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UNITED STATES DEPARTMENT OF THE INTERIOR
GEOLOGICAL SURVEY
EARTHQUAKE DATA REPORT January 1985
NATIONAL EARTHQUAKE INFORMATION CENTER
Open File Report 86-551-A
This report is preliminary and has not been reviewed for conformity with U.S. Geological Survey editorial standards,
EDR No. 1-85 U. S. DEPAHTMENT OK Til 10 INTEKIOHJune 13, 1985P. 1-113 PART 1 Ce,>lo,,,c.,l Suivey
of 2 EARTHQUAKE DATA REPORT
The Earthquake Data Report (EDR) is issued to those individuals and r|>ani/a- tions having a spec ial need for infoi rn.i tion used in the piepaiation of the Pidiminary Determination of Epic outers (PDE) monthly listing.
Ilypoconlral coordinates are determined by a modifier) Ceiger'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 (he 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 re.sult. Convergence is aided by step length damping.
The error bars of the computed hypoccntral coordinates are 90% marginal confidence intervals incorporating Baysian information to stabilize estimates derived from small samples (Jordan and Sverdrup, 1981). It is .assumed that the travel-time errors of the data vscd 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 coorcJinat.es indicates Mint 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 recompiitatinn 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 indi- cated by "iNORMAL DEPTH". If the unrestricted depth computation is unsatisfactory, and in the judgment of the reviewing geophysicist the earthquake probably has a shal- low focus, a solution may be held at 33 km. These arc also indicated by "NORMAL DEPTH". The geophysicist may restrain the depth at any value indicated by evidence from available seisrnograms. These are indicated by, for example, "DEPTH = 1OO KM (GEOP11YS1C1ST)". If two or more pP phases are identified, and in general, yield depths within JO 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. Hypocenlral coordinates derived from other sources, such as the California Institute of Technology, the University of California at Berkeley, and ERDA are noted on the EDR.
Two types of magnitude are computed: body-wave magnitude (m^) and surf.ice-wave magnitude (Mgjj). 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 arc com- puted according to the formula )og(/l/T) -+ Q, derived by Cntenberg and Richter (J95f>), where A is the P-wave amplitude in micrometers, 7' is the period in seconds, and Q is the depth-distance factor. Surface-wave magnitude's are computed from the formula ' 06(^/7*) + l-G6log(A) + 3.3, where A is the maximum vertical surface-wave amplitude in micrometers, T is the period in seconds, and A is the rpiccntral distance in degrees.
SH r face-wave ma j>, ni 1 udes a re dct ermi ned only for ea it hqu.i kes whose, local dept hs (taking
into account the i otnputed st.ind.ird deviat ions) arc potent i.illy less than 50 kin, lor sta-
tions having 2()° < A < 160°, .ind for leported peiiods of 18 < T < 22 s. No (orrei tion
for fora! depth is used in the M^ calculation. Body-wave magnitudes are not determined
from PKP arrivals or for stations having A < 5°. Amplitude values stated in this leport
are in nanometers (nrn) for body-waves and micrometers (//m) for surface-waves.
The travel-time residual (observed computed) is based on the 10-10 Jeffreys-Bullen
P and 19f>8 Bolt 1 > KP travel-time tables. Phases not used in the computation are marked
by an X. The* azimuth from the epicen'ter 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 com-
putational procedure not normally used by the National Earthquake Information
Service (NE1S). The source or nature of the determination is indicated by a 2 to 5
Ictt.er code enclosed by angle brackets and appearing in the first, line of comments.
A "-P" appended 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 NI01S 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 77 < 16.0 km.
* Indicates a less reliable solution. In general, 8.5 < n < Hi 0 km.
? Indicates a poor solution, published for completeness of the catalog. In general,
T; > 1G.O krn. This includes poor solutions computed using data reported by a single
network.
The lack of any symbol indicates that 17 < 8.5 km.
Note: On printers available to the NE1S for this publication, the symbol for degrees (°)
References
Bolt, Bruce A. (1968), Estimation of PKP Travel Times, Dvll. Sets. Soc. Am., 58, pp. 1305 1324.
Gutenberg, B. arid C. F. Richter (1950), Magnitude and Energy of Earthquakes, Ann. di Gcnji.iica, 9, no. 1, pp. 1 15.
Jeffreys, Harold and K. E. Bullen (19-10), Setsmological 'J'ablfs, British Assoc. for the Advancement of Science, C»ray Milne Trust.
.Jordan, Thomas H. and Keith A. Sverdrup (1981), Teleseismic Location Techniques and their Application to Earthquake Clusters in the Smith-Central Pacific, Hull. Scis. Soc. Arn., 71, pp. 11O5 1130.
JAN CM. 198^ dl'h 33m 44 8 hi 0 4l.i38 472 N ± 4 4km 2 b 673 E 1 4 O^mDEPTH - 10.0km (geophysicist)
AEGEAN SEA (365)ML 36 (ATH)
1 ZM 0 47 99 3.45 14 iPn 34 48.50 8.6XDIM 3.67 347 «P 34 43.00 0.2MMB 3.85 325 iPc 34 45.00 -0.4PID 3 93 338 >P 34 47.00 0.5JMB 3 99 359 «P 34 47.00 -0.3kZN 4.22 297 «Pn 34 51 40 07VAT 4 25 313 «Pn 34 52 00 1.0SKO 5 32 313 «Pn 35 05 00 -1.2MIR 7 04 356 iP 35 30.00 -05VR 1 7 39 0 «P 35 44 50 9 1 X
S D - 0.6 on 16 of 22 obs.
> JAN 01. 1965 02h 49m 51 34* 1 43s7 576 S Jit. 8km 73.996 W 434 4km
DEPTH - 33 0km (normol)PERU-BRAZIL BORDER REGION (112)
