -6.5

1.6s 16.66nm 4.8mbS.D. - 6.9 on 6 of 7 obs.

* DEC 81. 1985 68h 27m 25.45± 6.69s55.821 S ±12. 9km 27.936 W ±18. 8kmDEPTH - 33.6km (normol)5 . 6mb ( 4 obs . )

SOUTH SANDWICH ISLANDS REGION (153)

SPA 34.36 180 ePc 34 11.46 6.46.5s 22.22nm 5.3mb

SBA 46.28 184 IP 35 56.66 1.21.6s 1 6 . 08nm 4. 9mb

ITR 47.67 346 eP 36 61.36 6.9BUL 54.90 73 iPc 36 55.66 -6.2KRI 58.16 72 iPc 37 19.66 6.6MTD 59.26 74 «P 37 25.26 -6.9BCAO 71.68 56 iPc 38 42.66 6.4

6.5s 4.08nm 4. 7mbBNG 71.69 56 i PC 38 42.66 6.3

6.6s 13.66nm 5.2mbMSZ 78.99 191 P 39 25.86 -1.2SUF 125.46 27 «PKP 46 26.66 2.9XYKA 135.72 318 «PKP 46 41.36 -1.4MBC 143.60 336 «PKP 46 53.66 -3.6XINK 145.36 321 «PKP 46 57.66 -2.7XCOL 156.66 312 «PKP 47 11.66 3.7X

6.8s 8 . 58nmS.D. - 1 . e on 10of 14 obs .

? DEC 81. 1985 08h 45m 11.97± 1.71s49.924 N ±28. 7km 179.989 E ±17. 6kmDEPTH - 33.6km (normol)4 . 5mb ( 3 obs . )

ALEUTIAN ISLANDS REGION ( 16)

ADK 2.88 46 «P 45 55.56 -1.0eS 46 27.06

PMR 20.76 44 eP 49 53.56 2.6FBA 22.57 36 «P 56 69.66 -1.2YKA 36.86 45 «P 52 19.36 1.3EDM 46.21 59 «P 52 47.88 8.3BDW 47.56 76 «P 53 45.58 -6.3LTX 59.66 79 «P 55 14.56 -6.8SUF 65.80 347 «P 55 55.66 -6.4

6.6s 2 . 66nm 4 . 4mbNB2 69.62 354 P 56 15.66 -6.8

6.7s 2 . 76nm 4 . 4mbKBA 82.69 351 iP 57 34.36 6.9

6.7s 4 . 96nm 4 . 7mbSLR 147.44 367 «PKP 04 53.66 2.2X

S.D. -1.2 on 18 o f 11 obs .

DEC 61, 198f> 69h 17m 18.63± 6.67s42.298 N ± 6.8km 19.939 E ± 5.8kmDEPTH - 16.6km ( g«ophy s i c i s t )

YUGOSLAVIA (383)ML 2 . 6 (TTG) .

PVY 6.30 5 IPgc 17 24.16 -6.2iSg 17 29.66

TTC 8.52 285 «Pg 17 27.26 -1.4 Sg 17 35.56

IVA 6.57 357 «Pg 17 29.76 6.6 Sg 17 38.86

ULC 6.61 237 ePg 17 31.66 6.6 Sg 17 39.66

BDV 6.82 269 «Pg 17 33.76 -6.3 Sg 17 46.46

HCY 1.68 278 «Pg 17 38.26 -6.1 Sg 17 57.36

OHR 1.35 151 iPn 17 43.16 6.2VAY 2.26 116 ePn 17 54.56 -6.6VOY 5.73 313 e(Pn) 18 47.66 1.7

Sn 19 55.66S.D. -1.8 on 9 of 9 obs .

* DEC 61. 1985 69h 45m 89.22± 6.73s32.494 S ±12. 2km 179.653 W ±11. 5kmDEPTH - 33.6km (normal)4 . 9mb ( 3 obs . )


KRP 6.78 215 46 50.6-6 2.2VUN 14.52 353 P 48 26.96 -7.4XMSZ 15.54 215 < 48 56.50 9.1XNOU 15.96 366 PC 48 53.68 6.1DZM 16.12 367 PC 48 55.26 1.1CTA 32.83 284 PC 51 4.J.00 1.1

1.4s 13 95nm 4 . 7mbS 57 01 .CO

ASPA 41.64 276 P ?2 5fc.fcf.* -6.2WB2 42.81 275 .P 53 64. «0 -1.2WRA 42.82 275 r'd 53 64.60 -1.3

6.9s 19 56nm * . 8mbWBN 46.96 263 »P 53 37.06 -1.5SPA 57.68 180 > Pd 54 57.56 -1.2

1.6s 26 66nm 5 . 1mbTPC 89.24 48 s>P 58 64.60 6.8GLA 89.33 49 c P 58 04.60 0.4CSC 89.55 47 r,P 58 85.06 6.4KJF 144.81 346 *jPKP 04 47.00 4.9XSUF 145.66 339 ,'PKP 84 41.66 -3.9X

6.5s 4 . 70 runBNG 147.36 215 ftPKPc 64 48.46 -6.8

6.6s 4 66nmKIC 153.57 169

01d 10h

I 37 51 .50BRG 148.53 331 ePKP 37 48.98 3.7X

1.1s 12.eenme 37 52.ee

CLL 148.61 333 ePKP 37 41.88 3.7Xi 37 51 .38

ZST 148.82 325 ePKP 37 52.38 14. 6XVAY 148.88 309 ePKP 37 41.48 3.4XPRU 148.89 329 ePKP 37 42.80 4.2X

37 53.88SKO 149.41 311 IPKP 37 43.88 5 . eX

i 37 54.eeMOX 149.69 333 «(PKP)37 48.ee 9.0XKHC 149.94 329 PKPc 37 45.ee 5.6X

e 37 55.98e 38 12.36

KBA 151.48 326 ePKP 37 47.ee 5.0X0 . 9s 8 . 88nm

i 37 58.4 ei 38 66.76

LJU 151.54 324 e(PKP)37 48.ee 6.1XVOY 151.89 324 ePKP 37 48.58 6.6X

S.D. - 1 . 1 on 33 of 53 obs.

. DEC 61, 1985 Mr. 41m 28.79± 1.47s28.655 N ±10. 2km 136. 23e E ±ie.5kmDEPTH - 56.7 ± 15. e km4 . 9mb ( 1 obs . )

RYUKYU ISLANDS (238)

NZJ e.70 247 eP 41 42.00 -e . 7IS 4151.46

KAG 2.92 5 eP 42 18.ee 4.1XcS 42 54.ee

SHK 6.22 19 eP 43 ee.ee -e.3MAT 16.35 38 eP 43 57.ee -e.3

eS 46 06.00NJ2 10.39 292 eP 44 00.00 2.0TIA 13.38 308 eP 44 38.30 6.4CN2 15.59 347 Pd 45 09.00 2.3

eS 48 04.00MDJ 15.94 358 eP 45 10.00 -1.1BJI 16.22 318 eP 45 14.50 -0.1

ePP 45 30.50eS 48 25.00

XAN 18.96 292 eP 45 46.60 -2.1HHC 19.53 313 eP 45 54.00 -1.0BTO 20.41 311 eP 46 06.50 2.4GYA 21.00 270 P 46 11.60 1.2CD2 23.07 282 eP 46 29.10 -1.7GTA 27.28 301 P 47 08.60 -1.9WRA 48.48 175 Pd 50 08.70 0.3

1.3s 16. 30nm 4 . 9mbWB2 48.48 175 eP 50 09.20 0.8MBC 67.06 14 eP 52 18.00 -0.4YKA 75.58 26 eP 53 14.20 4.7X

S.D. - 1 .5 on 17 of 19 obs.

DEC 01. 1985 11h 47m 39.51± 0.53s39.284 N ± 4.0km 27.769 E ± 3.7kmDEPTH - 1 4 . 5 ± 3 . 3 km4.3mb ( 30 obs.) 3.5Msz ( 1 obs.)

TURKEY (366)ML 4.6 (ATH) . Fel t innortheastern Greece.

EDC 1.87 6 iPg 47 58.86 -0.4PRK 1.12 269 IPbd 47 59.50 -0.5EZN 1.20 297 iPn 48 01.50 0.1ISK 2.06 30 iPg 48 12.70 -1.3HRT 2.15 44 iPn 48 13.70 -1.7YER 2.19 168 IPn 48 14.50 -1.5DMK 2.54 1 iPn 48 19.90 -0.9BCK 2.90 128 iPn 48 35.50 9.4XKDZ 2.96 323 IPd 48 27.80 0.2

IS 48 55.80OUR 3.86 291 1 Pg 48 27.50 -0.6

eSg 49 02.50ELL 3.07 145 iPn 48 29.00 0.5PAIG 3.18 283 ePg 48 29.30 -0.6DIM 3.20 330 IPd 48 30.00 -0.2

Sg 49 10.00JMB 3.29 345 !Pc 48 31.80 -0.5ATH 3.39 249 ePn 48 35.80 2.1

ePg 48 50.00eSn 49 19.70eSb 49 29.80

PLD

SRSSOH

MMB

THELITKNTPVLPSNKZNVTSBUC1BUCSKO

OHRISRessBRDMLRODBVR ICVOPPESIRGZRDEVBMRSRO

SOPZST

LJU

KRA

TR I

VOY

KBA

KHC

PRU

BRG

GRFCLLMOX

FRF

LMR

LRG

LPG

CDRCDF

BSF

HAUWLFIR2LBF

SMF

3.63 322 IPd 48 37.00 0.7ISg 49 29.06

3.65 361 ePb 48 35.76 -0.93.68 296 ePn 48 36.40 -0.7

eSb 48 52.903.81 308 IPd 48 38.00 -1.0

IS 49 43.003.89 292 ePb 48 39.60 -0.44.11 283 ePb 48 42. 10 -1.04.13 299 iPb 48 43.20 -0.34.31 334 IPd 48 46.00 0.14.41 4 IPd 48 47 .08 -0.34.69 284 IPnd 48 51.28 -0.34. 76 316 IPd 48 52.00 -0.35.21 347 ePc 49 20.00 21. 3X5.26 347 eP 49 28.80 28. 5X5.47 301 IPnd 49 02.80 -0.5

ISn 50 21 .665.66 291 IPnd 49 64.50 0.25.91 352 ePd 49 10.06 1.36.23 132 eP 49 12.50 -0.66.25 356 ePc 49 15.00 1.76.34 349 IPd 49 14.00 -0.86.50 356 eP 49 17.00 0.06.62 354 iPc 49 18.00 -0.76.63 351 ePc 49 16.90 -6.86.93 359 ePd 49 23.56 6.66.98 360 eP 49 26.00 2.47.11 331 IPd 49 12 . 50 -13. 1X7.49 333 ePc 49 29.00 -1.78.92 341 ePd 49 53.00 2.310.91 324 IP 50 17.40 -0.6

e 53 40.501 1 . 65 320 eP 50 25. 10 -3 . IX11.75 323 eP 50 26. 30 -3. IX

e 53 45.5011.81 309 e(P) 50 25.00 -5.3X

e 50 30.00e(S) 52 44 .00

12.10 335 eP 50 34 . 60 0.5E 14s 2.80um

e 50 42 . 1012.12 306 eP 50 32 .00 -2.5

i 54 30.0012.19 308 eP 50 35.20 -0.4

e(S) 52 40.0013.05 31 1 iPc 50 49. 70 2.71.2s 10. 40nm 4 . 9mb

e 51 15. 0014 . 1 1 319 P 51 00.60 -0.2

« 51 08. 6014.20 323 eP 51 00.00 -2.0

Z 10s 0.90umN 15s 8.90umE 16s 1 . 50um

e 51 09.0015.10 325 IPc 51 18.90 5.2X1.2s 15. 00nm 4 . 3mb

e 5130.0015.67 317 eP 51 22.80 0.815. B3 324 eP 51 23.00 -0.216.05 320 IP 51 31 .00 5.0X1.4s 47 . 00nm 4 . 4mb

N 1 2s 1 . 40umE 1 4s 1 . 06um

LO 57 00.00LR 00 00.00

16.36 292 eP 51 30. 40 0.31.0s 20.00nm 4.2mb16. 43 291 eP 51 30.80 -0.11.0s 1 3 . 60nm 4 . 0mb16.55 291 eP 51 32.80 0.31.0s 21 . 60nm 4 . 2mb16.66 299 eP 51 34. 70 0.50.8s 21. 40nm 4 . 3mb17.01 292 ePc 51 40.90 2.617 .29 309 eP 51 43.60 1.70.9s 22.90nm 4.3mb17.36 306 eP 51 46.30 3.5X1.0s 9 . 60nm 3 . 9mb17.70 306 eP 5148.40 1.418. 49 31 1 P 51 58.00 1.418.75 94 eP 52 02.00 2.018.90 302 eP 52 00. 70 -1.11.0s 20.86nm 4.3mb18.91 361 eP 52 60.90 -0.90.9s 14. 70nm 4 . 2mb