ARE 9 17 165 «P 52 04.00 -0.7PSO 9 32 339 «P 52 21 00 14 1»LPB 10.61 148 P 52 25.80 1 2
S 55 72 00LR 56 21 . 00
CNCB 10 90 148 «P 52 29 00 0.3S 55 25 00
BOG 12 12 360 «P 52 46 00 10AT8 22 06 60 Pd 54 49 06 3.6XSOB1 32 78 95 «(P) 56 23.00 -1 0FRB 71?4 3 *P '10800 -08
S.C) -12 on 6 o f Bobs
.IAN 01. 1985 03h 17m 20 M± 1 06s48 140 N til 4km 6530 E ± 60kmDEPTH - 10 0km ( qeoph . s i c i S t )
TRANCE (538)ML 2 . 3 ( LOG)
HAU 0 18 222 Pq 17 25 80 12Sq 17 28 30
8SF 6.36 150 Pq 17 27.50 -6 4Sq 1 7 3 1 . 30
COF 0 57 61 Pq 17 32 40 03Sq 174170
LOR 2.00 245 Pn 17 54 40 -0.4Pq 1 7 59 . 50Sq 1825.20
L8F 2 08 237 Pq 1 8 01 00 5 . 1 XSq 182740
SSF 2 31 243 Pn 17 58.50 -0 7Pq 1 8 05 . 70Sq 1833.40
SMF 2 36 232 Pq 18 06.10 6.2XSq 1 8 36 . 1 0
A^F r 54 239 Pq 18 09.70 7.2XB'^F 2 96 239 Pq 18 16 50 8. IX
Sg 18 55 40 F 3 31 236 Pq 18 23 10 9 7X
Sq 19 04 80SO -11 on 5 o f 10 obs
r. JAN Ot. 1985 03h 18m 4? 34± 0 81s31.689 S t 9 Bkm 68 104 W t 9 0kmDEPTH - 33 0km (normol)
SAN JUAN PROVINCE. ARGENTINA (137)
CFA 0.14 305 iPd 18 47 60 -0 9
IB 5? miR1CV W4i:'45«Pd 185170 01
S 19 00 00RTIL 0 48 3'9 «Pc 18 53 20 0.5
S 19 02 00TCA 3.02 84 ePd 19 29 10 0.1
(S) 20 05 50RFA 3.09 186 e(P) 19 30.00 0.0
S 20 17 00S.D.-07 on 5o( Sobs
JAN 01. 1985 03h 56m 57.94± 0 47s22 969 S ill 1km 25.676 W ± 6.8kmDEPTH - 10 0km ( qeophy s i c i s t )4 7mb ( 6 obs . )
SOUTH ATLANTIC OCEAN (409)
BMA 17.04 267 «P 01 02 00 4 IX1 TR 1 8 . 68 3 1 7 eP 01 1 7 . 30 -1.1
e 01 1 8 80« 0 1 31 . 40« 01 41 50
SOB1 20.00 311 «P 01 32.50 -1.2BAO 22.27 285 «(P) 01 57.00 0 0TCA 35.47 246 «Pd 03 56 90 0 1KIC 35 62 38 IP 03 57 30 -0 7
08s 27 00nm 5 . 2mbKDS 37.70 22 iPd 04 15.14 -0.3LPB 40.33 271 Pd 04 39 00 10
LR 20 24 00ZOBO 40 43 272 «P 04 38 20 -0 8
09s 5 . 64nm 4 . 3mbARE 43.46 270 eP 05 03 00 -0.7BUL 50.34 96 iP 05 57 40 -0 1
0.9s 4 62nm 4 4mbBCAO 51.03 63 «P 06 02.00 -0 6
0.8s 5 . 1 2nm 4 . 5mbBNG 51 04 63 iPc 06 07.30 -0.4
0.9s 1 4 . 00nm 4 . 9mbic 06 1 1 . 60
KR 1 52.10 94 eP 06 1 1 00 01BOG 54.62 294 «P 06 31.00 1.3T 10 56.42 19 i P 06 44 00 1.7
i 06 53.00SPA 67.17 160 «(P) 07 54 00 -0.1KHC 79 . 85 25 iP 09 09. 40 1.3BRG 61 40 24 «(P) 09 11.00 -5 IXKRA 83 17 28 «Pd 09 21 80 -3.5XSCH 65 09 336 «P 09 36.00 1 0RLO 87 99 311 «Pc 09 50 TO 0.6TUL 88.40 310 «P 09 52 20 07
1 0s 16 70nm 5 3mbNB2 88 86 17 P 09 56 00 2 7xBRS 129.91 178 Pd i f f 13 09 20 10 9XBJ 1 143.62 53 «PKP 16 33 00 -18
SD -10 on 21 of 26 obs
JAN 01. 1985
O 1 -a 86n
» JAN 01. 1385 06h 52m 07 80± 3 33s31 390 S ±33 5* m 69 987 w ±24 OkmDEPTH - 152 5 ± 23 8 km
SAN JUAN PROVINCE. ARGENTINA (1371
PTLL 1 36 68 *Pc 52 36 26 03S 52 54 OO
PTCV 1 32 111 ePc 52 35 48 -e 7S 52 52 58
BOCK i 80 269 .P 52 41 58 61PEL 1 6 5 1 9 6 > P c 524178 0.0
-S 53 03 eeFCH 1 95 187 iPd 52 43 70 05
i S 530748BACH 2 00 192 Pa 52 44 20 06
.S 53 88 28PCM 227i9iiPc 524688 8.8
S 5313.08TACH 2 40 199 iPc 52 48 08 -0.2CMCH 2 68 192 .P 52 58 68 -0 2
i S 531950LNV 2 83 285 iPc 52 53 80 -0.5
i 5320. 38TCA 4 62 91 ePc 53 1 7 28 02
SD -05 on 11o> 1 1 obs
X JAN 01. 1985 87h 27m 29 96± 3.83s16.669 N ^11 4km 6 156 W ±39 7kmDEPTH - 33 Okm (no mo I)
LEEWARD ISLANDS ( 92)
BP* 047 37, Pd 74018 00S 75159
SEG 068 113 eP 74375 87PAG 0 . 78 1 44 eP 74585 12
S 6 83 003 F G 1 M 1 1 1 4 e P 74670 -11
S 8 04 08*&
Old 13h
*AN 56 5V 316 P 20 51 80 -0 8CHG 58 04 295 «P 21 03.50 0.5r.HlO 58 04 295 eP 21 03 10 01
1 3 s 9 40nm 4 . 8mbCD2 58 73 310 iPc ? 1 08 1 0 05BTO 59 74 323 «P 21 14.40 -0.1LZH 61 20 316 eP 21 25 00 04
15s 50 . OOnm 5 4mb&TA 65 62 3,17 P 21 53 80 0.3PK 1 72 47 301 «P 22 36.20 0 0
0 5s 10 OOnm 5 OmbkKN 71' 64 301 eP 223740 03
06s 1 3 OOnm 5 . OmbWMO 75 71 317 P 22 55.36 1 0HYB 76 57 289 *P 22 59.80 0 2
1.0s 40 OOnm 5 . 3mbGBA 77 07 285 P 23 04 00 1.7
1.1s 35 80nm 5 2mbCOL 81.66 22 «P 23 25 00 -1 1SPA 85.41 180 «(P) 23 44.30 -1.1MBC 93 90 14 eP 24 27 00 2.0BRG 122 58 330 «(PKP)30 09 00 5.6XKHC 123 86 329 PKP 30 07 50 1.4BNG 134 55 272 iPKPd 30 27.60 01
0 9s 9 OOnmic 34 00 00
VAO 146.35 145 «PKP 30 51 00 2 . 5XTlD 147 88 327 iPKPc 30 55 00 4.2X
i 30 58 50BAO 151.11 135 e(PKP)30 57 00 09
Sfj -09 on 47o( 54 0 bs
JAN 01. 1985 14h 08m 03 00± 0 44s36 627 S ± 8.0km 177 579 E ± 7 5kmDEPTH - 33 Okm (normol)4 9mb ( 2 obs ) 4 6Ms? ( 1 obs )
OFF E COAST OF N. ISLAND. N Z (160)
NOU 17 23 323 iPc 12 02 50 -0 2NfjF 18 80 360 «P 12 22.00 -0 1SGE 18.97 1 «Pc 12 23.50 -0.8KOU 19 78 320 >Pc 12 32 90 -0 4PVC 20 52 334 iPc 12 45.00 : 9XAF l 24 55 26 P 13 21.00 0.0TOO 25 55 258 «P 13 34 00 3.6XHNR 31 44 325 P 14 23 00 -0 6r T A 3193292 iPc 142900 11
11S 1 8 99nm 4 9mb. S 195600
ASPA 39 60 277 eP if, 33.00 -0 1WBT 4) 16 282 tP 15 45 70 -0 3> LC 46 49 260 eP 16 30 00 11
1 its 16 ttijnm 4 9mtSPA 53 5BFD 28.34 258 «P 20 40 00 ? *HNR 31 51 324 P 21 88 60 0 :RAB 39 95 317 eP 22 20 50 % *WB2 41 50 281 «P 22 31 00 -' 4SPA 53 76 180 «P 24 07 6* -0 :
11S 4 76nm 4 4rr.ETRT 65 72 279 «Pd 25 30 30 -* :
1 4s 128 40om 5 8"-tCGP 67 06 300 «P 25 38 00 -' *G8A 106 42 275 PKPe 33 ie 00 8 Z>
07$ 2 70nmSOD 145 01 341 «PKP 34 19 00 -I ' 'KJF 146 96 337 ePKP 34 25 00
e i a i a h
« S g 27 17 00M C ' 1*4294ePg 271300 17
eSg 27 27 00OHP i 19 140 ePn 27 1 4 08 00
eSn 27 31 50SO -14 on 5 o » Sobs
JAN ei. 1985 I8h 31m 05 94± 1 08s37 077 N ± 1 ' H" Ml 619 E ± 9 6 1 mDEPTH - 53 7 i 8 9 tm4 9n*t ( 1 ofcs )
W£*»» EAST COAST OF HONSHU. JAPAN(228)
ON* 659 257 Pa 31 1770 - 0 8i S 312750
f » S 114 307 P O 31 26 .20 04S 314180
M i T 116233*° 313100 50)?S 314400
SEN i 31 334 «P 31 28 00 -0 2S 31 45 20
TS> l 49 :35
8 2 d 0 3 h
68 23fi N 153 665 WD F P T H - 123 81- m
SOUTHERN ALASKA ( 2 ) ' A G S - P .