LOR 19.66 303 eP 52 03.36 -0.31 . 8s 18. 00 run 4 . 3mb

ENN 19.13 314 ePc 52 «^.«0 0.61.8s 28 .eenm 4.3mb

SSF 19.24 382 eP 52 «4.78 -1.10.8s 11. 28nm 4 . 2«b

AVF 19.27 301 eP 52 84.90 -1.30.8s 9 . 48nm 4 . 1mb

WTS 19.28 318 ePc 52 06.80 -0.31 . 0s 14. 00r»m 4 . 2mb

8GF 19.55 306 eP 52 88. 18 -1.40.8s 16. 18nm 4 . 4mb

DOU 19.59 311 P 52 86.20 -3.7X0.8s 20.80nm 4.5mb

MZF 19.66 299 eP 5? 18.80 -0.71.0s 36.00nm 4.6mb

CAF 19.80 295 eP 52 14.68 2.41.0s 14. 88nm 4. 3mb

WIT 19.81 320 eP 52 12.58 8.4TCF 19.93 299 eP 52 12.68 -0.9

1.0s 18 . 80nm 4 . 3mbRJF 20.24 296 eP 52 19.88 3.0X

0.8s 5 . 30 rim 3 . 9mbLSF 20.38 298 eP 52 21.40 3. IX

1.1s 20 . 50nm 4 . 4mbNUR 21.33 356 eP 52 37.00 9. IX

Z 21s 0.20um 3.5MszLR 27 30.00

MFF 21.59 299 eP 52 31.50 0.98.8s 24.1 0nm 4 . 7mb

HFS 22.66 342 eP 52 43.40 2.30.6s 6.20nm 4.3mb

Z 15s 0.34um 3.9MszXLR 28 47.00

SUF 23.49 358 eP 52 45.00 -4 . 1 XNB2 24.07 340 P C2 54.10 -0.7

0.7s 2.1 0nm 3 . 8mbKJF 24.95 0 eP 53 03.00 -0.3BNG 35.67 196 iPd 54 38.30 -0.8

0.9s 16.00nm 4.9mbid 54 40.50id 55 06.00

8CAO 35.68 196 eP 54 38.10 -1.10.6s 3 . 09nm 4 . 4mb

KIC 43.92 230 eP 55 50.20 2.8DMN 48.56 86 eP 56 24.60 0.1

0.8s 29. 06nm 5.4mb XKKN 48.61 85 eP 56 24.60 -0.2

0.5s 8.80nm 5.0mbPKI 48.82 86 eP 56 26.40 -0.1

0.8s 7 . 06nm 4 . 7mbWRA 115.01 96 PKPc 66 25.36 3.4X

6.5s 0 . 66nmS . D. - 1 . 2 on 78 of 94 obs .

DEC 61. 1985 12h 00m ri4.38± 0.54s42.291 N ± 5.5km 19.945 E ± 4.6kmDEPTH - 10.0km (geophys i c 1 s t )

YUGOSLAVIA (383)ML 2.6 (TTG) .

PVY 0.30 4 IPgc 01 00.70 -0.1eSg 01 86.00

TTG 0.53 285 ePg 01 04.00 -1.0eSg 01 12.50

IVA 0.58 357 ePg 01 06.80 -0.2eSg 01 15.08

ULC 0.61 238 iPgd 01 06.70 0.0eSg 01 16.50

BDV 0.83 270 ePg 01 10.30 -0.1eSg 01 24.30

HCY 1.08 279 ePg 61 14.86 0.1eSg 01 30.80

SKO 1.16 186 ePn 01 16.00 0.0iSn 01 37.00

OHR 1.34 151 ePn 01 19.80 0.7VAY 2.19 115 ePn «1 30.50 -0.8VOY 5.74 313 ePn e2 23.30 1.6

eSn 02 31 . 50S.D. - 8.8 on 1fe of 10 obs.

DEC 01, 1985 12h 18m 01.27± 0.99s41.884 N ±11. 2km 19.464 E ± 6.0kmDEPTH » 10.0km (geophy s i c i s t )

ALBANIA (391)ML 2.6 (TTG) .

61d 12h

ULC 8.18 296 iPgd 18 85.28 -0.1eSg 18 18.58

TTG 8.57 345 ePg 18 12.88 9.1eSg 18 24.78

BDV e.62 318 ePg 18 13.58 -8.2eSg 18 25.78

PVY 8.88 28 ePg 18 17.88 8.8eSg 18 33.58

HCY 8.91 368 ePg 18 19.68 8.3eSg 18 35.88

OHR 1.27 127 ePn 18 21.88 -3.8XSKO 1.48 86 ePn 18 27.58 -8.4VAY 2.48 163 ePn 18 41.58 8.3KCT 6.92 161 iPn 19 51. 78 6.5X

S.D. - « . 3 on 7 of 9 obs .

? DEC 81, 1985 13h 47m 68.56±11.74s22.784 N ±75. 7km 128.513 E ±49. 6kmDEPTH - 18.8km ( geophy s i c i s t )

TAIWAN (244)

TWK 8.56 357 i Pel 47 18.78 6.0TWF1 8.93 51 IPc 47 26.80 -8.3TWO 1.53 11 eP 47 34.88 -1.2TWO 1.64 37 eP 47 36.58 -1.1TWC 2.21 33 iPd 47 46.50 8.8TATO 2.37 22 e(P) 47 58.10 2.8

S.D. - 1.5 on 6 of 6 obs.

DEC 01. 1935 13h 49m 1 5 . 1 8± 8.75s13.952 S ±11. 7km 166.158 E ±17. 3kmDEPTH - 33.8km (normol)4 .7mb ( 2 obs. )

VANUATU ISLANDS (186)

HNR 7.5C 306 eP 51 86.88 8.1SVO 7.84 397 eP 51 16.88 0.2

eS 52 38.80VSG 7.85 386 eP 51 89.88 -1.1

e 52 37.88DZM 8.68 178 i PC 51 12.88 -1.3

iS 52 43.20NOU 8.32 178 i PC 51 16.58 8.1

iS 52 48.80SBA 63.91 186 e(P) 59 47.46 8.8SPA 76.14 188 iPc 61 82.88 0.5

1.8s 5 . 66nm 4 . 5mbCOL 85.94 18 iP 81 52.20 -0.7

0.8s 7 . 84nm 5 . 8mbSOB1 144.64 129 ePKP 88 49.18 -2.0BNG 146.78 257 iPKPd 88 56.18 1.5

1.6s 15. 88nmid 89 89.00

BCAO 146.71 257 ePKP 88 56.88 1.48.9s 6 . 82nm

ITR 146.77 131 ePKP 88 55.18 0.4e 89 86. 18

S.D. -1.2 on 12 of 12 obs .

DEC 81. 1985 13h 55m 18.66± 8.33s14.374 S ± 6.8km 166.415 E ± 7.6kmDEPTH - 31.8km ( 3 depth phoses)4.7mb ( 4 obs.) 4.7Msz ( 1 obs.)


PVC 3.81 152 IPc 56 03.80 -5.6XS 56 48.58

DZM 7.66 188 PC 57 01.78 -1.3S 58 29.28

NOU 7.89 186 PC 57 05.56 -8.7S 58 34.56

HNR 8.6^ 387 «P 57 26.88 12. IXSVO 8.29 388 «P 57 11.68 -8.7VSC 8. 38 367 «P 57 16.66 -2.8VUN 12.12 169 eP 58 66.88 1.7ALOA 16.18 283 e(P) 59 62.66 4.5XBUS 18.19 222 IP 59 27.88 5.7X

eS 62 56.66CTA 28.67 25t iP 59 45.66 8.5

1 .9» 113. 16m» 4 .9mbZ 18s 3.38um 4.7Wsz

iS 14 63.36*MQ 26.44 231 eP 59 58.88 1.7UDG 22.24 292 eP 00 68.88 1.4KRP 24.82 163 P 08 38.08 6.6XYOU 25.66 216 eP 08 44.48 4.9XGNZ 26.26 159 P 80 48.08 3. IX

WB2 31.18 255 eP 81 27.28 -1.5WRA 31.11 255 Pd 81 26.88 -2.8

8.7s 2 . 38nm 4 . 1mbASPA 32.83 248 eP 81 36.88 -8.9WBN 39.61 246 eP 82 37.88 8.6MEK 46.22 247 eP 83 35.80 8.8BAG 54.64 382 eP 84 39.88 -8.4SSE 62.78 317 e(P) 85 37.80 2.0

N 18s 6.98umeS 13 42.88sS 14 88.68

SBA 63.49 188 IP 85 48.28 8.61.9s 168. 42nm 5 . 8mb X

IPM 67.58 281 eP 86 18.38 3.9Xe 86 1 9 . 1 8 28km

MDJ 67.58 332 eP 86 85.78 -8.7CN2 68.92 329 eP 06 14.88 -0.7

pP 86 23.88 29kmS 15 18. 88

BJ 1 71.47 322 eP 86 30.58 8.2TIY 72.44 318 eP 06 35.48 -8.8XAN 72.84 313 eP 86 39.88 8.4KMI 73.42 382 Pd 86 44.88 1.6CHG 74.18 295 eP 86 47.58 8.8HHC 74.78 328 P 86 50.60 8.7CD2 75.14 308 eP 86 53.88 1.8

S 16 30.88BTO 75.61 319 P 86 56.88 1.4

epP 87 87.88 36kmeS 16 27 . 58

SPA 75.72 188 iPd 06 55.50 8.61.8s 1 8 . 80nm 5 . 8mb

LZH 77.47 313 eP 87 86.50 1.3GTA 81.83 314 Pd 87 29.78 1.2COL 86.27 18 eP 87 48.88 -2.2PKI 88.80 299 eP 88 84.88 8.3KKN 88.97 299 eP 88 05.18 0.7DMN 89.87 299 eP 08 85.98 1.8EUR 89.73 49 iP 88 06.50 -1.2

8.6s 1 . 54nm 4 . 5mbWMO 91.89 315 P 88 17.58 8.2SUF 124.22 339 iPKP 14 86.88 -0.6

8.6s 3 . 48nmAPO 129.74 343 ePKP 14 15.30 -2.8X

8.6s 3 . 38nmBRG 137.33 334 e(PKP)l4 47.88 14. 2X

1.4s 17. 88nmKHC 138.79 333 PKP 14 48.58 1 2 . 8XTRI 141.18 329 ePKP 14 48.88 8.8XSOB1 144.18 129 ePKP 14 43.18 -3 . 0X

e 14 45.50LBF 144.33 339 ePKP 14 43.10 -2.4XGRC 144.36 340 IPKPc 14 45.48 0.8SSF 44.42 348 ePKP 14 43.88 -1.8GRR 44.49 345 ePKP 14 41.38 -4 . 3XLPG 44.54 335 ePKP 14 44.68 -1.6SMF 44.67 339 ePKP 14 44.18 -1.9AVF 44.71 340 ePKP 14 44.28 -1.8LPF 144.86 345 ePKP 14 44.88 -2 . 2XBGF 145.08 348 ePKP 14 45.60 -1.1MZF 145.47 348 ePKP 14 47.88 -8.4TCF 145.53 341 ePKP 14 47.28 -8.3LSF 145.78 341 ePKP 14 47.88 -8.1CVF 145.88 338 ePKP 14 48.20 8.8MFF 145.95 343 ePKP 14 48.28 8.0FRF 146.14 333 ePKP 14 48.88 8.2LRG 146.35 333 ePKP 14 49.88 8.9LMR 146.38 333 ePKP 14 49.68 8.6CDR 146.43 334 ePKPc 14 58.18 1.8CAF 146.78 348 ePKP 14 52.40 2.8XBNG 146.84 256 iPKPd 14 52.78 2. IX

1 . 6» 221 . 00nmId 15 83 .08id 15 36. 18

BCAO 146.85 256 «PKP 14 52.58 1.91 . 4» 43. 27nm

pP 15 03.88LFF 147.20 341 ePKP 14 57.98 7.7XCA 1 148.74 138 e(PKP)14 56.68 3.8X

S.D. - 1 . 2 on 52 of 72 obs .

DEC 81. 1985 14h 84m 22.71± 8.54s42.316 N ± 6.3km 19.856 E ± 4.4kmDEPTH - 18.8km ( geophy s i c 1 s t )


PVY 8.29 17 ePg 84 28.78 -0.2eSg 84 34.48

TTG 8.46 285 ePg 04 31.78 -0.3eSg 84 48.88

IVA 8.56 3 ePg 84 42.58 8.4XeSg 85 42.58

ULC 8.57 232 ePg 84 34.58 8.2eSg 04 45.80

BDV 8.76 268 ePg 84 37.98 0.3eSg 84 51 . 88

NKY 8.81 388 ePg 84 38.88 -8.4eSg 84 51 . 30

HCY 1.81 278 ePg 84 42.58 8.6eSg 04 59.08

SKO 1.23 186 iPn 84 46.80 8.5OHR 1.40 149 ePn 04 47.88 -1.3VAY 2.26 115 ePn 85 81.38 0.6VOY 5.67 313 ePnc 05 52.80 2 . 8X

ISn 06 59.80S.D. -0.7 on 9of 11 obs .

* DEC 81. 1985 14h 26m 36 . 55± 8.81s28.414 N ±12. 7 km 148.843 E ±17. 1kmDEPTH - 33.8km (normol)

BONIN ISLANDS REGION (212)

CBI 1 . 77 138 P 27 86.58 1.1eS 27 24.88

MAT 8.48 345 (P) 28 38.88 -1.0(S) 29 45.00

BJ I 23.38 386 eP 31 44.88 0.9eS 35 49.08

TIY 25.47 299 eP 32 86.88 3 . 5XXAN 27.88 298 eP 32 21.28 -3.5XBTO 28.81 384 eP 32 26.50 -0.1CD2 32.23 284 eP 33 85.08 8.9GTA 35.58 299 eP 33 32.88 8.4WB2 48.48 188 eP 35 17.28 -8.9WRA 48.48 188 PC 35 16.88 -1.3

1.8s 17. 98nm 5 . 1mb XNDI 55.26 287 eP 36 89.88 8.8GBA 68.39 270 P 36 48.88 2.7XYKA 71.55 28 eP 38 88.58 4.6XLRM 88.72 43 eP 38 53.98 5.7X

S.D. -1.1 on 9 of Mobs.

DEC 81. 1985 15h 32m 16.71± 0.46s15.844 N i 8.6km 57.315 E ± 8.3kmDEPTH - 18.8km ( geophy s i c i s t )4 .5mb ( 7 obs . )

ARABIAN SEA (417)

GBA 19.55 92 P 36 48.88 8.3KER 21.32 336 e(P) 37 86.88 -8.1IR2 21.32 346 (P) 37 05.08 -1.2NDI 22.87 58 eP 37 23.00 1.4MTD 48.56 228 IPd 39 58.48 0.1KRI 41.84 222 eP 48 89.78 8.9BUL 44.93 228 IPd 48 34.68 8.6

8.7s 7.53nm 4.7mbLPG 52.85 316 eP 41 29.88 8.7

8.8s 5 . 38nm 4 . 5mbSUF 52.42 342 IP 41 32.18 0.8

8.6s 2 . 58nm 4 . 3mbLBF 54.34 317 eP 41 45.88 6.8

8.6s 2.78nm 4. 5mbLOR 54.58 318 eP 41 46.96 8.0

8.8s 6.78nm 4. 7mbSSF 54.67 317 eP 41 48.28 8.1BGF 54.96 317 eP 41 50.18 -8.2

8.8s 5 . 98nm 4 . 7mbKIC 61.42 269 «P 42 35.88 -1.8WRA 83.38 113 P 44 45.08 -8.6

0.3s 6 . 26nm 3 . 8mbWB2 83.31 113 eP 44 43.78 -1.9

S.D. -0.9 on 16 of 16 ob» .

? DEC 61, 1985 15h 48m 88 . 99± 8.69s25.223 S ±24. 5km 69.798 E ± 1 7 . 7 kmDEPTH - 18.6km ( geophy s i c i s t )4 . 9mb ( 4 ob» . )

SOUTH INDIAN OCEAN (425)

NDI 54.87 8 eP 49 22.00 -13. 9XBNG 57.81 293 iPd 50 82.58 -0.8

1.8s 15. 88nm 5 . 8mbid 58 89.40

01d 15h

BCAO 57.82 293 eP 56 62.36 -1.01.2s 7 . 99nm 4 . 6mb

WRA 59.34 99 Pd 50 13.76 -6.21.3s 11. 66nm 4 . 9mb

WB2 59.35 99 eP 56 13.26 -6.8SPA 64.93 186 eP 56 51.56 6.7

1 -8» 11 .56nm 5.6mbKRA 87.66 336 eP 52 56.66 1.2

53 61 .36KBA 88.12 325 eP 53 68.56 7 . 3XKSP 89.21 329 eP 53 65.56 -6.5KHC 89.36 327 eP 53 68.26 1.4GRF 96.89 326 eP 53 26.66 6.1X

S .0. - 1 . 1 on 8of 11 obs .

» DEC 61. 1985 16h 14m 66.67± 6.53s6.166 S ± 9.5km 129.984 E ± 9.4km

DEPTH - 33.6km (normol)4 . 7mb ( 6 obs . )

BANOA SEA (286)

TLE 2.86 79 IPc 14 43.90 6.4IS IS 1 1 .90

AAI 3.64 324 ePd 14 45.60 -1.9eS 15 51 .36

WRA 14.34 163 Pd 17 22.80 -0.16.6s 5 . 50nm 4 . 3mb

WB2 14.34 163 eP 17 22.10 -6.8 s 26 0e.ee

PMG 17.31 162 eP 18 61.66 6.6CHG 39.39 316 iPd 21 36.26 1.5

1.6s 12. 50nm 4 . 6mbCHTO 39.39 310 eP 21 29.96 1.2

0.9s 8.31 nm 4 . 5mbe 21 38.66

KMI 40.86 321 eP 21 41.56 6.5BJ I 47.70 346 eP 22 34.56 -1.0PK 1 54.57 310 eP 23 28.00 -0.1

0.6s 5 . 00nm 4 . 7mbKKN 54.78 310 eP 23 29.66 0.0

6.6s 8 . 00 nm 4 . 9mbOMN 54.82 310 eP 23 36.20 0.3

6.6s 9.00nm 5.6mbTPZ 148.52 151 ePKP 33 51.60 8.3XCNCB 151.08 142 PKP 34 06.60 19. 1X

S .D. -1.0 on 12 of 14 obs .

DEC 01. 1985 16h 36m 43.85± 0.29s44.676 N ± 2.4km 6.673 E ± 4.1kmDEPTH - 10.6km ( geophy s i c i s t )

FRANCE (538)ML 3. 1 (LOG) .

FOUF 0.17 152 P 36 47.30 -0.3LPG 0.82 4 Pg 36 59.70 -0.3

Sg 37 16.40FRF 1.12 181 Pn 37 04.70 -0.1

Pg 37 65.66Sg 37 19.40

CDR 1.19 213 eP 37 06.60 6.5i 37 69.30e 37 20.76 Sg 37 21 .80i 37 22.30

LRG 1 .24 191 Pg 37 07 .26 6.3Sg 37 24.26

LMR 1.35 185 Pg 37 69.60 6.4Sg 37 26.40

EMS 1.41 7 eP 37 16. 16 6.4Dl X 1 . 50 26 eP 37 1 1 .96 6.9MMK 1 .65 33 eP 37 14.46 1.2TMA 2.11 47 eP 37 19.96 6.1CVF 2.64 142 Pn 37 26.46 -6.9

Sn 37 58.20SMF 2.80 316 Pn 37 29.70 0.2

Pg 37 36.30Sg 38 09.36

LBF 2.98 322 Pn 37 32.40 6.3Pg 37 40.16Sg 38 16 . 86

AVF 3.14 313 Pn 37 34.56 0.2Pg 37 44. 16Sg 38 21 .46

BSF 3.16 1 Pn 37 34.30 -0.3LOR 3.25 324 Pn 37 35.80 -0.1

Pg 37 45.36Sn 38 1 1 .50

Sg 38 25.80SSF 3.25 318 Pg 37 45.70 9.8X

Sg 38 25.96BGF 3.28 306 Pn 37 36.56 6.2

Pg 37 46.46Sg 38 24.40

CAF 3.29 276 Pn 37 35.70 -6.8HAU 3.34 356 Pn 37 36.56 -6.6

Sn 38 15.26TCF 3.53 299 Pn 37 40.20 0.4CDF 3.76 6 Pn 37 42.40 -0.8DOU 5.60 346 Pn 38 68.30 -6.9

Sn 39 69.80S.D. - 0.6 on 22 of 23 obs.

» DEC 61. 1985 16h 57m 68.57± 1.01s39.572 N ± 8.7km 27.665 E ±10. 6kmDEPTH - 16.6km ( geophy s i c 1 s t )

TURKEY (366)

EDC 6.86 14 iPn 57 25.30 1.2KCT 6.89 40 iPn 57 25.50 -0.1E2N 1.02 285 iPn 57 28.60 0.2ISK 1.86 36 ePn 57 43.50 2.8XDMK 2.25 3 ePn 57 45.10 -1.3YER 2.49 167 ePn 57 49.90 0.0

S.D. -1.3 on 5of 6 obs .

DEC 01, 1985 17h 18m 49.94± 1.30s56.990 N ± 6.0km 6.073 W ±11. 3kmDEPTH - 10.0km ( geophy s i c i s t )

UNITED KINGDOM (533)ML 3.7 (ESK) . Fel t (IV) otMo I I o i g ond Arisoig. Felt olsoon the southern port of the Isleo f Skye .

KYL 0.46 35 iPg 18 58. 40 0.2eSg 19 02.20

EAB 1.25 129 iPbc 19 13.70 0.5eSb 19 28.20

ELO 1.40 111 ePbc 19 15.10 -0.4eSb 19 31.10

EBH 1.60 117 ePbc 19 18.30 0.6EDU 1.74 103 ePbc 19 19.60 -0.8EAU 1.85 127 iPbc 19 22.10 0.1EBL 2.08 125 ePn 19 25.10 -0.2

eSb 19 49.90ESY 2.20 118 ePn 19 26.90 -0.1ESK 2.32 135 iPnd 19 28.70 -0.1

iSn 19 54 .80ECK 2.45 136 ePnd 19 30.50 -0.1XDE 2.89 149 iPnd 19 37.00 0.2EC8 4.65 185 eP 20 61.50 -0.4DOU 9.37 133 Pn 21 68.90 1.0

e 21 15. 60e 22 43.50

S.D. -0.5 on 13 of 13 obs .

* DEC 01. 1985 17h 35m 17.70634 . 1 50 N 117. 326 WDEPTH - 2.0km

SOUTHERN CALIFORNIA ( 43). ML 3.4 (PAS). Felt otSon Bernordino ond Riolto.

RVR 0.16 196 iPc 35 21.20 0.2PEC 0.29 153 IP 35 24 . 10 0.6SOW 0.56 24 iP 35 27.40 -0.3MWC 0.62 277 i PC 35 29.90 -0.1PAS 0.71 270 IPc 35 31.10 -0.7PLM 0.88 154 eP 35 34.30 -1.2TPC 1.06 92 iPc 35 37.80 -0.6CIS 1.17 231 eP 35 38.80 -1.5CSC 1.22 20 IPc 35 40.80 -0.5A8L 1.72 295 iP 35 48.20 -0.8BCH 2.56 295 eP 36 00.00 -0.2BLP 2.58 280 eP 35 59.00 -2.2

12 obs. associated

» DEC 01. 1985 17h 48m 57.27± 0.99s32.328 S ± 9.5km 179.497 W ± 1 5 . 7 kmDEPTH - 33.0km (normol)5 . 1mb ( 5 obs . )


GN2 6.62 197 P 50 32.00 -2.7

KRP 6.91 215 P 56 38.80 0.8VUN 14.38 352 eP 52 20.86 -6.4NOU 15-97 365 iPd 52 39-58 -1.6DZM 16.13 386 iPd 52 43.98 6.7BRS 24.51 274 If 54 18. 88 3.9X

«S 58 41 .88CAN 26.29 255 eP 54 32.28 8.6WAM 26.35 253 eP 54 34.58 2.4YOU 26.86 257 eP 54 35.78 -1.1CTA 32.92 283 eP 55 33.66 2.2

1.2s 25 . 00nm 5.6mb!S 1ft 86.56

ASPA 41.78 276 eP 56 45.06 -8.4WB2 42.93 275 eP 56 54.26 -6.6WRA 42.94 275 Pd 56 54.58 -6.4

1 . 7» 67 . 86nm 5 . 1mbSBA 46.03 184 IP 57 21 . 16 2.2

1.6s 18. 66nm 5 . 6mbWBN 47.65 263 eP 57 27.66 -0.7

6 . 9» 53 . 66nm 5 . 5mbSPA 57.85 186 iPd 58 48.16 0.2

1.0s 30.66nm 5.3mbSUF 145.49 339 iPKP 68 32.30 -0.4

0.8s 6 . 46nmBNG 147.51 215 ePKPd 68 38.76 1.2

1.2s 14. 60nmic 08 45.90

NUR 147.64 338 ePKP 08 35.00 -1.3NB2 150.43 349 PKP 08 45.80 5. IX

1.6s 5 . 86nmHFS 150.84 346 ePKP 0b 46.26 5.0X

6 . 7 1 . 66nmKIC 153.71 168 ePKP 68 54.66 7.2X

S.D. - 1 .5 on 18 of 22 obs.

» DEC 01, 1985 18h 59m 34 . 46± 6.86s17.327 S ±12. 5km 178.561 E ±12. 8kmDEPTH - 29. 1 ± 14 .4 km

FIJI ISLANDS (182)

MBU 6.38 24 iPc 59 44.56 1.4VUN 0.68 188 iPc 59 48.10 0.3

eS 00 09.60SVA 0.79 187 eP 59 49.50 0.0

eS 00 29.60NMS 0.84 207 iPc 59 46.40 -3.9XNDE 1.03 45 eP *>9 52.00 -1.1NDF 1.14 248 eP 59 54.30 -0.2DZM 12.35 246 iPd 02 31.90 0.6

iS 03 59.00NOU 12.43 245 iPc 02 38.50 6.2X

S.D. -1.3 on 6of 8 obs .