IIM e 1 4 1 1 4 i P 2443.37 10eS 4 56 79
ROT 0 47 44 IP 4 44 73 -0 5PDB 0 72 232 iP 4 46 1? -e . 8
«S 5 01 00NNL 0 9 1 1 0 2 e P 44884 03NkA 04 60 «P 4 50 48 08SPU 07 27 iP 4 49 62 -0 5BRIK 19 1 1 3 i P 4 50 57 -0.8SLKM 44 78 eP 4 53 09 -1.0SUA 67 42 eP 4 56 33 -e . 6
eS 5 2e 96SEW 81 93 eP 45702 -1.4MPA 86 81 «P 4 57 62 -1.4SK T 90 22 eP 24 58.37 -1.2PTE 209 7 1 eP 258113 -e . 8PWA 2 10 46 eP 25 81 88 -8.2PWL 2 42 73 eP 25 84.87 -1.3 KDC 2 52 173 eP 25 84.75 -2.6GHO 2 54 51 eP 25 85 56 -2 2KNK 2.55 60 eP 25 06 72 -1.1MSE 2 56 49 eP 25 85 88 -2.3SML 2 79 54 eP 25 88 52 -2.5VZW 3 31 73 eP 25 16.65 -1.3
21 obs. ossocioted
"> JAN 02. 1985 03h 43m 13.56± 3 85s34.309 S ±16. 7km 72.853 W ±27. 6kmDEPTH - 10 0km ( geophy * i c i s t )
NEAR COAST OF CENTRAL CHILE (135)
LNV 0 64 57 iPd 43 27 88 86i S 434119
TACH 1 13 55 eP 43 34 48 -0 4i (S) 43 55 . 88
CHCH 1 22 73 iP 43 36.88 -8 3iS 43 57 . 86
SAN 144 54 eP 433988 -
ISA 36 12 45 eP 24 45.88 0.7« 25 82 80
'1C 86 76 45 «P 24 48 88 0.6« 25 05.80
GiC 86.92 46 «P 24 49.88 0.8e 2584. 88
BUL 123 89 211 iPKPd 31 01 70 0 70.8s 3 7 3 nm
FRB 125 09 31 *PKP 31 fll 00 -0 8MTD 125 37 216 *PkP 31 03 00 -0 9KRl 126 30 214 ePHP 31 05 00 -0 8KJF 142.80 342 ePkP 31 31 00 -2.6XSUF 143 60 341 iPKP 31 34 50 -1 8
0.5s 8 . 00nmNUR 145.80 340 iPKP 31 41 90 18
0.6s 22 10nmNB2 148 26 351 PKP 31 48 50 4 4XBNG 150.07 215 ePKPc 31 48 00 -0.3
1.1s 5 . OOnmS . 0 -1.1 on 22 o 1 26 obs
It JAN 02, 1985 05h 24m 58.28s34 . 856 N 1 16 . 538 WDEPTH - 9 . 0km
SOUTHERN CALIFORNIA ( 43) ML 3 8 (PAS) Fell (IV)ot Desert Hot Springs. Indio.Joshuo Tr««. Morongo Volley,North Polm Springs. Rone ho
(III) ot Moreno and PalmSp r i ngs
TPC 0 40 82 iPd 25 85 78 -8 7SOW 0 72 32 1 P 25 1 1 50 -18HAY 8.82 114 ePd 25 13.38 -8.8SLBC 1 21 211 eP 25 19 98 -1 0
eS 25 35 88SBB 25 301 ePd 25 20.88 -6 7GSC 27 350 iPd 25 21 80 -0.9MWC 28 278 ePc 25 20 98 -1 3BAR 37 185 iPd 25 22 28 -1.31 KP 44 166 i PC 25 22 86 -18CBX 74 184 iPc 25 27 68 -1 8
S 255118GLA 1 74 124 P 25 25.56 -3.2VPEM 2.17 331 P 25 33.30 -1.8BLP 3.24 288 P 25 47 26 -38UNA 4 57 344 P 26 88.66 -1.2JAS1 4.99 322 P 26 1 3 86 -2 1EUR 5.44 5 iP 26 28.86 -0 9
8.2s 46 89nm 5 . 8mb XMSU 5 68 37 P 26 24.86 -1.0BMN 6 39 355 P 26 33 30 -1 7ALO 8 36 81 e(P) 27 08 08 -2 7
19 obs associated
JAN 02. 1985 85h 32m 49 1 4± 0 14s55 428 N ± 3 1km 157 835 W ± 2 3kmDEPTH - 33.3km ( 38 depth phases)5.6mb ( 83 obs ) 5 6Msz ( 21 obs.)
ALASKA PENINSULA ( 12)ML 6.1 (PMR). Ms 5.9 (BRK) Felt(III) ot Perryville Also feltat Chignik ond Sand PointCENTROID. MOMENT TENSOR (HRV)Do t a Used GDSNL . P B . 1 3S . 30CCentroid LocationOriginTime 653251 103Lot 55 05N 0 03 Lon 157 61W 0 04Dep 44 2 2 1 Ho 1 t -dur o t i on 3 6Moment Tensor; Scale 10»»24 D-CM
Mrr- 5.57 0 14 MM--4 39 0 17Mtf--l 17 0 17 Mrt- 5.56 0 27Mrf- 5 04 O 29 Mt(--5.02 0 25
P r i nc i pa 1 A » e sT Vol- 8 94 Pig-65 Azm-388N 2.42 5 50P -11.36 24 142
Best Double Couple:Mo-1 0*1$*»25NP 1 S t r i ke-244 Dip-22 Slip- 185NP2 48 69 84
SON 1 52 268 iPc 33 15 98 16KDC 3 76 58 eP 33 44 70 -1.4SVW 582 1 1 i PC 34 1 5 . 50 8.1PWA 7 56 30 iPc 34 37 88 -1 0TT A 7.58 6 i PC 34 39 80 -83PMR 7 67 33 P 34 39 18 -2 2PME 7 73 33 eP 34 48.20 -1 9TOA 9 02 37 ePc 34 58 18 -1.9ANM 9 . 98 34 1 P 35 1 2 60 04
COLFBAPNL1 MAA OKS 1 TDWYBRWSMY1 NKPHCMCWYKARSNT
YKC
LONCORMBC
EDM
NEW
WDCM 1 N
SESORVBKS
7NE
LRMBMN
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FFC
MNA
FR 1
PR 1
EUR
BOW
VPEMRSSD
SLBCGCARMU
GLARSON
7
GOL
ZGLD
ZALO
ZLHC
FRB
GDH
10.72 24 *P 35 19 00 -4 3*10 72 24 eP 35 18 70 -4 6»18. 77 59 eP 35 22 . 20 -1810.87 9 eP 352450 -091173 260 fP 35 35 . 70 -1212 61 73 eP 35 44 90 -3 9X12.63 39 P 35 48 . 80 -111595 1 eP 36 31 . 20 -1016 64 272 eP 36 41 . 68 051788 3 1 eP 364500 - 1 618 78 92 eP 37 07 00 -0 622.37 93P 374710 1523 00 54 eP 37 51 30 -9 :23 06 55 eP 37 51 . 80 031.5s 1 55 . 98nm 5 3mt23 86 55 ePc 37 51 58 -6 e1 8s 92 08nm 5 2*>£24 00 96 P 38 63 '6 - '24 45 162
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i i PTPM1 1 11 1 TSOD
HHC
T 1 A
1 OS
45 1545 6345 8 l
45 848 8s
Z 20sN 16sE 1 9s
46 0946 22
46 3846 481 0s
Z 22s
465346 6947 42i r >
4746
1 *S47 531 e-,
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48 »*
e o i48 58
48 7549 37
58 1 850 94
5 1 0651 541 3s
Z 26s53 560.7s
Z 26s54 05
54 7655 870 8s
55. 4089s56 1 5
2 20sE 20s
56 2 I56 2756 3656 . 7456 9557 . 2257 3457 47
57 94
58 46
40 OOnmi S
90 « < P 1:T «p288 PC
pP88 «P-1 3 1 20nm
5 72um: 33urr.8 22 um
i. S*
88 «P101 . P
i272 eP274 IPc
1 25 00nm8 5 2 urn*S
172 *P272 «P82 . P66 I8nm
89 *P? 8 40nm
9' *P
2? 0 OOnin11 70UIT.
»51 *Pc72 00nm
290 iPcpPPcPSsS3cS
95 *P91 i P94 i P
289 iPcPcPPPSScS
276 ePd65 *P67 74nm1 6 1 0um
76 «P22 68nm5 67 um
288 iPcpPeS
80 eP358 i P
77 . 78nmieS
19 i P90 76nm
293 «P6 50um8 80umpPeS
1 05 «P1 05 «P105 i PC1 05 «P105 ePd1 06 eP104 eP358 i P
i296 PC
SPSSS
289 PPPS
547 30 0041 04 8041 07 1041 07 5841 190041 0866
55
41 188047 52 eo51 42 0041 09 8041 > 3 604 1 21 0041 13.46
41 13.5055
48 02 0041 15 3041 1 5 6841 2110
541 38 0841 21 48
541 22 20
65
41 30 2041 27 90
541 29 7041 480842 55 5848 28 0648 47 0051 190041 26 7041 37 0041 53 3041 48 5643 06 8843 46 8049 04 8851 38 0641 586042 01 40
56
42 87 6055
42 11 0842 22 0849 44.8042 15.1042 28.10
542 30.7850 12 0042 22 48
542 26 . 08
5
42 38 0058 12 0042 27 0042 35 5042 27 5042 31 . 5042 3 1 . 5042 33 . 5042 44.2042 35 . 5042 40.60
42 40.00
50 40 00
50 57 8054 33 0842 42.1044 52 6850 46 00
2mt-
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-0 8
-1 74 1 km-0 9
9mb5Msz
3 4 1. m
- 1 7
0 327km0 1
- 1 18mb7Msz
0 3-0 7-0 9
5mb30km-0 9
7mb-6 8
2mb9Ms 227 Kn- 1 59mb- 1 235km
-5 in-0 1
t o ex-0 4
0 67 8X
5mb0MSZ-1 23mb6Ms z-1 . 237km
-2 488*
8mb9kmX
0 68mb- 1 47Msz
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- 1 66 5X
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59 7359 7959 83
6007
4 0S2 1 4SN 16st 14S
68 58Z 22s
60 6308s
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66 64
61 6462 . 150 7s63 5563 76
2 26s64 27
64 3908s
Z 20s
64 47
64 8364 85
65 01
65 484 . 0s
E 18s
6627
66.67
67 68t 6s67 9709s68.2768 961 6s
Z 18s
69 61
69 68
69 . 720 9s69 930 . 8s78 1 8
sSSc S«SS
297 .PcS
49 eP104 eP293 T PC
S282 P
2 80nm2 56um
42 16um1 60umPPsPSsS«ScS
250 «(P)1 83um
357 i P66 66nm5 70 urn
iePPeS«ScS
285 iPcpPPPS
104 «P
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" .** &2 . 1985 65n 47m 58 06± 1 "7s**» 821 N ± 9 2km 27 936 E ±'2 8HnDEPTH - 16 0 ! m (geophys.cist)
TljPr E i ( 366 )
BNT 0 46 iei iPg 48 es 7e 12i Sg 481526
ED.: 0 48 186 iPg 48 87 20 -6 5 Sg 48 1326
CTT 6 50 49 .Pg 48 08 30 0 1iSg 48 15 50
DST 1 33 156 iPn 48 21.90 -0 7EZN 1 58 231 ePn 48 26 60 -e 1
S D -1.8 on 5o( Sobs.