DEC 61. 1985 26h 05m 1 1 . 42± 0.28s13.776 S ± 5.7km 166,677 E ± 6.5kmDEPTH - 33.6km (norma 1 )5.3mb ( 13 obs . )


SVO 8.14 364 eP 67 11.00 0.7eS 68 32.66

DZM 8.26 181 iPd 67 13.66 1.6IS 68 51 .66

NOU 8.56 181 iPc 67 16.56 1.3VUN 12.69 112 eP 88 66.80 2.3BRS 18.76 222 P 69 32.66 1.7

eS 13 98.00PMG 19.61 281 eP 09 42.60 1.9CTA 20.51 249 iPd 69 50.60 6.4

1.3s 57 . 69nm 4 . 8mbiS 13 37.00i 17 42.20

CTAO 20.51 249 eP 09 50.00 0.41.3s 42 . 59 nm 4 . 7mb

RMO 21.02 230 iPc 09 56.20 1.4MDG 22.26 290 eP 10 08.60 0.7KRP 25.31 163 eP 16 40.00 3.3XCMS 26.62 224 eP 10 43.60 -0.3YOU 26.36 216 eP 10 49.00 3.1XCAN 26.73 214 eP 11 04.60 14. 8XWAM 27.45 212 eP 10 56.70 0.4STK 29.20 228 eP 11 12.00 -0.2WB2 31.50 254 eP 11 30.70 -2.1WRA 31.51 254 PC 11 30.50 -2.4

0.8s 5 . 1 0nm 4 . 4mbKNA 36.68 262 eP 12 17.00 -0.3WBN 39.49 246 eP 12 40.20 -0.6

28h

PMO

VAH

TPT

RUV

MEKSSESBANJ2WHNMOJIPM

SNYT IACN2

PSIGYAtOENSTTIYXANKM)CHTO

MHCCD28TO

SPA

LZHGTALSACOL

PKI

KKN

DMN

EURNEW

WMOHYBGBASODKJF

SUF

NURMTDBUL

KR 1IKZNB2

MZZ

KHCKBA

MEMLJUVOYTRILORLBFCRCSSFL»»S*»FAVTLPFSOB1

43.96 97 IP 13 21 .68 4. IX1.4s 158.88nm 5.6mb44 .28 98 IP 13 23.28 3 . 8X1.4s 188.68nm 5 . 4mb44 .23 97 IP 13 23.78 4.6X1.4s 85.88nm 5.4mb44.44 98 IP 13 25. 48 4.6X1.4s 118. eenm 5 . 5mb46.69 246 eP 13 38.58 -8.762.43 316 «P 15 33.58 -8.364.86 188 «P 15 42.50 -1.564 .59 316 PC 15 48.38 8.466.86 312 Pd 16 83.88 8.467. 17 332 PC 16 64.68 8.467.63 281 «Pd 16 11.28 3.4X

e 16 28 . 4868. 6& 327 «P 16 1 1 .58 1.468.24 318 «P 16 18.68 -8.668.53 329 Pd 16 12.00 -8.8

«S 25 14.8869.12 278 «Pc 16 16.58 -6.578.76 385 PC 16 27 .48 8.871.18 294 «P 16 28.88 -1.572.86 292 «P 16 35.88 8.772. 17 317 PC 16 35.58 8.472.62 313 IPc 16 38.28 8.473. 31 382 Pc+ 16 43.58 1.274.16 294 «P 16 46.68 -8.41.2s 23 . 26nm 5. 1mb74.49 328 Pd 16 49.68 1.874.97 388 «P 16 52. 16 6.575.33 319 PC 16 54.00 0.5

eS 26 31 .0076.32 180 IPc 16 57.30 -1.41.0S 7 . 50 nm 4 . 7mb77.25 312 IPc 17 06.50 2.881 .59 314 IPc 17 28.88 8.384 .57 382 P 17 43.98 8.385.62 18 «P 17 46.68 -1.58.8s 9 . 78nm 5 . 1mb88.74 299 eP 18 84 .68 8.78.7s 28.88nm 5.7mb88.91 299 eP 18 84 .88 8.38.6s 19.86nm 5.6mb89.81 299 «P 18 85. 78 8.70.7s 39.68nm 5.8mb89. 15 49 «(P) 18 87 .88 1.691.21 48 eP 18 16.86 2.36.9s, 8.66nm 4.8mb X91 .65 315 PC 18 17.88 8.392.29 287 «Pc 18 19.78 -6.492.45 283 P 18 22.08 1.2126.42 343 «PKP 23 54.60 -6 . 5X122.24 340 iPKP 24 02.48 -1.60.7s 16. 06nm

123.75 339 IPKP 24 05.28 -1.8X8.5s 4 . 1 8nm

125.77 338 IPKP 24 16.18 -6.9126.25 237 IPKPd 24 11.76 -1.7126.74 232 «PKP 24 12.96 -1.48.8s 5 . 2 2 rim127.82 236 «PKP 24 15.76 -6.7128.56 245 IPKP 24 18.88 8.1129.55 345 PKP 24 17.86 -1.31.8s 5 . 88nm

131.38 241 IPKP 24 22.58 -8.7« 27 47.861 27 54.88

138.37 333 PKP 24 34.58 -8.9148.88 331 e(PKP)24 38.80 -8.6

1 . 2 f 8 . 3 8 nmi 24 39.68« 38 23.58

146.64 341 PKP 24 39.76 1.5140.18 329 «(PKP)24 37.88 -1.7146.50 336 e(PKP)24 38.88 -1.4148.86 330 «PKP 24 38.26 -1.5143.85 346 ePKP 24 41.80 -2.0X143.85 346 «PKP 24 42.18 -3.0X143.88 341 IPKPc 24 41.18 -4.0X143.04 340 tPKP 24 42.00 -2.3X144,19 336 iPKPc 24 43.06 -2.0X144.20 346 «PKP 24 43.26 -2 . 5X144.23 340 «PKP 24 43.28 -2.SX144.35 346 «PKP 24 44.66 -1.8X144.36 128 ePKP 24 41.88 -5.9X

e 25 48.58

e 28 29.38BGF 144.68 341 IPKPc 24 44.88 -1.5MZF 144.99 341 i PKPc 24 46.36 -8.7TCF 145.84 341 ePKP 24 46.38 -8.8LSF 145.29 342 «PKP 24 47.86 -8.5MFF 145.45 344 ePKP 24 47.38 -6.5CVF 145.49 338 iPKPc 24 47.68 -0.4FRF 145.72 334 iPKPc 24 48.40 0.1LRG 145.93 334 iPKPc 24 49.20 0.5LMR 145.96 334 iPKPc 24 49.00 0.3RJF 146.14 341 ePKP 24 49.70 0.7CAF 146.30 340 «PKP 24 50.30 1.0ITR 146.51 131 «PKP 24 49.20 -1.3

e 24 52.40e 25 13.90

LFF 146.71 342 «PKP 24 51.30 1.4LPO 146.80 341 ePKP 24 51.60 1.5BNG 147.23 257 iPKPc 24 49.80 -1.9

0.7s 66 . 00nmic 24 53.00id 25 05.00

BCAO 147.24 257 «PKP 24 49.50 -2.2X1.1s 62 . 72nm

MLS 148.37 340 «PKP 24 55.40 2.7XEPF 148.55 341 «PKP 24 56.40 3.4XEBR 150.47 338 ePKP 25 04.00 8. IX

S.D. - 1 . 1 on 79 of 102 obs .

* DEC 01. 1985 20h 28m 04 . 73± 1.38s44.074 N ± 8.8km 114.051 W ±11. 7kmDEPTH - 5.0km ( geophy s i c i s t )

WESTERN IDAHO ( 33)ML 3.4 (NEIS) .

HPI 0.78 117 «P 28 20.00 -0.6CCMT 1.19 45 iPc 28 27.20 -0.3TMI 1 .73 1 16 eP 28 36.00 0.2LRM 2.08 32 «Pn 28 40.80 -0.2BUT 2.21 28 «Pg 28 46.30 3.6X

eSn 29 09.70IMW 2.25 93 eP 28 44.10 0.6LCCM 2.34 40 ePn 28 45.10 0.4HRY 3.07 30 «Pn 28 54.80 0.08DW 3.51 110 eP 29 05.00 3.7XNEW 4.70 334 eP 29 18.00 0.0

Lg 30 35.00EUR 4.81 198 IP 29 25.50 5.8X

0.2s 5.62nmS.D. -0.4 on 8 of 11 obs.

DEC 01. 1985 28h 31m 48.97± 0.40s37.497 N ± 9.1km 56.610 E ± 5.4kmDEPTH - 33.0km (normol)4. 7mb ( 12 obs. )

IRAN (348)

MHI 2.60 116 IPnc 32 30.10 0.4e 32 33.00eSn 33 09.00

IR2 4.95 250 eP 33 04.00 0.9eS 34 08.00

TAB 8.16 277 «P 33 47.00 -1.2KER 8.32 251 «P 33 52.00 1.6NDI 19.34 111 «P 36 13.00 -1.5ELL 21.28 276 «P 36 36.00 1.1PSN 22.39 295 «P 36 46.00 0.3VRI 23.73 300 «P 37 00.00 1.2DIM 24.20 291 eP 37 02.00 -1.4MLR 24.21 299 «P 37 06.00 2.4DMN 25.88 104 «P 37 19.60 -0.2

0.7s 22.00nm 4.9mbKKN 25.92 104 «P 37 21.10 1.0

6.7s 26. 0enm 4.9mbVTS 25.97 292 IPc 37 21.00 0.9PKI 26. 13 164 «P 37 23.56 1.3

8.9s 28. eenm 4.9mbVAY 26.48 289 «P 37 24.78 -8.1KRA 29.88 307 «P 37 55.18 7.5X

e 38 81 . 40ZST 30.56 303 >> 38 01.00 -0.6SUF 31.37 333 eP 38 13-00 4.6XLJU 32.21 200 »(P) 38 16.80 0.0VOY 32.65 290 «(P) 38 18.80 -2.0TRI 32.75 298 eP 38 19.90 -0.8BRG 32.91 308 «P 38 23.88 0.9KHC 32.97 305 eP 38 22.58 -0.2

e 39 37.58

MOX 34.36 307 «P 38 36.00 1.4SOD 34.36 340 «P 38 34.00 -0.4HFS 35.28 324 «P 38 43.00 0.6

0.2s 3 . 20nm 4 . 9mbNB2 36.74 325 P 38 53.00 -1.8

0.7s 1 . 90nm 4 . 1mbLPG 37.67 298 «P 39 02.50 -0.6

1.0s 4 . eenm 4 . 2mbWLF 37.84 305 P 39 12.60 8.6XFRF 37.99 295 «P 39 05.00 -0.4

0.8s 9.1 0nm 4 . 7mbDOU 38.84 306 P 39 16.80 4.4XSMF 39.57 301 «P 39 19.70 1.1SSF 39.75 301 «P 39 21.10 1.0

0.8s 4.50nm 4.3mbAVF 39.89 301 «P 39 21.00 -0.2

1.0s 8 . 0enm 4 . 4mbCHG 41.30 105 «P 39 35.50 3.4XMLS 42.09 295 iPc 39 38.10 -1.2BNG 47.86 236 iPc 40 24.20 -1.6

0.7s 13. 00nm 5 . 1mbBCAO 47.87 236 «P 40 24.00 -1.9

0.9s 6 . 18nm 4 . 6mbDAG 50.50 343 «P 40 44.00 -1.3MBC 66.51 359 «P 42 37.00 0.1COL 76.16 10 «P 43 35.00 0.1

0.8s 1 0 . 07nm 4 . 9mbYKA 80.10 356 «P 43 57.20 0.7EDM 89.23 354 «P 44 43.00 0.3

S . D . - 1 . 1 on 38 of 43 obs .

DEC 01. 1985 21h 29m 41.89± 1.73s24.267 N ± 7.2km 121. D65 E ±17. 4kmDEPTH - 10.0km ( geophy s i c i s t )

TAIWAN (244)

TWO 0.31 233 IPd 29 47.80 -0.5«S 29 52.40

TWC 0.34 358 iPd 29 48.50 -0.4TATO 0.78 334 iP 29 57.10 0.0

«S 30 66.98TWZ 8.87 343 iPd 29 59.80 0.4TWO 0.94 271 IP 30 00.00 0.2TWF1 1.05 210 iPc 30 02.00 0.3

S.D. -0.5 on 6 o f 6 obs .

DEC 01. 1985 23h 07m 14.23± 0.61s27.610 N ±10. 8km 140.020 E ±11. 1kmDEPTH - 33.0km (normol)4 . 4mb ( 1 obs . )

BONIN ISLANDS REGION (212)

CBI 1.99 105 «P 07 46.00 -0.2«S 08 09.00

MAT 9.04 351 (P) 09 18.00 -7.4X«S 11 18.00

BJI 23.29 308 «P 12 19.50 -0.3«S 16 35.00«SS 17 31 .00

WB2 47.59 187 «P 15 48.70 -0.21 15 59.201 16 31 .30

WRA 47.59 187 Pd 15 49.20 0.30.8s 3.48nm 4. 4mb

COL 57.81 29 «P 17 83.96 -6.5pP 17 34.98 138kmX

YKA 72.68 28 «P 18 48.68 8.8DAG 75.84 355 «P 18 54.88 8.2

i 19 26.88S.D. -8. 5 on 7 o f 8 obs .

* DEC 81. 1985 23h 11m 86.66± 6.74s42.318 N ± 7.4km 18.918 E ± 6. 6 kmDEPTH - 18.8km ( geophy s i c I s t )


BDV 8.68 243 «Pg 1 08.90 -8.2 Sg 1 16.36

TTC 6.28 66 «Pg 1 12 .50 0.0 Sg 1 17.40

HCY 8.34 203 «Pg 13.80 6.2eSg 19.50

ULC 6.43 145 ePg 15.59 9.0 Sg 22.50

BRY 8.64 335 ePg 1 19.50 -0.2 Sg 11 30.00

814 23h

OHR 1.6S 136 «Pn 11 42.ee 3.2XS.D. 0.2 on 5 of 6 ob».

DEC 81, 1885 23h 44m 37.41± 2.64*33.255 S ± 9.2km 71.638 W ±26. 5kmDEPTH - 16.6km ( g«ophy 1 c 1 t )

NEAR COAST OF CENTRAL CHILE (135)

ROCH 8.66 62 IPd 44 47.86 -1.8IS 45 66.66

TACH 6.71 124 eP 44 51.56 6.1LNV 6.72 165 iPd 44 56.26 -1.4

iS 45 03.76PEL e.81 82 iP 44 52.56 -6.6

IS 45 65.46SAN 6.84 164 eP 44 54.66 6.3

i 45 11.56BACH 0.96 96 iPd 44 55.86 6.6

IS 45 15.66PCH 1.01 112 IP 44 56.50 -6.1

IS 45 17.66CHCH 1.67 136 IP 44 52.46 -5.1X

i 45 17.96FCH 1.13 94 IP 44 58.66 -6.8

IS 45 26.66RTCV 2.96 63 «Pc 45 27.00 1.6RTCB 2.98 54 «(P) 45 25.00 -0.7RFA 3.64 121 «P 45 29.66 2.5RTLL 3.36 55 e(P) 45 31.66 6.8

S.D. - 1 . 4 on 12 o» 13 obs.

% DEC 62. 1985 66h 65m 17.54± 6.96s29.314 S ± 7.5km 67.676 W ±13. 4kmDEPTH - 16.6km ( g«ophy i c i s t )

LA RIOJA PROVINCE. ARGENTINA (138)

VCA 1.14 366 IPc 65 39.60 0.0S 05 54.00

RTLL 2.34 211 «Pd 05 55.60 -1.1RTCB 2.63 214 «Pc 06 01.30 0.5

S 06 35.80RTCV 2.83 206 eP 06 04.40 0.7FSA 3.35 17 «(P) 06 1 1 .50 0.5SLA 4.78 18 «P 06 31.00 -0.5

S.D. -0.9 on 6of 6obs.

? DEC 02, 1985 00h 11m 32.21± 3.17s23.903 N ±16. 1km 122.817 E ±23. 3kmDEPTH - 10.0km ( g«ophy s i c i s t )

TAIWAN REGION (243)

TWC 1.13 309 IPd 11 53.00 -0.3«S 12 07 .50

TWO 1.13 279 IPc 1 1 52.30 -1.1TWF1 1.50 249 iP 11 59.10 0.0TATO 1.61 312 IP 12 02.00 1.2

S 12 21 .70TWZ 1.64 317 «Pd 12 01.30 0.1ANP 1.74 317 IPc 12 66.50 3.8X

0.7s 328.77nm«S 1213.70

TWO 1.85 282 IPd 12 05.00 0.8SSE 7.31 349 «P 13 20.90 -0.7

S.D. -1.0 on 7 o f Sobs.

» DEC 02, 1985 00h 18m 42.14± 0.86s14.042 S ±12. 0km 166.198 E ±19. 1kmDEPTH - 33.0km (normol)4. 7mb ( 2 obs. )


SVO 7 .92 307 «P 20 39 . 00 1.1VSG 7.94 306 «P 20 37.00 -1.2DZM 7.99 178 i PC 20 38.90 -0.1NOU 8.23 178 iPc 20 41.50 -0.7MAT 56.82 333 «P 28 16.00 -9.8X

0.8s 22.39nm 5.2mbSPA 76.05 180 «P 30 29.50 1.6

0.9s 2.73nm 4. 3mbCOL 86.02 18 eP 31 20.00 -0.2SLR 123.06 226 iPdiff34 02.90 -5.8XSOB1 144.56 129 «PKP 38 16.70 -1.3ITR 146.68 131 «PKP 38 22.20 0.7BNG 146.72 256 IPKPc 38 24.30 2.7X

0.9s 1 0 . 00nmIc 38 34.50

BCAO 146.73 256 «PKP 38 24.00 2.4X

1 . 0« 3 . 00nmS.D. -1.2 on 8 o f 12 obs .

DEC 02. 1985 00h 44m 03.64± 0.49s26.391 N ± 6.9km 164.953 E ± 6.5kmDEPTH - 33.0km (normol)4 . 2mb ( 6 obs . )

EASTERN CHINA (664)

GYA 1.54 87 Pg 44 36.60 1.4Sg 44 50.00

KM) 2.36 238 Pnc 44 44.00 2 . 9XPg 44 51 . 00Sn 45 19.00Sg 45 28.00

CD2 4.62 347 «Pn 45 14.28 1.2Pg 45 30.20

GZH 8.31 112 P 46 03.50 -1.2i S 47 31 .50Lg 48 25.96

XAN 8.36 23 iPc 46 03.30 -2.2S 47 33.00Lg 48 10.00e 48 25.00

OIZ 8.60 147 «P 46 06.60 -2.3MCO 8.93 117 «P 46 50.40 37 . 1 XWHN 9.25 61 Pd 46 17.00 -0.7

iS 48 00.50Lg 48 48.00i 49 12 . 00

CHG 9.36 218 «P 46 21.00 1.6LZH 9.71 355 P 46 25.00 0.7

S 48 08.00Lg 49 12.50

LSA 12.63 288 P 47 03.70 -0.5TIY 12.94 27 eP 47 05.50 -2.4NJ2 13.38 62 PC 47 13.40 -0.3

i Lg 51 12 .00GTA 13.68 343 P 47 15.60 -2.18TO 14 . 78 15 «P 47 31 . 00 -1.1

eS 50 08.00Lg 51 38.50e 51 56.00

HHC 15.43 19 «P 47 35.00 -5 . 5XBJI 16.52 32 (P) 47 49.00 -5.3X

eS 50 48.00eLg 52 41 .00

PKI 17.46 278 eP 48 05.20 -1.40.7s 12. 00nm 4 . 1mb

KKN 17.58 279 «P 48 06.60 -1.30.8s 17. 00nm 4 . 2mb

DMN 17.73 278 eP 48 08.50 -1.40.6s 1 2 . 00nm 4 . 2mb

IPM 22.01 190 ePc 48 55.00 -2.0WMO 22.32 326 eP 49 01.50 1.6CN2 24.04 38 PC 49 17.50 1.0

S 53 26.00NDI 24.68 282 «P 49 23.50 0.6WRA 54.17 145 Pd 53 29.90 1.7

0.6s 1 . 50nm 4 . 2mbWB2 54.18 145 eP 53 29.20 1.0KJF 61.04 331 «P 54 19.00 2 . 9XSOD 61.45 334 IP 54 20.70 1.8SUF 61.80 329 «P 54 27.00 5 . 8X

0.7s 2 . 40nm 4 . 4mbNB2 69.04 329 P 55 08.50 0.6

0.5s 0 . 80nm 4 . 0mbDAG 71.61 348 eP 55 24.00 0.8COL 73.36 25 «P 55 35.00 1.3MBC 74.00 10 eP 55 39.00 1.8INK 76.35 19 eP 55 51.00 0.3YKA 85.96 17 eP 56 43.80 2.3SDV 144.67 352 «PKP 03 38.80 -0.8

i 05 32.90S . D . - 1 . 5 on 30 o f 36 obs .

? DEC 02. 1985 01h 01m 47.48± 0.70s13.064 N ±13. 5km 87.167 W ±13. 8kmDEPTH - 190.0km ( g« o phy s i c 1 s t )4.5mb ( 5 obs . )

HONDURAS ( 72)

TOV 17.34 99 «P 05 39.80 0.2CAR 19.97 95 iPd 06 07.00 -0.2

0.4s 37 . 29nm 5 . 2mbLTX 22.29 319 «P 06 30.30 0.5

0.7« 5 . 03nm 4 . 2mb

e 07 03. 10BHO 22.34 343 «P 06 32.00 1.8

0.6« 4.30nm 4.2mbTUL 24.04 343 «P 06 46.60 0.1

0.8* 19 . 60nm 4 . 8mbTPZ 40.26 148 IP 69 08.80 0.9FFC 43.16 347 «P 09 36.00 -0.7

0.7* 13.06nm 4.6mbSCH 44.62 17 «P 09 42.06 -0.4YKA 53.10 344 «P 10 46.20 -6.9WB2 139.69 255 ePKP 26 54.30 -6.8WRA 139.70 255 PKPd 26 54.70 -0.4

0.5s 4 . 06nmS.D. - 0.9 on 11 of 11 obs.

DEC 02. 1985 01h 63m 23.051 0.54s27.983 N ± 3.2km 129.506 E ± 3.2kmDEPTH - 34.7 ± 5.6 km5.1mb ( 22 obs.) 4.6asz ( 1 obs.)

RYUKYU ISLANDS (238)F« 1 t (III JMA) ot Noz«.

NZJ 6.39 359 IPc 63 42.20 0.1iS 03 48. 16

NGO 1.94 225 «P 04 05.00 0.7S 04 37.40

NAH 2.39 223 PC 64 11 .50 0.8S 04 48.50

MVI 2.64 144 P 04 13. 10 -1.1 S 04 42.06

KAG 3.69 14 «P 04 38.00 8.9XS 05 19.50

KUM 4.92 12 eP 04 56.00 9.4X«S 65 52.00

SHK 7.07 22 «P 05 'J6.50 -0.3SSE 7.88 295 «P 05 28.00 -0.2

Lg 68 08.00NJ2 10.68 296 PC 05 58.00 -0.6OZH 10.24 255 «P 06 83.00 2.3OYM 11.12 46 «P 06 11.90 -0.9SRY 11.26 45 «P 06 14.30 -0.3MAT 11.27 39 «P 06 14.00 -0.7DOR 11.46 43 «P 06 20.30 2.9XTSK 12.16 45 «P 06 26.10 -0.7CVP 12.44 216 «P 06 26.20 -4.3XDL2 12.72 331 «P 06 40.00 5.8X

«S 09 00.00TIA 13.31 311 eP 06 41.60 -0.5WHN 13.47 285 P 0b 46.40 2.2SNY 14.64 342 IPc 07 03.00 3 . 6X

«S 09 40.50CN2 16.12 349 «P 07 22.00 3.4X

«S 19 24.00BJI 16.31 321 «P 07 23.00 2.0

«S 10 33.00PGP 16.47 211 «Pc 67 19.60 -4 . 1 XMDJ 16.60 0 «P 67 29.00 4.4XTIY 17.29 308 «P 07 36.80 3.3XXAN 18.64 294 «P 07 56.00 -0.1

«S 11 18.66HHC 19.54 316 eP 08 61.00 0.2

S 1 1 43.00PJG 20.25 132 «(P) 68 68.50 0.3GUMO 20.25 132 «(P) 08 69.60 1.4GUA 20.32 132 «(P) 08 09.00 0.1

0.9s 127.73nm 5.3mbGYA 20.37 271 PC 08 09.60 0.0BTO 20.38 313 «P 08 10.00 0.4

«S 11 59.00PPR 20-76 211 «Pc 08 15.00 1.5CD2 22.60 284 «P 08 31.20 -0.7

S 12 34.00KM) 24.10 269 Pc+ 0B 47.50 0.7

E 1 5s 1 . 30umS 13 04. 06

KKM 25.20 212 «Pd 09 02.56 5.2XGTA 27.09 303 iPd 09 13.60 -1.0LOE 27.64 254 «P 09 17.00 -2.6CHG 29.43 259 i PC 09 35.08 -0.8

0.9s 26 . 05nm 5 . 0mb«S 14 44.00

CHTO 29.43 259 iP 09 35.20 -0.60.8s 22 . 69nm 5 . 0mb

pP 09 42.90 27kmXBDT 36.04 256 «P 09 39.20 -2.0

0.6s 4 . 00nm 4 . 4mbNNT 31.73 247 «P 09 56.00 -0.1

10

82d

LSAIPMKGMWMOPK 1KKNDUNPMGKNANO 1WRA

HYBWB 2GBACTA

CTAO

ASPA

POO

WBNBRSOZMNOUNWAOCOL

RKGYOU

CAN

WAM

1 NKMBC

KEVSODKJF

SUF

NUR

Z

DAGUPPYKAYKC

SLL

NB2

KRPJMBKRA

SPCDIMKDZPNT

KSPVTSEOMSROMMBZSTBRG

CLL

PRU

VAYSKOKHC

33.54 282 Pd 18 11.48 -6.935.72 235 «Pd 18 31.88 8.535.96 229 eP 18 33.58 8.936.95 387 P 18 48.58 -8.238.86 288 IP 18 56.88 -8.538.93 288 IP 18 57.38 -8.439. 1 1 288 IP 18 59. 18 -8.248.91 153 eP 11 14.88 8.243.48 181 eP 11 34.58 -8.245. 72 284 iP 1 1 51 .58 -1.347.87 174 Pd 12 89.88 -8.71.2s 41 . 78nm 5. 3mb47.87 269 eP 12 88.98 -1.147.87 174 iPc 12 88.48 -1.458.38 265 P 12 28.88 -8.458.46 159 iPc 12 29.48 -8.21.1s 61 . 39nm 5 . 5mb58.46 159 eP 12 29.68 8.88.8s 37.62nm 5.4mb

pP 12 38.88 28kmX51.52 175 eP 12 37.88 -8.71.1s 21 .88nm 5.8mb51.62 272 IP 12 37.88 -8.98.9s 13.45nm 4.9mb53.88 183 iPc 12 54.98 -8.359.42 186 P 13 33.88 -8.861 .23 141 iPc 13 46.88 -1.261 .42 1*1 iPc 13 47 .88 -1.361 .69 192 «P 13 48.88 -2.861 . 9C 29 eP 13 51 .88 -8.58.7s 6.1 6nm 4 . 8mb62.84 192 eP 14 88.88 2.464.45 163 iPc 14 88.48 0.1

i 14 16.9065.68 163 iPc 14 16.18 0.4

i 14 24. 7066.39 163 iPc 14 21 .38 0.7

i 1 4 29.2866.84 24 ePc 14 22 . 18 -1.067. 86 14 eP 14 29.88 -0.58.7s 25.88nm 5.4mb68.73 339 eP 14 37.80 5. IX69.26 336 IP 14 37.08 -1.378.89 333 eP 14 42.88 -1.38.6s 13. 88nm 5 . 2mb

i 14 51 .3071.33 332 iP 14 58.88 -0.98.9s 13.38nm 5.8mb72.94 338 IP 15 88.88 -0.48.7s 18.68nm 5.2mb19s 8.38um 4.6Msz