" J»N 62. 1985 05h 54m 00.56± 0 94s33 784 S ± 8 6km 71.306 W ±16 llmDEPTH m j3 6km (normol )
HEA» COAST OF CENTRAL CHILE 1135)
LMv e 1 9 207 ,Pc 540716 66. S 54 1 3 86
TACM & 33 67 .Pd 54 69 20 64. S 54 1 7 36
CHCH 6 56 105 iP 54 12 60 -6 1i S 542126
SAN 6 63 59 eP 54 1 4 06 69i S 5423.56
PCH 0 68 76 iP 54 13 50 -0 3>S 54 24 50
BACH 6 86 58 i PC 54 15 26 -6 3 S 542780
PEL 6 82 39 iPc 54 15 96 61i S 542850
ROCM 6 85 17 iP 54 16 60 -6 3. S 542900
FCM 6 96 62 .Pd 54 17 66 -6 5i S 543166
SD -05 on 9o( 9 obs
JAN 62. 1985 08h 16m 57 11± 0 74s58.496 N ± 6 5km 155 899 W ± 6 6kmDEPTH - 1 7 1 0 ± 89km4 4mb ( l obs )
ALASKAPENINSULA (12)'
PDB 157 33iP 112942 01i S 1 1 52 99
KDC 1 96 1 1 l fP 1132.60 -08i LM 231 42 «P 1 1 38 6 i 65
IS 12 08 32SVW 262 3 i PC 114210 0.8RDT 274 39 eP 1143.41 0.7NNL 283 55 eP 114512 1.48RLK 2 88 62 eP 11 44 57 02NKA 3.27 44 eP 1152. 11 30xSPU 3.32 34 eP 1150.74 0.9SLKM 353 53eP 1152.69 0.2SEW 3.68 6! eP 11 54 96 06MPA 389 56 i P 1157.57 05SUA 3.95 39 eP 115854 06SON 4 64 221 iPc 11 58 40 -6 6SKT 4.12 30 i P 1201.40 13PTE 422 53 eP 1201.12 -6.2PWA 4 37 41 .Pc 12 03 00 -0 3TTA 4 45 J59 eP 12 05 60 1.2PWL 4 51 55 eP 12 04 60 -8 5MTG 4.55 68 i P 1 2 05 c / 64PLRM 4.60 45 eP 12 05.49 -0 8PME 4 66 45 eP 12 06 10 -1 6CNt- 4 75 49 eP 12 07.47 -0 8GHO 4 79 44 eP 12 07.81 -1 1MSE 482 43 eP 120799 -1.3CFI 491 53 eP 121034 06SMt 563 45 i P 1210.81 -12Oil 5 6 fi 58iP 1212.04 -63TTv 51? 56 eP 121344 62HlN 5lfe 64 eP 121391 02F 1 U 529 6 1 i P 1214.58 -08v Z V» 538 5 7 e P- 1216.34 -02SCM 5 43 48 eP 12 16.45 -0 9VLZ 550 57 eP 1218.16 00SGAM 5 81 65 iP 12 22 32 01
^U 584 5 5 i P 12C23010A 664 4 9 «> P 122510SNH 689 70 fP 123786BALM 730 64 e P 124266COL 749 2 7 , P c 124300
e S 146566FBA 749 2 7 e P c 1242.80IMA 767 7eP 124796PNL 8.58 75 eP 13 00 30DV»Y 967 48P 131400INK 1394 36 eP 140700Y K A 2046 61 e P 152416YKC 20 52 61 eP 15 25 00
6 5s 7 OOnm 4MBC 21 99 22 fP 15 36 60
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SD -0.9 on 45o( 48obs
JAN 02. 1985 09h 6lm 03 95±24 503 N ± 7 5km 127. 948 E±DEPTH - 33 6km (normol)4 9mb ( 5 obs )
RYUkYU ISLANDS REGION
BJI 1839330P 051850»AN 19 1 0 364 eP 05 25 96GYA 19 31 280 P 05 30 06C N 2 1936355PC 052946CD2 22 32 292 eP 06 61 10C-TA 27 97 309 eP 06 52 70Pfl 3821 284 «fP 082266
t) 6i 7 OOnm 4^N 38 30 ?84 eP 08 23 60WRA 4461 171 P.: 091520
1 3i 28 36nm 5ASPA 48 23 173 «P 094300&BA 48 73 267 Pd 69 48 30
f e s I220nm 5l m 7058 2 3 eP 121706MBC 7156 1 3 eP 122306i K A 8019 2 5 e P 131296YKC 8025 25 *P 131366
66s 6 00nm 4NB2 8074334P 131470FFC 9024 2 6 e P 140300
0 95 6 CtOnm 4
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SD -66 on 17. j ( 1 7 o b s
JAN 02. 1985 09 h 18m 32 99±29 t>44 S ±14 9^ 177 =(77 W ±DEPTH -107 2 ± 9 2 Hr,5 Omt' ^ 4 o t j )
! ERMADEC 1 SL ANDS
R A 0 639 7P 184900NOD l578294iPc 221500KOU 18 42 295 .Pc 22 43 30CAN 28 34 256 eP 24 18 80WAM 28 48 248 eP 24 21 40YOU 28 83 252 eP 24 24 80CTA 33 70 278 .Pd 25 06 10
08s 24.25nm 5ASPA 43 18 266 eP 26 23 00WB2 44 08 271 eP 26 30.80
e 26 59 80i 281570e 29 01 30
WRA 44.09 271 Pc 26 36 860.6s 1 5 80nm 5
ORV 44.84 262 eP 2636.70SPA 60 52 186 iPc 28 34 60
0.7s 5 . 08nm 4MAT 77 63 325 iP 36 18 80
lls 29 1 1 nm 5NNT 89.57 285 eP 31 20 80BJI 92.40 315 *P 31 33.50BUL 124 26 211 iPKPc 37 21 60
0 9s 4 20nmFRB 124.72 31 ePKP 37 20 60KJF 141 79 342 ePKP 37 46 00SUF 143 4H 342 *PKP 37 52 00NUR 145 61 34 u iPKP 37 59 80
0 S-i 100 OOnmUPP 147 9'J 345 iPKP 38 05 80NB2 148 61 352 PKP 38 05 56BNG 150 45 215 iPKPc 38 14 00
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JAN 02. 198*1 09 h 28m 10.21± 0 6i8 119 S ±11 8 km ll5836E±79t
DEPTH - 33 t)lm (normol)4 8mb ( 7 obs )
BAL 1 1 SLAND REG 1 ON (28:
TRT 3 20 277 ePc 28 58 80 -0 iiS 29 25 00
MBL 13 53 164 eP 31 17 00 -5 :0.2s 5 OOnm 5 1 mt
NAU 14 35 181 eP 31 29 00 -4 <0.3s 1 4 66nm 5 . 0mb
KNA 14 74 122 e P 3136.66 -2 \MTN 15.75l69eP 315100 -0ME* 18 57 172 eP 32 26 60 -0
6.6s 3860nm 4. 8mtPSI 20 60 362 eP 32 43 06 6 *WBN 26 63 152 eP 32 49 06 -6 (MRWA 20 99 186 eP 32 53 00 -O :WRA 21 43 125 Pc 32 56 76 -1
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10s 44 OOnm 4 9mb^C- 23 15 168. Pd 3314.20 -0
O 3s 9 OOnm 4 8mbASHA 2321134iPd 331630 0!MUN 23 74 179 eP 33 22 00 1 iNV»AO 24 72 177 eP 33 30 00 0CTA 31 74 115. Pd 343470 11
10s 1 4 OOnm 4 . 8mtYOU 39 " 136 eP 35 42 30 1
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, 3601.00BJ l 47 92 0 eP 36 55 50 8SPA 81.93 180 e(P) 40 27 00 -OLSZ 85.64 255 iP 40 47 50 -0YKA 114.65 23 ePKP 46 47 70 -0VAO 144 79 266 e P K P 47 46 20 -0ITR 149 36 237 ePKP 47 57 60 3S081 151 13 234 ePKP 48 02.20 5
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r. JAN 02. 1985 !0h 20m 16 84± 0 933 187 S ±10 Okm 70 616 W ±10 4DEPTH - 33 Okm (normol)
CHILE-ARGENTINA BORDER REGION
FCH 17) 9 .P 38 25 OH 0PRFA 1 79 83 *Pe 38 25.80 -0 1
S 38 4 7 30PEL 1 B7 358 «P 3B 27. 5G 04
iS 38 51 78ROCH 2.07 351 «P 38 31 00 89
i S 38 58 . 48SO -89 on 9 o < 9 obs
« JAN 02. 1985 12h 22m 12.74± 0.47s56 388 N ±13 Okm 163.566 E ± 9 1 KmDEPTH - 33 Okm (normal)4 9mb ( 4 obs )
NEAR EAST COAST OF KAMCHATKA (218)
IMA 22-. 33 47 *P 27 09.88 8.3COL 24 76 5G «P 27 32.88 -8 2
88s 5.97nm 4. 2mbMAT 26 1 3 232 (P) 27 46.88 8.7
1.2s IB 75nm 4 . 6mbINK 30 11 41 «P 28 21.08 8.1MBC 33 28 25 eP 28 49.80 84TKA 39 45 46 eP 29 29.48 -11. 5XEOM 45.27 57 eP 38 28.50 0.8EUR 53 . 32 72 i P 3 1 31 . 80 81
02s 5 . B6nm 5 2mbFRB 53.74 26 «P 31 33 00 -8.2KKN 68.97 277 eP 32 24 88 -8 3NB2 60.98 345 P 32 24 78 01Pk 1 61 87 277 «P 32 25.68 -8 3
0 6s 23 88nm 5 5mbALO 61 73 69 «P 32 38 88 -8.2KHC 72 08 348 «P 33 39 58 4 9XSPA 146.13 188 e(PKP)41 48 88 -8 6
SO -64 on I3o( 15 ob».