LR 58 38.8873.63 353 eP 15 85.88 8.476.31 331 IP 15 19.48 -8.476.46 25 eP 15 21 .28 8.576.52 25 ePc 15 28.50 -8.51.3s 28.88nm 5.1mb77.75 333 eP 15 27.80 -8.88.9s 28.10nm 5.3mb78.24 334 P 15 28.98 -1.78.8s 18.28nm 5.1mb78.47 144 P 15 32.88 0.888.35 313 IP 15 42.88 -8.388.45 322 ePd 15 42.98 0.3

15 51 .3888. 74 021 eP 15 45.88 1.381 .28 311 eP 15 48.88 1.281 .56 313 «P 15 51 .88 2.481 .57 38 eP 15 49.88 8.41.8s 14. 88nm 4 . 9mb81 .95 J24 «P 15 51 .88 8.582.45 314 tPd 15 54.88 0.882.51 33 eP 15 54.88 0.682.57 321 IP 15 57.58 3.7X82.63 313 iPd 15 55.88 8.783.83 321 «P 15 56.58 8.383. 15 325 eP 15 99.88 3. IX1.8s 8 . 88nm 4 . 8mb

16 86.8883.36 326 iP 15 58.38 8.5

IpP 16 86.88 27kmx83.36 324 P 15 58.58 8.7

16 86.5883.51 314 eP 15 58.68 -8.283.89 315 IP 16 81 .80 8.384.38 324 iPd 16 83.68 8.5

16 1 1 .30

MOX 84.46 326 «P 16 84.88 8.6OHR 84.76 314 eP 16 83.80 -1.3GRF 85.25 325 eP 16 08.88 -7.4XSES 85.39 34 e'P 16 88.80 -8.1LJU 85.71 321 eP 16 88.50 -1.2KBA 85.74 322 eP 16 89.50 -8.6

8.8s 18.58nm 5.1mbi 16 17 .70

VOY 86.87 321 eP 16 11.40 -8.3TRI 86.34 321 eP 16 17.40 4.6XFFC 86.52 27 iPc 16 14.00 8.5

0.9s 26.08nm 5.5mbLRM 87.54 38 eP 16 20.28 1.2OOU 88.22 328 P 16 21.78 -8.1EUR 89.34 45 iP 16 28.50 8.8

1.8s 7 . 69nm 5. 0mbCWC 89.77 48 eP 16 37.00 7.3XCLC 98.44 48 «P 16 34.88 1.3PLM 92.37 58 «P 16 43.88 1.3TPC 92.47 49 eP 16 43.88 8.9BAR 92.89 51 «P 16 46.88 2.8GLA 93.92 49 eP 16 58.88 1.3KIC 124.19 381 ePKP 22 38.40 8.0XNNA 150.67 62 iPKP 23 23.88 5.7X

1.2s 39 . 86nmHUA 151.88 61 ePKP 23 28.70 8.3XITR 157.74 327 ePKP 23 44.50 16. 7XZOBO 159.96 58 ePKP 23 32.88 1.2LPB 168.15 59 ePKP 23 34.88 3.2X

LR 31 23.88CNCB 168.46 59 ePKP 23 32.88 8.7

i 24 13.50S.D. - 1.8 on 185 of 127 obs .

« DEC 82. 1985 01h 18m 56.28± 2.17s32.124 N ±18. 6km 139.535 E ±12. 5kmDEPTH - 19.8 ± 9. 4 km4 . 5mb ( 1 obs . )

SOUTH OF HONSHU. JAPAN (211)

HJJ 1 .80 12 eP 1 1 15.88 8.3 S 1 1 28 . 88

KYS 3.11 9 eP 1 1 45.20 8.0OYM 3.30 356 eP 11 48.78 0.7SRY 3.48 356 eP 11 51.80 1.3DOR 3.87 356 eP 11 47.50 -8.7XTSK 4.10 7 eP 1 1 58.50 -8.9MAT 4.54 346 iPc 12 11.18 5.5X

IS 13 86.30SHK 6.22 295 eP 12 27.58 -1.8SNY 15.99 312 eP 14 58.88 8.4XWHN 21.56 272 eP 15 47.58 1.8XAN 25.68 283 «P 16 27.98 1.3COL 54.10 30 e(P) 28 21.88 -8.5MBC 61.66 15 «P 21 14.88 -0.6YKA 68.84 29 eP 22 06.98 5.9XSOD 68.89 338 «P 22 85.88 3.7XKJF 78.26 334 eP 22 89.88 -8.7NB2 78.18 337 P 22 54.88 -8.3

8.7s 3 . 28nm 4 . 5mbLRM 78.77 43 eP 22 59.88 8.4ZOBO 150.36 64 PKPc 38 49.08 5.4XLPB 158.54 65 PKP 30 55.88 11. 3XCNCB 158.79 65 PKP 38 55.08 18. 8XTPZ 155.14 71 (PKP) 30 46.88 -4.8X

S . D. - 1 . 1 on 13 of 22 obs .

& DEC 82, 1985 03h 22m 38.28s36. 188 N 1 19.978 WDEPTH - 6.8km ( geophy s i c I s t )

CENTRAL CALIFORNIA ( 39). ML 3.0 (PAS) .

PHAM 8.44 233 IP 22 46.80 -1.8FRI 8.91 13 eP 22 57.28 1.2BCH 8.92 186 eP 22 53.58 -2.7ISA 1.29 189 eP 23 81.78 -8.8ABL 1.39 154 eP 23 81.80 -3.3BLP 1.58 193 eP 23 84.58 -2.2

6 obs . asaac i a t «d

? DEC 82. 1985 85h 14m 56 . 75± 5.64s22.868 N ±39. 3km 121.588 E ±22. 4kmDEPTH - 18.8km ( geophy s I c i s t )

TAIWAN REGION (243)

TWF1 8.55 332 IPc 15 88. 10 0.1

eS 15 12.20TWK 1.88 292 IPd 15 17.28 0.8TWO 1.21 1 eP 15 19.38 0.0TWO 1.57 334 IPc 15 24.50 -0.2TWC 1 .76 8 ePc 15 27 .58 0.1

S.D. - 0.1 on 5 of 5 obs.

DEC 82. 1985 86h 16m 19.67± 0.63s42.348 N ± 6.6km 19.925 E ± 4.9kmDEPTH - 18.0km (geophysicist)


PVY 8.26 8 iPgc 16 25.00 -0.2 Sg 16 30.88

TTG 0.50 281 ePg 16 29.40 -0.4 Sg 16 39.58

ULC 8.63 233 ePg 16 .32.00 -8.3 Sg 16 42.00

BDV 8.82 266 «Pg 16 35.88 0.3eSg 16 50.88

HCY 1.86 276 ePg 16 40.20 8.5eSg 16 57.58

SKO 1.18 188 ePn 16 42.88 8.2OHR 1.39 152 IPn 16 45.00 -8.2VAY 2.22 116 ePn 17 01.30 4.2X

S.D. -8.4 on 7of Bobs.

? DEC 82. 1985 86h 41m 33.24± 3.51s23.688 N ±11. 7km 122.484 E ±31. 9kmDEPTH - 18.8km ( g«o phy s i c I s t )

TAIWAN REGION (243)

TWO 8.91 296 iPd 41 50.68 0.0eS 42 01 .50

TWC 1.89 328 eP 41 53.88 0.1eS 42 87.58

TWG 1.56 237 IP 42 01.80 8.8eS 42 21 .80

TATO 1.58 325 e(P) 42 00.88 -0.5TWZ 1.63 330 iPd 42 82.50 0.4

S.D. -0.4 on 5 of 5 obs .

DEC 82, 1985 87h 14m 36.96± 0.12s41.158 N ± 2.2km 139.886 E ± 2.4kmDEPTH - 21.9km ( 5 depth phases)5.4mb ( 66 obs.) 5.6Msz ( 2 obs.)

HOKKAIDO, JAPAN REGION (224)Felt (IV JMA) at Fukoura and(III JMA) at Aomori, Honshu.Felt on Hokko i do .CENTROID, MOMENT TENSOR (HRV)Data Used: GDSNL.P.B. : 14S, 26CCentroid Location:Origin Tim* 87:14:40.2 0.3Lot 41.19N 8.86 Lon 139. 41E 8.85Dep 22.3 2.6 Half-duration 2.1Moment Tensor; Scale 18**24 D-CM

Mrr- 2.89 8.88 Mtt 8.19 8.88Mff--1.91 0.12 Mrt- 8.18 8.16Mrf- 8.36 8.18 Mtf- 8.68 0.89

Pr i nc i po 1 Axes :T Vol- 2.14 Pig-83 Azm-386N 8.83 6 162P -2.16 4 71

Best Double Coup 1 e : Mo-2 . 1 « 1 0* *24NP1 : S t r I ke-155 Dip-41 Slip- 81NP2: 347 49 98

AOM 8.81 114 IPd 14 51.58 -8.8iS 15 81 .08

HAK 8.97 47 IPd 14 54.70 -0.3IS 15 87.48

HAC 1.45 115 IPd 15 01.40 -0.6IS 15 19.88

AK 1 1.46 171 iPc 15 82.68 8.6IS 15 21 .88

MRR 1.46 37 Pd 15 82.48 0.4IS 15 25.78

SUT 1 .66 1 1 PC 15 86.28 1.1S 15 26. 48

MRK 1.79 144 Pd 15 87.58 0.5IS 15 38. 70

SAP 2.21 38 eP 15 13. 08 0.0eS 15 39.80

Ml Y 2.24 132 P 1513.78 0.3

11

67h

URA

OFU

YAM

ISN

OBI

RMJ

ASA

A 1 K

FKSKUS

ABJ

WAJ

WAK

UTS

NGN

MAT

MIT

TSKKMG

DDRSRYKOF

OYMKYSMl SHMMSMKCN2SNY

BJ 1

SSE

T IA

NJ2HMC

T 1 YANPBTO

WHN

OZH

XAN

PJGGUMOGUA

CVP

LZH

S 15 42.202.44 65 «Pd 15 17.68 0.7

S 15 46.002.56 144 «P 15 19.08 1.1

S 15 53.002.93 172 «P 15 24.00 0.8

16 00.002.96 157 «P 15 24.00 0.4

IS 16 08. 703.09 54 «P 15 28.00 2.5

S 16 02.303.10 25 «P 15 28. e0 2.4

S 16 64.703.23 35 «P 15 30.00 2.6

S 16 08.003.36 202 «P 15 30.00 0.7

S 16 08.703.44 171 «P 15 35.00 4.6X3.87 60 «P 15 36.00 -0.5

S 16 20.004.37 48 «P 15 45.00 1.4

S 16 34.004. 39 212 «P 15 45.00 1.1

eS 16 39.004.47 17 «P 16 03 .00 18. 0X

S 16 48.004.61 179 eP 15 50 .00 2.9X

16 44 . 0ft4.66 196 «P 15 53.00 5. 1X

S 1643.004 .77 196 iPc 15 40.50 0.1

0.5* 105.63nmIS 16 42.60

4.80 174 «P 15 52.00 2.3eS 16 50.00

4 . 94 1 77 «P 1554.10 2.35.01 184 «P 15 58. 00 5.2X

eS 16 05.705.17 186 eP 15 59.20 4. 1X5.56 184 eP 16 04.90 4 4X5.57 191 eP 16 07 .60 6. 3X

eS 1 7 1 6 . 005 . 75 185 eP 16 06.00 2.85. 96 177 «P 1610.10 4 .OX6 . 08 1 87 eP 1612.00 4 . 3X6. 65 105 «P 16 23.00 7 . 2X8 .69 223 iPd 16 46.00 1.710.93 289 PC 17 16.00 0.912.19 278 PC 17 33.80 1.6

S 19 57 .0017 .07 274 P+ 18 40.00 2.0

Z 17s 9.20um pP 18 55.00ePP 19 05.00 S 22 10.00esS 22 22.00 SS 22 39.00

18.05 242 P + 18 48.00 0.11.4* 1 56 . 00nm 5 . 0mb

Z 13s 1 7 . 10 urnN 18s 28.80umE 17s 6.30um

S 22 1 1 .0018.37 262 «P 18 53.00 1.1

pP 19 00.0019.08 248 Pd 19 01 .00 0.421 .28 270 PC 19 24.20 0.0

pP 19 30.00 21kmS 23 19. 00

21 .38 270 «P 19 24.80 -0.422.02 229 eP 19 25.00 -6.7X22.48 278 PC 19 35.50 -0.7

pP 19 42.80 23km23. 1 1 251 eP 19 40.60 -1.7

IS 23 53.0023.94 234 eP 19 49.00 -1.3

S 24 07.0025.30 264 «P 20 03.00 -1.3

pP 20 09.00 21km27.82 160 «(P) 20 24.10 -2.527.82 169 e(P) 20 23.10 -3.5X27.87 169 e(P) 20 36.00 8.8X0.8s 149.25nm 5.8mb28.02 219 eP 20 28.00 -0.41.0» 83.00nm 5.4mb28.41 272 iPd 20 31.50 -0.6

pP 20 37.00 19km

GZHHKC

BAG

GTAC02

GYAOCPPGPKM I

DAV

WMOLSACMC

CHTO

NSTTTASVWBRWI MA

PMSPMRPME

KKNPK 1

COL

F8ADMN

TOAKSHMKS1 PMPMG1 NK

NO 1

MBC

KUPTVSGALE

HSPHYBKNAODE

KEV

POOGBA

BOM

SOD

YKARSNTYKC

WB2

WRA

CTA

S 25 21.00 CTAO 61.22 173 «P 24 54.80 -1.728.59 239 «P 20 35.00 1.5 DAG 61.57 355 IPd 24 52.50 -1.828.62 237 «P 20 32.00 -1.8 0.5» 15.49nm 5.4mb

S 25 29.00 KJF 62.28 333 «P 24 59.00 -0.229.73 220 «P 20 42.00 -2.1 SUF 63.75 332 IP 25 03.16 -0.8

S 25 44.00 0.5* 8.80nm 5.2mb30.38 280 PC 20 47.50 -2.1 ASPA 64.72 186 «P 25 14.00 -1.630.70 262 «P 20 50.00 -2.4 1.3* S5.08nm 5.5mb

S 25 51 .00 «S 33 56.0030.98 252 P 20 56.00 1.0 NUR 65.74 331 IP 25 21.20 -0.631.04 217 «P 21 02.00 6.6X 0.5* 16.80nm 5 . 4mb32.09 216 «Pc 20 55.00 -9.6X Z 16» 1 . 38um 5.2M»zX34.61 254 eP 21 27.00 0.2 «S 34 28.00

E 12s 7.60um LR 56 30.00S 26 42.00 PNT 66.11 45 IPc 25 23.90 -0.5 S 27 10.00 0.8* 14.00nm 5.2mb

36.22 204 eP 21 41.00 0.8 EDM 66.90 39 «Pc 25 28.00 -1.4 S 27 35.00 DZM 67.60 153 IPc 25 33.80 -0.3

38.00 292 Pd 21 54.50 -0.5 RMO 67.81 171 «P 25 35.00 -0.340.78 270 «P 22 17.00 -1.8 NOU 67.82 153 i PC 25 35.50 0.141.31 250 iPc 22 23.00 0.4 NEW 68.06 45 «P 25 J5.00 -1.80.8* 20.52nm 4.9mb WBN 68.07 193 IPc 25 26.50 -0.4

S 28 32.00 0.9* 105.00nm 6.6mb41.31 250 IP 22 22.80 0.2 NDF 68.22 141 «Pd 25 49.10 11. 2X0.9s 24.08nm 4.9mb MFW 68.80 47 P 25 41.40 0.042.62 245 eP 22 24.60 -8.7X BRS 69.25 168 P 2b 49.16 4.9X42.83 37 «P 22 34.90 0.3 «S 34 47.0043.07 40 «P 22 37.60 1.0 WDC 69.62 54 i PC 25 46.10 -0.443.16 25 «(P) 22 36.60 -0.5 i 25 54.8043.84 33 eP 22 42.50 -0.3 SLL 60.89 335 «P 25 45.80 -0.70.9s 30.20nm 5.1mb 0.4* 5.10nm 5.6mb45.98 39 «P 22 59.80 -0.1 SES 69.81 40 «P 25 46.00 -1.546.13 39 P 23 00.10 -0.9 ORV 70. B8 54 iPc 25 53.00 -1.246.18 39 «P 23 01.50 0.1 i 26 01.800.8s 18.80nm 5.1mb FFC 70.92 33 iPc 25 53.20 -0.946.19 271 eP 23 02.20 0.0 2.0* 138.00nm 5.7mb46.21 271 eP 23 02.40 -0.1 LRM 72.08 44 «P 25 56.90 -4.7X0.9s 23.00ntn 5.1mb JAS1 72.55 55 iPc 26 03.80 -0.446.34 34 iPc 23 02.90 0.2 e 26 11.201.0s 165.00nm 6.0mb HP I 73.11 46 P 26 07.00 -0.846.34 34 ePc 23 03.00 0.3 MRWA 73.41 202 eP 76 08.50 -0.646.41 271 eP 23 04.00 -0.1 FRI 73.58 55 «P 26 09.40 -0.70.8s 35.00nm 5.4mb MNA 73.61 53 «P 26 10.70 0.247.44 38 e(P) 23 12.80 0.5 TMI 74.03 46 P 26 13.60 0.647.71 290 PC 23 17.00 3.0X pP 26 21.20 24km49.77 207 ePd 23 30.00 0.2 1 MW 74.16 45 P 26 14.40 0.650.30 234 ePd 23 34.90 0.9 EUR 74.24 51 iP 26 13.00 -1.350.77 171 eP 23 37.00 -0.4 1.0» 7.69nm 4.7mb51.33 28 iPc 23 40.20 -0.9 VR I 74.80 318 ePc 26 17.00 -0.10.6s 530.00nm 6.6mb X CWC 74.94 55 eP 26 17.00 -1.351.79 277 iPc 23 44.00 -1.3 KRA 75.00 325 iPc 26 18.20 0.11.0s 20.00nm 5.0mb 0.6s 620.00nm 6.8mb X52.94 17 eP 23 52.00 -1.3 Z 18s 7 . 30um 6.0M«z1.0s 56.00nm 5.4mb N 18» 4.50um53.19 200 «P 23 46.00 -9.7X E 18* 4 . 30um53.41 155 P 23 56.00 -1.3 e 26 23.2056.08 3 IPc 24 15.00 -1.1 ISA 75.19 56 «P 26 20.60 0.41.3s 66.00nm 5.5mb KLB 75.20 199 IPd 26 18.90 -0.557.14 347 eP 24 23.00 -0.8 MLR 75.46 318 «Pd 26 21.66 0.057.20 265 «P 24 24.00 -0.9 YOU 75.48 173 «P 26 21.20 6.357.53 193 «P 24 26.00 -1.0 SPC 75.50 324 «P 26 22.10 0.858.62 284 iPc 24 33.90 -1.0 DUG 75.60 49 P 26 22.26 0.21.2* 1109. 38nm 6.8mb X CLC 75.63 55 «P 26 21.60 -1.1

S 32 40.30 BDW 75.65 45 P 26 21.86 -0.659.15 338 «P 24 38.00 0.1 1.5s 61.43nm 5.4mb

Z 16s 4.40um 5.7MszX ADE 75.76 181 IPd 26 23.00 0.5e 24 49.00 KSP 75.95 327 IPc 26 23.50 -0.1eS 32 48.00 NOP 76.32 54 P 26 26.20 0.2LR 54 22.00 MWC 76.38 56 eP 26 26.00 -0.5

60.06 269 iP 24 44.40 -0.5 GSC 76.46 55 «P 26 26.00 -0.860.41 262 Pd 24 45.60 -1.6 CAN 76.57 172 «P 26 27.10 0.00.8s 15.10nm 5.2mb PSZ 76.59 323 IP 26 28.00 0.760.63 270 «P 24 41.00 -7.6X NWAO 76.60 109 «P 26 27.60 0.3

eS 33 03.00 Z 23s 0.30um 4.5MszX60.69 336 IP 24 47.70 -0.7 BRG 76.88 328 IPc 26 28.60 -0.2

i 24 56.20 2.0s 85.00nm 5.4mb60.89 31 «P 24 49.40 -0.5 i £6 35.0060.91 31 P 24 48.80 -1.1 I 27 14.0060.95 31 ePc 24 49.00 -1.3 e °9 50.501.3s 40.00nm 5.4mb CLL 76.91 329 «P 26 29.00 0.161.00 186 iPc 24 49.00 -1.9 2.2* 150.00nm 5.6mb

i 24 55.30 RVR 76.96 56 «P 26 28.00 -1.561.00 186 Pd 24 49.60 -1.4 PRU 77.33 327 PC 26 31.80 0.50.5s 20.20nm 5.5mb 2.1s 130.40nm 5.6mb61.22 173 IPc 24 50.80 -1.7 Z 13s 3.00um 5.8MszX1.4s 50.00nm 5.5mb N 13s 1.50um

IS 33 10.00 E 13s 2.50um

12

02d 87h

SRO

WAMZSTPLMTPCVKA

DIMHR ISOP

BARKHC

KDZPLDWTS

WET

EKA

GRF

VTSGLAMMBJERENN

MEMFURKBA

GLO

VAYSKO

PRN IVOY

SNFWLFTR IDOUOHRCDF

OSSLLSBSF

HAD

VOLTMAALODl XEMSFIRLOR

LBF

GRCSSF

LPG

5MF

AVF

GRR

BGF

LPF

MZF

77 .38 324 IP 26 32.08 8.4I 26 39.88

77 .42 172 *P 26 33.88 1.377.63 325 IP 26 33.80 8.977. 7e 56 eP 26 34.88 8.177.71 55 *P 26 33.88 -8.777.91 325 IPc 26 35.28 8.72.4s 269.88nm 5.9mb

Z 1 3s 2. 10 urn 5 . 6MszX78.87 316 eP 26 37.08 1.578.22 384 eP 26 36.08 -8.678.25 325 iPc 26 37.88 8.61.4s 92 . 48nm 5 . 6mb78.26 57 eP 26 35.88 -1.878.39 327 IPc 26 37.58 8.31.5s 53. 58nm 5 . 4mb

e 27 84.5678.48 316 iPd 26 48.86 2.278.49 317 eP 26 39.86 1.278.64 333 eP 26 38.88 -0.41.6s 1 8 . 88nm 5 . 1mb78.66 328 iPc 26 39.16 8.42.8s 141.88nm 5.7mb78.84 339 P 26 48.88 8.68.6s 6 . 68nm 4 . 8mb78.89 329 i PC 26 48.68 8.71 ,9s 267 . 88nm 5 . 9mb

Z 21s 8.98um 5. IMsz78.96 318 iPc 26 41 .88 1.879.17 56 eP 26 42.88 8.279.37 317 iPd 26 44.86 1.479.55 303 IPd 26 43.38 -8.679.98 332 eP 26 46.88 8.41.0s 22 . 88nm 5 . 1mb88.98 332 P 26 46.78 8.580.09 328 IPc 26 46.98 8.588.10 326 IPc 26 46.56 -6.21.3s 55 . 88nm 5 . 4mb

i(PP) 29 53.8688. 1 1 45 P 26 47 .48 8.61.8s * 53 . 85nm 5 . 7mb88. 16 317 eP 26 47 .48 8.680.25 318 IP 26 48.88 8.7

eS 37 81 .8888.64 382 eP 26 58.06 8.488.69 325 eP 26 48.68 -1.1

e(PP) 29 45.8888.76 333 P 26 51 .66 1.888.81 332 PC 26 58.36 8.281.08 325 IP 26 56.46 -6.881 .88 333 PC 26 51 .68 8.581 .21 318 «P 26 52. 18 -6.481.44 338 IPc 26 53.58 -6.11.0s 16.88nm 5.8mb81 .74 328 ePc 26 55.48 0.182.85 328 ePc 26 57.88 8.182.18 338 IPc 26 56.98 -8.21.6s 12 . 08nm 4 . 9mb82.13 331 iPc 26 56.88 -8.31.8s 9 . 60nm 4 . 8mb82.17 328 ePc 26 57.96 6.482.72 328 ePc 27 08.88 -6.482.87 49 P 27 01 .88 8.483.32 329 eP 27 83.88 8.283.52 329 eP 27 84.48 -6.183.62 325 eP 26 58.08 -6.8X83.66 332 IPc 27 84.88 -8.21.1s 38. 28nm 5. 4mb83.85 331 iPc 27 85.78 -0.30.8s 13.48nm 5.2mb83.91 332 IPc 27 86.26 8.883.96 332 iPc 27 06.58 6.60.9s 17.08nm 5.3mb84.86 329 eP 27 87 .58 6.11.2s 39 . 80nm 5 . 5mb84.19 331 IPc 27 87.68 -8.11.8s 24.08nm 5.4mb84.25 332 iPc 27 87.98 8.81.2s 53.58nm 5.6mb84.29 335 IPc 27 08.88 -0.11 .0s 25.68nm 5.4mb84.63 332 eP 27 89.98 8.11.3s 38. 38nm 5 . 4mb84.67 235 IPc 27 18.28 8.21.1s 26 . 38nm 5 . 4mb85.81 332 iPc 27 12.30 8.51.2s 75. 58nm 5.8mb

TCF 85.88 332 IPc 27 12.38 0.11.2s 36 . 88nm 5 . 5mb

KRP 85.21 152 P 27 14.88 1.4LSF 85.36 332 IPc 27 13.70 8.2

8.9s 26.28nm 5.5mbMFF 85.62 334 IPc 27 15.18 0.3

1.8s 48.80nm 5.6mbFRF 85.72 328 *P 27 15.88 -8.3

1.8s 13 . 60nm 5 . 1mbLRG 85.92 328 eP 27 16.30 8.8

1.2s 17. 80nm 5 . 2mbLMR 85.96 328 eP 27 16.38 -8.2

1.1s 26 . 30nm 5 . 4mbCDR 85.97 328 *P 27 17.10 8.5

e 27 22.80RJF 86.18 332 eP 27 18.10 0.5

1 .8s 24.80nm 5. 4mbCAF 86.31 331 IPc 27 19.10 0.8

1.2s 58 . 50nm 5 . 6mbLFF 86.77 332 *P 27 21.40 8.9

1.8s 41 . 66nm 5 . 6mbLPO 86.83 332 *P 27 21.58 6.7

1.1s 39 . eenm 5 . 5mbOCO 87.35 43 *(P) 27 24.88 8.5TUL 87.91 42 *P 27 25.88 -6.3

8.8s 17. 56nm 5 . 4mbe 28 34.46

RLO 88.89 41 «P 27 26.58 -6.6MLS 88.36 331 *PKP 27 32.66 4 . 4X

e 27 37.48e 27 43.58

LTX 88.56 51 P 27 29.46 -8.11.7s 34 . 78nm 5. 4mb

MNT 88.69 23 eP 27 38.80 6.3BHO 89.58 42 eP 27 34.66 -6.1JCT 89.94 48 IP 27 35.86 -6.1

1.6s 58.33nm 5.6mbSLR 122.21 263 IPKPc 33 31.56 -6.4KIC 122.63 317 *PKP 33 32.36 -8.5SPA 138.97 188 ePKPd 33 41.86 -5.6X

8.5s 9 . 26nmCAI 145.41 355 ePKP 34 15.56 6.3ZOBO 145.42 52 *PKP 34 14.46 -1.4

1.8s 58. 51 nmZ 23s 8.38um S.IMszX

LR 24 36.88LPB 145.64 53 PKPc 34 18.88 2.8

LR 22 24.88CNCB 145.92 53 IPKP 34 17.56 8.8ITR 147.76 357 e(PKP)34 16.88 -2.9X

e 34 26.68e 34 26.66e 34 51 .96

ITR 147.76 357 «PKP 34 26.68 1.7SOB1 148.18 1 ePKP 34 21.66 1.9

e 34 29.86TPZ 158.84 55 PKP 34 26.66 2.8

S.D. - 1.8 on 221 of 248 obs.