« JAN 02. 1985 12h 59m 85.75± 0.47s36 275 S ±12 4km 177 289 E ± 7.2kmDEPTH - 33.0km (normal)5 8mb ( 5 obs.) 5.0Msz ( 2 obs.)
OFF E COAST OF N. ISLAND, N Z. ( 1 6« >
MOD 16 77 323 i PC 83 08 80 04KOU 19 32 321 iPc 03 29.9(i -1.1PVC 20 07 335 >Pc 03 48 50 9 3XWAM 2: 82 262 «P 84 14 f>& 7 BXCAN 22 87 264 *P 84150ft 7 6 XrOU 23.58 266 «P 04 22 10 7 BXA F i 2436 27P 042000 -20
fS f ft 52 00TOO 25 33 258 eP f« 4 32 00 0 9BFO 27 71 258 * P V 4 54 00 11HNR 30 99 325 P 052400 17CTA 31 52292 iPr 052810 11
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S 105200TVO 34 86 67 «P 85 50 00 -6 IX
0 8s 30 eflnm 5 3mbASPA 39.26 276 «P 06 33 00 -8 1KAB 39 38 318 .P- 06 38 68 4 OXWB2 40 80 282 eP 06 44.80 -0 9WRA 40 81 282 PC 06 45.80 -8 8
11s 15. 90nm 4 . 7mbWBN 44.64 268 eP 07 it 00 -1 2JAr 47 58 306 ePc 87 44 00 3 6XMUN 49 95 256 eP 07 57 80 -1 5ME* 50 31 264 eP 0B 03 00 17MBL 51 83 270 *P 08 11 00 -1 9SPA 53 91 180 eP 0B 28 98 -7 IX
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JAN 02. 1985 I8h57m493 1 944 S ± 5 6km 69289
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' JAN 02, 1985 20h 11m 4134 796 S ±32 5km 70 257
00± 3 49sft ±20 3km
DEPTH - J44 3 ± 34 6 km
CHILE-ARGENTINA BORDER REGION (12
CHfH 0 92 339 iPd 12 04.80 -0i 121960
PCH 1 1 9 3 5 6 i P c 120740 0i S 122440
LNV 1 . 27311 i Pd 120810 0i S 122500
TACH 1 2 7 3 3 3 i P c 120800 -0i S 122580
BACH 1 45352 \Pr. 121020 0i S 122950
FCH 1 46 359 iPd 12 10 50 0..5 2 31 50
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PEL 1 69 348 iPd 2 12 50 -0iS 2 33 60
ROCH l.92341eP 21550 0TCA 587 56 i PC 30700 0
S.D -01 on 9o( lOobs
JAN 02, 1985 2 Oh 2 5m 26 08± 0637.164 S ± 9.8km 176.939 E ±11 4DEPTH - 33 Okm (normol)4 8mb ( 5 ots ) 5 iMsz ( 1 obs
NORTH ISLAND. NEW ZEALAND (15CENTROID. MOMENT TENSOR (HPDoto Used GOSNLPB 1 2S . 23CCenlroid LocotionOrigin T i m« 20:252750Lot 36 75S 0 06 ion 176 92E 0[< e p 39 0 5 4 Holf-durotion 1Moment Tensor. Scole 10*«23 D -
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NOU 17 36 326 iPd 29 26.70 -0SGE 19.52 3 eP 295280 - 1KOU 19 88 323 iPc 29 57 26 -0WAM 22 49 264 eP 30 31 60 7CAN 22 58 266 eP 303220 7rOU 23.33 269 eP 36 36.90 4API 2525 26 e ( P ) 305200 1BFD 2732 259 *P 3 1 1 3 . 0 0 3HNR 31 60 327 e(P) 31 47.00 -1CT A 31.67 294 i PC 3149.50 0
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NEAR COAST OF CENTRAL CHILE (135)
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. JAN 03. 1985 Olh 56m 45.59± 1 14s3 775 S ±10. 7km 144 076 E ± 9 5km
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NEAR N COAST OF PAPUA NEW GUINEA(200)
MDG 224131 «P 5721. 00 00JAY 3.59 290 «Pc 57 40 20 O 1LAT 4.08 135 «P 57 57 50 10 6XPMG 6.38 152 «P 58 19 OO -0 1MTN 15 65 234 «P 00 23 00 -0 9WB2 18 66 210 «P 01 01.70 0 4
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« JAN 03. 1985 03h 32m 48 99± 0 61s47 031 N ± 6.1km 19 737 E ± 4 8^1DEPTH - 10 0km ( q«ophy s i c i i t )
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ULC 0.37 260 «Pq 32 57.00 0 4«S s4 842 S ± 9 7km 145.068 E ± 9 3 i m
DEPTH - 33 Okm (normol)4 6mb ( 6 obs )
NEAR N COAST OF PAPUA NEW GUI NEA (200
MDG 6 82 120 iP 34 28 90 03LAT 2 63 133 «P 34 56.50 < 8MOM 3 63 40 «P 35 10 00 1 :TZZ 3 86 264 «P 35 72.00 9 t>PMG 4 99 156 iPd 35 27.30 -
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44 98 281 «Pd 42 35 3068 96 283 «P 45 18 OO69 57 286 P 45 19 00l.ls 4 OOnm 489 . 27 306 «P 4658 9099 85 398 «P 48 09 00
115 69 323 « ( P d i » 4 9 08 toSO -15 on 1 7 o f 25o
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MOJ 2636 14«-P 4 2 5 'i 2 6 2 4 X MAT 447186iPd 185490 01PSI 27212 3 6 * P 43O 000 -06 i S 194490
1 2s 36 60nm 4 9mt, COL 46 90 34 eP ?6 16 00 -0 1GTA 27 36 322 eP 43 0 310 10 09s 630nm 4 6mb
e S 473200 INK 5164 2 8 e P 265300 -11TRT 27 96 196 P c 43 07 7fi o 1 MBC 53 32 17 eP 27 05 00 -0 i
1 Os 69 20nm 5 2mt WB2 60 77 185 eP 27 58 0& -0 4IEM 2905209«>P5s 900nm 4 9mb W62 4462260
45 54 183 cP 45 34 00 -2 2 WRft 44 64 260 PC 59 30 50 -0
0 7s 28 OOnm 5 3mb 0 3s 0.90nm 3 8mtMRWA 46 33 166 iPd 45 56 50 -1 6 ASPA 44 76 255 iPd 59 31 50 0 IDUE 5009294eP 461 2 90 09 05s 1600nm 4 6mb
e(S) 532400 SPA 7 1 7 9 i 8 0 e P 023250 -Of> LB 50 54 184 *P 46 13 00 -2 '.' 0 '-> , 3 18nm 3 8mt.MUN 5 1 0 4 t 8 5 * P 46170W -16 BMN 8146 43eP 032600 0
7 20s f, 00 urn b 6Msr 1 Os 2 75nm 3 7mbCOL 7330 2 f> * P 484500 -23 EUR 81 77 44 C P 032660 -0>EV 73 65 33 9 eP 4 8 4 9 n O -02 LTx 8615 58iP 035050 1
0 5i Ife BOnm 5 Vrnt. COL 8b 20 13 eP 03 47 00 -1i ' 465P5" ALO 6629 51eP 034980 0
SOD 7425336JP 46 54 00 13 10s 375nm 4lmbKJF 7445333eP 465300 - o 9 rt-A 9466 25eP 042750 -0SUF 7546332eP 465900 - o 7 LLL M^8 fJ347iPKP 104360 1NUR 76 70 330 eP 49 t 2 00 5 3 x 1 0 s 14 OOnm
Z 16s 120 urn 53Ms; BRG 14609346.PKP 104410 1INK 7791 22ePc 491260 -07 PRU 14677345ePKP 1046.00 2MBC 7817 12eP 49141U -O5 KHC I47.80345PK P 104930 4