* DEC 82, 1985 88h 23m 34.84s62.254 N 149.258 WDEPTH - 43.5km

CENTRAL ALASKA ( 1 ).

GHO 8.51 162 IP 23 45.59 -6.4IS 23 53 .65

SML 8.62 135 IP 23 47.85 -8.4iS 23 57.86

PME 6.64 178 IP 23 46.89 -6.7IS 23 56.33

PLRM 8.67 175 IP 23 47.89 -8.9IS 23 56.78

PWA 8.67 286 IP 23 47.36 -8.7KNK 8.93 155 IP 23 51.85 -8.6

IS 24 83.82SCM 1.88 114 IP 23 52.56 -0.2PMS .82 188 IP 23 52.19 -8.8SUA .86 222 IP 23 53.05 -0.5

IS 24 67 .32SKT .16 257 IP 23 53.24 -6.9CFI .29 146 IP 23 56.42 -8.2PTE .46 175 IP 23 57.88 -8.4

IS 24 16. 18TOA 1 . 46 95 *P 24 88.31 1.2

IS 24 21 .85PWL 1.47 162 *P 23 58.88 -8.5

CGLM 1.62 235 iP 24 01.38 0.0CRP 1.70 236 «P 24 02.92 0.3SPU 1.71 232 IP 24 02.67 -8.1

IS 24 24.38GLI 1.72 142 IP 24 02.74 -0.1KLU 1 . 76 1 14 IP 24 03.54 0.1

iS 24 26.34VZW 1 .76 132 iP 24 03.35 -0.1MPA 1.77 182 eP 24 02.88 -0.6

IS 24 24.82SLKM 1.81 195 iP 24 04.82 -0.1LOU 1.96 156 iP 24 85.99 -0.2FID 2.01 137 iP 24 06.87 -0.1

iS 24 34.32KNIM 2.85 158 eP 24 06.88 -8.6ROT 2.27 223 eP 24 10.01 -0.6

iS 24 37 . 17MTU 2.48 160 eP 24 14.42 1.8SGAM 2.63 138 eP 24 17.74 2.0GLB 2.71 185 eP 24 17 .04 0.1BALM 3.52 187 eP 24 27.98 -0.5WAX 3.58 118 *P 24 28.82 -8.5YAH 4.89 114 eP 24 34.99 -1.7

32 obs. ossocioted

DEC 02, 1985 89h 53m 37.85± 0.93s38.795 S ± 4.8km 71.645 W ±13. 3kmDEPTH - 33.8km (normol)

NEAR COAST OF CENTRAL CHILE (135)

ROCH 2.24 166 IP 54 14.50 1.0PEL 2.48 161 IPd 54 17.10 0.2RTCB 2.54 107 iPc 54 17.90 0.2

S 54 48.20BACH 2.73 159 iP 54 20.70 0.3

i 54 55.00FCH 2.78 156 eP 54 21.70 8.5CFA 3.83 186 ePd 54 24.60 0.8

S 55 04.00LNV 3.16 176 iPd 54 25.68 -8.8

iS 55 05.28CHCH 3.24 165 i PC 54 27.68 0.8

i 55 84.70VCA 3.63 57 «Pc 54 34.80 1.6

S 55 18.80RFA 4.78 147 iPd 54 48.80 -1.5

(S) 55 13.08SLA 8.14 44 eP 55 34.80 -1.9VBA 10.77 135 *Pd 56 87.20 -5.7XCNCB 14.32 14 eP 57 82.88 1.2LPB 14.56 14 eP 57 03.08 -0.9ZOBO 14.81 13 *P 57 07.48 8.1

S.D. -1.1 on 1 4 of 15 obs .

DEC 82, 1985 18h 89m 25.69± 8.78s45.679 N ± 9.5km 18.6B7 E ± 4.9kmDEPTH - 18.8km ( geophys 1 c 1 s t )

NORTHERN ITALY (545)ML 3.3 (LOG) , 3.2 (KBA) .

SCE 1.53 27 IPgc 89 52.90 -8.4TR 1 2.16 88 !P 18 87 .98 5.8X

i 18 35.48VOY 2.27 88 ePn 18 84.68 0.1

IPg 10 88.28ISn 18 31 .30ISg 10 38.00

KBA 2.31 52 iPnd 10 08.20 3.6XIPg 10 1 1 .20iSg 10 36.70

CEY 2.62 87 IPg 10 14.80 6.0XISg 10 48.30

LJU 2.71 81 ePg 10 17.00 6.9X0.9s 170.08nm

e(Sn) 10 43.00eSg 10 51 .50

LPG 2.77 268 Pn 10 11.30 0.1Sn 10 42.50

MOF 3.27 313 ePn 10 18.60 0.5ROF 3.29 309 «Pn 10 18.60 0.3BSF 3.44 310 Pn 10 20.90 0.5

Sn 1 1 01 .20CDF 3.59 321 Pn 10 22.90 0.2

Sn 11 04.60Sg 1 1 20 . 50

HAU 3.78 310 Pn 10 25.50 0.2Sn 1107.20

13

820 18h

KHC 3.97 29 «Pg 18 22.58 -5.5XeSQ 11 11.18

L6F 4.83 288 Pn 18 39.78 -0.5Sn 1 1 35. 18Sg 12 80. »8

SMF 4.85 284 Pn 18 48.18 -8.4Sn 11 33.48

LOR 4.98 291 Pn 18 41.58 -8.7SSF 5.16 288 Pn 18 44.38 -8.5AVF 5.21 285 Pn 18 44.98 -8.6BGF 5.52 282 Pn 18 49.28 -8.7MZF 5.68 278 Pn 18 53.38 1.2TCF 5.94 279 Pn 18 55.58 -8.3DOU 6.83 319 Pn 11 86.58 9.6XCAF 6.13 266 Pn 18 59.38 8.8

S.D. - 8.6 on 17 of 23 obs.

1C DEC 82. 1985 11h 46m 21.36*68. 124 N 153. 168 WDEPTH - 127. 4km

SOUTHERN ALASKA ( 2) .

1 LM 8.19 72 IP 46 38. 64 1.1IS 46 52.36

ROT 0.59 48 IP 46 40.47 -0.6NNL 8.94 94 eP 46 44.79 1.0

IS 47 02. 12NKA 1.14 56 IP 46 46.69 1.0

«S 47 04.31SPU 1.19 27 IP 46 45.47 -0.9CRP 1.25 23 IP 46 46.42 -8.6

iS 47 06.72CGLM 1.32 25 IP 46 46.83 -0.9SLKM 1.52 74 iP 46 48.97 -0.9SVW 1.56 318 iP 46 48.36 -2.8SUA 1.79 48 IP 46 52.42 -8.8

IS 4717.23MPA 1 .93 77 iP 46 53.98 -8.8SKT 2.83 22 eP 46 54.87 -1.1PMS 2.18 56 iP 46 55.51 -1.4PTE 2.18 68 iP 46 55.84 -2.0PWA 2.22 45 eP 46 57.97 -8.4PWL 2.58 71 eP 47 88.47 -1.6KNK 2.65 59 eP 47 81.62 -2.3

iS 47 33.38GHO 2.65 58 eP 47 81.61 -2.4

iS 47 33. 45KNIM 2.72 83 eP 47 83.31 -1.5

iS 47 35. 13MTU 2.77 90 eP 47 84.47 -1.0

iS 47 38.25SML 2.98 52 eP 47 84.49 -2.8FID 3. 37 76 eP 4711.74 -1.8

eS 47 49.69KLU 3.81 66 eP 47 16.54 -2.8

23 obs . ossoc i o t «d

DEC 82, 1985 12h 35m 21.25± 8.68s24.388 S ± 8.2km 67.241 W ±18. 7kmDEPTH - 205. 2 ± 18.6 km

CHILE-ARGENTINA BORDER REGION (127)

SLA 1.65 185 iPc 35 56.38 -8.9S 36 22.28

ANT 2.96 281 iPc 36 18.38 -8.8iS 36 42.88

TPZ 3.16 27 iP 36 14 . 88 8.9(S) 36 53.88

VGA 4.58 191 ePd 36 31.28 1.8CNCB 7.49 355 P 37 11.00 1.6LPB 7.78 354 eP 37 12.88 -1.1ZOBO 8.04 354 iP 37 16.40 -0.2

8.5s 6 . 49nm 4 . 1mbVAO 18.62 98 eP 39 25.78 -8.1BDF 28.89 68 IPd 39 41.18 8.3SOB1 29.27 64 eP 41 86.38 -8.2ITR 31.56 66 «P 41 26.18 -8.4

S.D. -1.0 on 11 of 11 obs .

DEC 02. 1985 I3h 26m 45.25± 8.65s32.682 S ± 9.1km 179.792 W ±18. 9kmDEPTH - 33.8km (normol)4.8mb ( 2 obs.)


GNZ 6.29 196 P 28 15.88 -2.2

KRP 6.54 214 P 28 23.88 1.4CRZ 6.55 252 eP 28 24.88 2.3SVA 14.51 353 eP 38 89.88 -1.1NOD 15.93 387 IPd 38 27.58 -1.8DZM 16.89 387 iPc 38 29.98 -8.8CTA 32.74 284 eP 33 23.88 5.8X

eS 38 36.88ASPA 41.53 278 «P 34 31.88 -8.3WRA 42.71 276 P 34 41.88 8.8

8.9s 7.58nm 4 . 4mbWBN 46.77 263 eP 35 13.88 -8.5SPA 57.57 188 «P 36 32.88 -2.8

0.8* 15. 83nm 5 . 1mbPLM 88.39 48 «P 39 35.88 -8.3TPC 89.39 48 eP 39 48.88 8.1GLA 89.49 58 eP 39 41.88 8.6GSC 89.71 47 eP 39 43.88 1.6SUF 145.65 339 iPKP 46 18.48 -2.6X

8.8s 6 . 88nmNUR 147.88 337 IPKP 46 25.68 1.1N82 158.65 349 PKP 46 38.38 1.3

8.7s 2 . 68nmKIC 153.49 169 ePKP 46 41.30 6.9X

S.D. -1.4 on 16 of 19 obs .

DEC 02. 1985 14h 12m 32 . 1 3± 8.56s4.727 S ± 7.4km 133.666 E ±16. 3km

DEPTH - 33.8km (normol)4 . 2mb ( 4 obs . )

WEST IRIAN REGION (196)

TLE 1.29 225 ePc 13 88.68 6.7XAAI 5.55 281 ePd 13 55.48 8.7

6 . 5* 156 . 00nm 5 . 8mb XTZZ 7.55 94 eP 14 19.00 -3.7XKNA 11.97 203 eP 15 24.00 8.6PMG 14.17 110 e(P) 15 53.80 0.4WRA 15.14 178 PC 16 64.80 -9.6

0.5s 2.60nm 3. 8mbWB2 15.14 178 eP 16 03.90 -1.5

eS 18 52 . 00ASPA 18.83 179 eP 16 53.80 1.2

0.9s 50 . 00nm 4 . 7mbeS 20 14.80

CTA 19.58 142 IPd 17 82.09 1.51.0s 1 6 . 00nm 4 . 3mb

iS 20 40.00MBL 21.15 218 eP 17 20.09 3.2XWBN 22.35 197 eP 17 32.00 3.2XADE 30.45 172 i Pd 18 47.10 3.0XXAN 45.89 331 eP 20 51.69 4.5XCD2 45.52 323 P 20 50.40 -0.2CN2 48.87 352 Pd 21 17.48 8.8MDJ 49.25 356 eP 21 18.58 -1.8GTA 53.88 328 eP 21 54.29 -0.4WMO 63.58 324 eP 23 82.50 8.4ODE 72.53 384 eP 24 83.88 4.6XSPA 85.31 180 eP 25 05.00 -2.0

1.0s 1 . S0nm 4 . 2mbCOL 89.40 25 eP 25 31.00 4 . 4XTPZ 147.78 145 (PKP) 32 25.00 1 1 . 4XCNCB 149.74 135 PKP 32 30.00 13. 0XLPB 149.84 135 ePKP 32 38.88

open file report 86-551l · 2010. 12. 17. · united states department of the interior geological...

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