0 3s 21 OOnm 5 6mb e 10 53 30AV-i 6137247ePd 493420 12 e 110210K R A 6 2 5 1 3 2 0 e P 4 9 3 8 u 0 -01 0 0 LI 1 4 8 2 2 3 5 6 P K P 105000 4
i 49*850 SD-11on13of18obsK SP 8437322eP
03d 08h
JAN 63. 1985 f'8h 09m 46 33± 6.80s33 568 S i 7 4km 71 278 W ± 9 9kmDEPTH - 69 3 1 7 6 km3 7mb ( 2 obs )
NEAR COAST OF CENTRAL CHILE (135)F« 1 t (III) o 1 Son I i ogo
TACH 0 30 167 iPd 09 57 50 -6 1LNV 6 40 196 iP 09 58 90 0.6SAN e 53 78 iPc 09 59 20 -0 4POCH e 63 21 iPd ie 00.30 -o eCHCH e 64 125 iPc ie eo 9e 02PCH 0 64 95 iPd 10 00 40 -e 4PEL 0 65 50 iPd 10 00 50 -0.4BACH 0 69 72 iP 10 01 00 -0 4MOZ 215 72 i Pd 1021.70 11
i S 103440RFA 2.62 118 «Pc 102840 11
S 10 49 20RTCV 2 87 54 *Pd 10 31 50 08
S 110860RTCB 2 95 46 «Pd 10 33 00 11
S 1 1 1 3 00CFA 3.22 54 «Pd 18 36 20 05
S 111050RTLl 3 26 48 «Pd 10 36.20 0 0
S 111780TCA 6 07 70 «Pc 11 13 00 -2 6
S 12 21 00CtA 6 94 44 iPc 11 23 00 -4 6XV8A 8 78 123 *Pc 1 1 52 20 -07ANT 9 86 5 ff 12 19 00 11 4XSLA 10 15 31 "Pf. 12 06 89 -5 OXCNCB 1695 IIP 134100 00ARE 17 83 359 * P 13 39 00 -2 8LPB 17 20 10 eP 13 45 00 10ZOBO 17 46 10 eP 13 49 30 20
07s 11 5nm 3 2mbALO 75 71 331 «P 21 26 30 02
1 Os 3 25nm 4 2mbOBA 145 32 117 PKPd 29 17 90 -0.3
03s 6 1 OnmSO- 12 on 22 o f 25 ob«
> JAN 03. 1985 08h 16m 42 25± 0 53s15 298 S ±21 4km 172.093 W ±22 OkmDEPTH 33.0km (normol)4 4mb ( 3 ot>s )
SAMOA ISLANDS REGION (169)
AFI 141 i3iPc ' ; o 0 e o -6 i?*s ; 20 eo
NUE 4 29 151 P 174470 -2 2X«S 18 29 00
WB? 51 Ofl 257 «P 25 41 80 -0 2r-' * 74 80 180 e(P) 28 0 00 -09HMN 7526 40 «P 28 L'4 50 06
0 8s 1 47nm 4 OmbF ll R 7551 42*P 282510 -04Ai.0 7Q77 5 < * P 284900 -01
0 8s 2 8 Onm 4 3ml>'. 0 L 82.07 1 0 e P 285900 -13
11s 1 5 1 9nm 4 9mt>INK 6787 1 3 « P 292800 -11f»A 69 51 23 fP 29 39 70 2 6XPOO 117 13 283 iPK'P 35 18 OO -8 5xIO1 145 30 345 *PKP 36 17 5O -0 8
n 8 s i i' 0 0 n mr.RF 145 59 356 ePKP 36 19 30 05>v 1 F 14570 2 P K P 361950 06FLU 14592 lOePKP 361980 05f HC 145 94 353 iPKPd 36 20 00 06
1 is 20 5 Onmi 36 24 00
LDF 146 15 10 ePKP 36 20 40 07LPF 146 53 11 «PKP 36 21 60 13CDF 146 98 1 «PKP 36 23 10 1.9X> < i 147.36 2 ePKP 36 24 40 2 7X
R 147 95 5 «PKP 36 26 00 3 4XF 148 12 6 iPKPd 36 26 40 3 5xF 148 24 5 iPKPd 36 26 80 3 6X
vF 148 37 6' ePKP 36 26 80 3 5X\-tr 148 56 5 *PKP 36 27.30 3 6X" F 148.74 8 «PKP 36 27.80 3 8X
SD -09 on 1 4 o f 26 obs
JAN 03. 1985 09h 02m 32 89± 0 58s
80.518 N ±12 6 1- m 122 390 E ± 8 6kmDEPTH - 10 Okm (g«u physicist)4 6mb ( 7 obs )
EAST OF SEVERNAVA ZEMLYA (654)
MBC 20 16 38 «P 07 14 80 5 4X0 4s 12.0Pnm 4 6mb
DAG 21.58 337 iPc 07 23 20 -0 81.0s 2 1 . OOnm 4 5mb
i §7 30 00INK 25 80 56 eP 08 06 00 10COL 26 85 71 fp 08 16 00 13
0 9s 10 5 Onm 4 5mbYKA 33.75 44 *P 09 16 t>0 07BJ 1 40.67 167 *P 10 13 50 -6 8KSP 42 82 296 «P 10 31 50 -0 4MOX 43 70 300 «P 10 40 00 10SPC 43 83 292 «P 10 4 1 00 06KHC 44 89 298 iPd 10 49 50 08
* 10 56 40NEW 47.35 52 *P 11 09 00 0.8EUR 56 14 53 iP 12 15 20 06
08s 2 95nm 4 4mbRLO 61 78 34 «P 12 52 00 -1 6ALO 61 80 45 «P 12 52 80 -1 1
1.2s 7 81 nm 4 8mbTUL 61 96 35 eP 12 53.30 -1 5
1 4s 35 10nm 5 4mbf 131720
LTX 67.66 43 eP 13 31 10 -0.7GBA 69.84 227 Pd 13 45 40 02
1 1 s 8 50nm 4 . 8mb3D. -10 on 1 6 o f 17 obs
* JAN 03. 1985 0 9 h 21m 49 80s37 460 N 1 1 8 640 WDEPTH - 6.0km ( q«oph y s i c i s I )
CALIFORNIA-NEVADA BORDER REGION ( 40) ML 3 9 (PAS). 4 1(BRK) Ma-7 4»10«»21 (BRK)
TIN 0.52 141 iPd 21 59 50 -0 8PPK 0 58 93 iPc 22 00 50 -1 0SVP 0.71 69 iPc 22 03 00 -1 1LCH 0 82 106 «P 22 04 60 - 6MGM 0 91 91 eP 22 06 50 - 3FRI 0.97 242 iPc 22 07 00 - 6MNA 1 04 21 iPt 22 09 10 - 9
iS 22 55 00CWC 1 11 156 iPd 220950 - 7'_, 0 v 1 } 7 l 1 0 * P 221490 - 7JA31 1 49 289 iPd 22 16 00 - 1
. S 223410VPEM 1 65 156 P 22 19 30 -0 2WCN 05 335 P 22 25 10 -0 2PRI 09 232 .Pc 22 25 90 00
iS 22 55 00SLD 09 260 P 22 26 1 0 02PHAM 15 222 P 22 26 40 -» 3ARN .31 268 P 222910 01SAG .35 254 iPc 22 29 60 01MHC 39 268 «P 22 30 60 0.3
*S 23 02 70BK'S 88 J79 «Pc 22 37 00 -0 1
«S 23 15 20EUR 2.91 45 iP 22 36 80 -0 9BMN 317 20 P 22 39 80 -1 4MIN 3 69 322 *P 22 48 00 -0 8WDC 4 35 317 «P 22 57 60 -0 4
e(S) 24 02 6023 obs. associat«d
« JAN 03, 1985 09h 28m 04 73± 0 62s5 186 S ±11 4km 102 662 E ±16 4km
DEPTH - 33 Okro (normol)4 4mb ( 4 obs )
SOUTHERN SUMATERA (274)
PPI 5 21 334 «Pc 29 22 70 02e(S) 30 20.5.0
LOE 22,47 358 «P 33 02 00 -0 6CHG 24 13 351 «P 33 20 00 1 ?CHTO 24 13 351 «P 33 19 20 04
1.0s 5 OOnm 4 . 0mbWRA 34 13 118 PC 34 48 80 -0 2
07s 21 Onm 4 2mbW8 2 34.14 11B «P 34 49 30 03
ASPA 35 25 125 *P 34 55 00 -3 6XCD2 35 91 2 *P 35 04 00 00Pk 1 36 58 334 «P 35 09.60 -0 5
06s 6 . OOnm 4 7mbKKN 36.83 334 «P 35 12.00 00
06s 12 OOnm 4 9mbXAN 39 46 8 P 35 33.50 -03NDI 41.64 325 iPd 35 51.60 -0 1GTA 44 45 357 iPc 36 15.30 0.7STK 45 06 131 «P 36 20 00 0 5WMO 50 62 346 P 37 03 00 0 3YOU 51 23 131 *P 37 07 90 0 «CAN 52 12 131 *P 37 21 30 7 0 tCN2 52 92 21 Pd 37 19 60 -' *TUL 145 02 27 «PKP 47 4f> df> - fr f
08s 11. 2 OnmRLO 145 14 25 «PKP 47 4e ie -«r --LTX 145.41 43 iPKP 47 42 1& « :
SO. -06 an 19 o < 21 ot>i
JAN 03. 1985 10h 33m 00 201 1.83s31 398 S ±20 7km 68 403 W ±10 5kmDEPTH - 112.7 ± 15.4 km
SAN JUAN PROVINCE. ARGENTINA (137)
RTLL 0 09 320 iPd 33 15.80 -0 4S 33 25 . 40
CFA 0 25 146 «Pd 33 16.60 0.0S 33 27 60
RTCB 0 35 255 i Pd 33 1 7 00 01S 33 28 80
RTCV 0.48 194 ePc 33 17.60 0 .1S 33 30.00
MDZ 1.53 194 eP 33 30.20 2 2XiS 33 49.50
PEL 2 60 227 iPd 33 42 00 03IS 3415.10
ROCH 2 71 234 iP 33 43 70 0.3iS 34 1 » 00
PCH 2 84 218 iP 33 46.50 1 5iS 34 22 00
TACH 3.11 223 iPd 33 48 40 0 0TCA 3.26 90 iPd 33 5« 80 » I
S 34 28 09RFA 3 36 181 «Pc 33 51 60 -< *LNV 3 60 224 iPc 33 53 30 - '
> 34 34 103D -09 on 1 1 o ' 12 obs
& JAN 03. 1985 lOh 45m 20 90s36 1 80 N 120 2 10 WDEPTH - 5 Okm
CENTRAL CALIFORNIA ( 39) ML 3.3 (BRK). 4.1 (PASi
PRI 0 37 264 iPc 45 28 50 0 'iS 45 34 60
PHAM d 38 204 IP 45 29 70 ' :FRI 0 91 26 iPd 45 38.20 -f> tSAO 1 15 301 eP 45 41 50 - - *SLD 1 21 318 eP 45 42 30 -i cARN 1 58 318 «P 45 47 20 -2 <MHC 1 63 316 ePc 45 48 4« -2 >JAS1 1 75 355 iPd 45 51 20 -v ?
i S 461340TIN 1.82 61 iPd 45 54 20 : (i
«S 46 18 90BKS 2 34 317 «P 45 58 40 -: J
*(S) 46 26 40MNA 2 78 35 e(P) 46 08 20 i 'EUR 470 44 iP 46 36 60 I '
12 obs as soc i o t «d
JAN 03. 1985 11h 03m -.7
A P »4 1 4 9 3 1 7 P 034400 -05
MHC l 54 315 *P 034430 -11G C '- ' 5 9 2 9 & e P 034520 - 0 7J A 3 1 6 7 3 5 6 « P 034750 04
> o 040926EU*> 4 68 45 tP 04 34 26 3 9<
SD -07 on ll of I2obs
k .AN ej. 1985 llh 22m 27 60s36170 N 120273WD£P T H- 9 Okm4 3n»b i 4 obs >
C£»«TP*L CALIFORNIA ( 39) : S ° ' > M .. 3 " t B R k 1 . 4 3 (PAS)F .r t h * C O O 1 i n g o O r e o Also' * . I 'III) c t Lemoo r «
P* i * 32 265 iPd 22 33 80 -0 4PHAM 0 35 197 P 22 34 90 61FRi 6 94 29 iPd 22 43 40 -2 23*O 12 302 iPc 22 46 70 -1 93tD 18 320 P 22 47 50 -2 3ARM 55 320 P 22 52 50 -3 0MHC 60 317 eP 22 53 40 -2 9BUP 61184P 225410 -21JASi 76 356 .P 22 56 30 -2 1CUC 79 81 ,Pd 2C 57 90 -1 2TIM 87 6 1 e P 2259.60 -05/PEu 2 00 S6 P 23 00 90 -1 28*3 : 32 318 eP 23 03 40 -3 1MNA : 82 36 P 23 13 00 -O 80*' 3 52 344 P 23 21 40 -2 1WIN 4 30 346 eP 23 35 50 07£u= 4 75 45 .P 23 39 20 -2 1BMfc 4 88 19 P 23 41 10 -2 0ALO 1132 91 eP 251310 03
1 Os 3 75nm 4 7mbEDM 17 73 14 *P 26 34 50 -1 6TUL 1979 8 3 e ( P i 265780 -3.3
06s 1 1 OOnm 4 3mbRLO 20 37 83 «P 27 04 40 -2.8BHO 20.80 87 eP 27 09 20 -2 5
0 8s 5 90nm 4 0mbFFC 22 44 28 eP 27 25.00 -2 9
09s 1 1 OOnm 4 3mbTKC 26.58 6 «P 28 08 00 05r*A 26 58 6 eP 28 09 10 16ffB 4- 48 32 eP 30 14 00 -2 0
Z" o t, ; o ; i o '-. i o t e o
;Al* i)3 . '385 lin 45m 09 48± 1 ft3»11 0*4 S ±15 0km 117 312 E ±15 2kmDEPTH - 33 Okm (normol )4 Omb ( 1 obs )
SOUTH OF SUMBAWA ISLAND (291)
TRT 5 68 305 i PC 46 33.80 0 0MBL 10 35 167 eP 47 38.00 -0 7MEk 15.53 176 iPd 48 48.50 0 7
0 6s 6 OOnm 4 0mbW82 18.64 120 eP 49 27 10 03ASPA 20.18 131 eP 49 44 00 -0 2
S.D -0.8 on Sol 5obs
JAN 03. 1985 I3h 10m 02.82± 0 41s16 326 S ± 6 8km 117 526 E ± 9 7kmDEPTH - 33 0km (normol)5 1mb ( 6 obs . )
SOUTH OF SUMBAWA ISLAND (29i)
TRT 5.49 298 iPc 11 24 50 01MBL 11 00 169 eP 12 36 r 4 -o OX
03s 1700nm 5 7mb X**J 12 30 189 »P 12 55 00 -3 6x
0 4i 44 00r,n-, 5 9mbM£. 1623177, Pd 134876 -14» r M 16 31 355 * P : 146230 11 0 x 8 N 1 7 ':H 1 5 3 * P 14100& -11
0 4i 9 OOnm 4 3mb*GM 1872316ePc 142240 13
e 143160WRA 18 82 122 Pd 14 25 00 26
0 6s 2 50nm 3 6mb 'X»B2 18.83 122 eP 14 20 70 -1 8
eS 173750MRWA 18 85 184 eP 14 21 00 -1 7PPR 20 01 3 ePd 14 41 00 5 3x
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LOE 31 74 330 «-P 08 15 56 -1.5fOU 36 83 135 *P 09 04 76 4 0X>Ml 38 1? 338 *P 09 15 00 3 3XN J2 4114 1 Pd 094630 17i".H2 43 11 34V *P 09 52 60 -0 1"AN 44 89 350 fP 10 06 20 -0 fl> O(J 4491296.-P 10 08 06 03(.{1* 46 47 300 Pd 10 t 9 60 0.1
0 r * 2 80nm 4 9mhH t B 4 7 4 8 3 1» «j c P 102700 - 0 7
0 8s 26 96nm 5 3mb» 10 35 00
Tir 48 03 354 *P 10 32.30 06Pk i 48 95 321 eP 10 37.90 -15
0 5s 5. OOnm 4 8mbfKN 49 19 321 *P 104060 -04BJ 1 50 12 358 eP 10 47.50 -01MAT 50 45 21 (P) 10 48.00 -2 3
1.3s 28 85nm 5 . tn»bBTO 51 15 353 eP 10 56.40 07POO 51 88 303 iPd tl 09.00 7 5XGT A 52 . 19 342 P 1 t 05 . 30 t . 7NOl 55 05 316 eP tl 30 . 00 5 3XMOJ 55 73 10 eP tl 28 70 -9.6WMO 60 38 335 eP 12 02.50 0.4OUt 63 24 3!t eP t2 2t 00 -0 6MM I 71 69 314 eP 13 15.00 0 4
e 1 3 24 00SPA 79 75 180 e(P) 14 02 50 2 .7TKA 11592 2 4 e P K P 204690 t2.6XSOB1 151 18 228 e(PKP)2l 50 00 to OXCNCB 152 47 168 PKP 21 55 00 12 5xLPB 152 72 168 PKP 21 55.00 t2 4X
SKS 32 20.00LR 53 06 00
SO -14 on 34 of 4 4 obs
' JAN 03. t985 t5h 15m I8.21± 3 95s14.243 S ±29 2kn» t65 584 E ±64 8 1 ».DEPTH - 33 0km (normol)
VANUATU ISLANDS , ', 8 6 )
> Ol» 6 41 t91 iPc t6 52 70 00i S t 8 1 2 10
HNR 7 30 310 eP t7 05 00 -0.3SVO 7 58 311 P 17 09 00 -0.3VSC, 7 59 3 10 eP i 7 10 . 00 0.6
eS 18 38 00HOU 8 07 174 iPc 7 16 00 00
3 I 8 46 00SO -05 on 5 of 5 obs.
> >AN 03. 1985 16h 46m i. 7 60± 1 58s^6 624 S ±18 8l.m 177 66 E ±28 5kmU E P 1 H m 33 ykm (normal)4 9mb ( 5 obs )
orr t COAST OF N ISLAND. N z (ieo)
NO Li . 1 7 4 1 3 r 2 t P c 501120 16> Oil 10 y 7 320 iPc 50 38 50 -1.4'" T A 3221 292 iPd 523600 1 1
1 C< i 15 Ounm 4 8mbeS 58 10 00
A S P A 39 90 276 *P 534000 -02WRA 41 47 281 Pd 53 52 50 -0 6
0 4s 5 10nm 4 6mb10 46 80 260 iPc 54 36 30 0.4
0 5> 7 OOnm 4 9mb' LH 49 40 257 eP 54 55.00 -1 1
06s 12 OOnm 5 . 1mbSPA 53 56 180 ePd 55 28 70 14
0 8 ', 27 08nm 5 . 3mbe 56 31 00
Put, 142 80 215 iPKPd 05 36 70 -3 2XCt 5 s 4 . OOnm148 64 335 iPKP 05 50.20 2 2X06s 3 80nm149 78 175 «(PKP)05 50 t0 -1 1SO -1.4 on 9of Mobs
IAN 03. 1985 17h 2 1 n» 28.07± 6 04s32 095 S ±43 8km 71.625 W ±20.3kn»DEPTH m 10 0km ( geophy s i c i S t )
NEAR COAST Or CENTRAL CHILE (135)
ROCH 1 02 156 iP 21 47 50 0.0iS 22 00 50
JACH 105124 I P 214800 00i (S) 22 02 10
PEl 1 31 143 iPd 21 *>2 40 00i S 220940
TACH 1 6 6 1 6 0 * P 215700 -03i S 221730
Ff.H 1 f,7 138 fP 21 57 70 O Oi S 221920
P r H 179149iP 215930 00. S 22 22 60
INV 1 . 86 1 75 eP 2? 00 40 01i b 222480
CHCH 2 01 156 IP 22 02 50 0.1iS 22 29 00
S 0. - 0 2 on 8 of 8 obs.
JAN 03. t985 t7h 53m 56 16± 0 73s2 832 S ± 9 9tm t38 964 E ± 8.3km
DEPTH - 33 0km (normol)4 . 3mb ( 3 obs )
WEST 1R 1 AN ( 20 t )
JAY t.77 80 iPc 54 24 80 -0 t0.5s 356 40nm
TZZ 3.31 137 eP 54 52 00 5.txAAI 10.79 265 e(P) 56 32 50 11MTN 12 61 217 eP 56 55 00 -1 1WB2 17.59 194 eP 57 59 80 -0 8
i 58 04 90WRA 17 60 195 P 58 01 00 0 4
04s 3 20nm 3 8mbISO 17 78 178 eP 58 03 00 00CTA 18 57 158 iPd 58 19 90 7 3x
1 3s 26 92nm 4 3mbASPA 21 28 193 *P 58 42 00 -O 2WBN 26 05 ?06 eP 59 28 00 -0 4rOU 32 49 165 eP 00 ?6 80 0.8CAN 33 64 165 eP 00 38 10 2 tWAM 34 44 166 eP 00 45 70 2.9XPPI 38 62 273 eP 01 19 20 0.8PSI 40 40 277 eP 01 33.00 -0.2SPA 87 19 180 ePd 06 39.60 -0.7
0.5s 4 . 63nm 5. 0mbKIC 143 66 277 ePKP 13 29.00 -t 5CNCB 147 00 127 PKP 13 39 90 3.2xLPB 147.06 127 ePKP 13 42.60 6.0X
SO -10 on 14 of 1 9 obs
JAN 03, 1985 I8h 57m 56 82± 0 63s19 583 S ± 3 9km 69 175 W ± 8 8kmDEPTH - 128 6 ± 6 9 km5 . 1mb ( 5 obs )
NORTHERN CH 1 LE (123)
CNCB 2 98 23 iP 58 45 00 06LPB 3 20 19 .Pc 58 48 20 11
S 59 12 00L R 591808
ZOBO 3 44 17 iP 58 50 20 -0 3ARE 3.81 324 iPc 58 49 50 -5 6X
iS 59 32 OOSLA 6.15 147 *Pc 59 27 40 06
S 59 59 00CY A 9 35 1 6 1 e ( P ) 00 1 1 00 13CFA 12 00 176 e(P) 00 40 70 -4 IXTCA 1241161ePc 004690 - 3 3 <JACH 13.11 185 *P 00 59 00 -0 3
i 010776ROCH 13.44 187 «.P 01 04 00 03PEL 13.57 185 iPc 01 05 80 05FCH 13 73 184 eP 01 11 50 4 OxBACH 13.77 185 iPc 01 15 10 7 4XSAN 13.88 185 eP 01 15 00 5.9XPCH 14 03 185 eP 01 10 50 -0 7
i 011720TACH 14 10 186 eP 01 1 1 50 -0.5LNV 14 45 187 eP 01 15 00 -1.4ITB1 14 60 113 PC 01 23 50 5.2xRFA 15 14 178 ePd 01 24 50 -0.7VBA 19 44 163 ePc 02 15 10 -068AO 20.57 82 e(P) 02 22 50 -4 9XVAO 20 97 103 eP 02 30 90 -0 4
e 02 55 30ATB 23 16 48 iPd 02 52 70 00BOG 24 53 348 eP 03 07 00 07
CHN 25 20 345 P 03 09 50 -2 9BMG 26.76 351 P 03 25 00 -1 6SOB1 29 22 73 P 03 48 30 -O 4
03 50 6003 56 40
ITR 31 64 74 P 04 09 20 -0 7BHO 58 97 335 (P) 07 45 00 h 0RLO 60 60 336 P 07 55 80 - 0 ">
08 ?1 60TIJL 6067335 P 07 '> *j 80 -OH
0 9s 16 70nn» *i 0"'b* 08 ?2 OO
KDS 64 54 65 iPc 08 21 21 -1 3Y. 1 C 68 42 75 iPc 08 47 00 -a 1
6 09 1 4 30SPA 70.54 180 iPc 09 00 00 6 i
1.0s 20 . OOnm 4 9mbSES 78.85 334 ePd 09 47.20 03
pp 1614.001 03kmXPNT 81 89 329 *P 10 04 00 1 O
0.7s 9 OOnm 4 . 7mbEDM 81.93 335 i Pd 10 03 20 0 1
05s 27 . 00nm 5 . 3mbpP 161950 58kmX
FRB 83 06 0 eP 10 09.00 05pP 10 36.00 103kmX
YKC 89 25 341 ePd 10 40.00 1010S 39 00nm 5 . *mb
pp 11 07 00 1 0 t kmxYKA 89 30 341 «P 10 40 50 1 5WB2 134 45 212 ePtfP 17 01 90 -6 Z
e 1731.20WRA 134 46 212 PKPc 17 03 60 1 '.KOD 146 51 101 *PKP 17 26 00 15GBA 147 49 95 PKPc 17 27 70 2 J>
06s 810 nmWMO 149 04 34 PKP 17 33 00 ^
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* 20 05 00132 93 210 ePKP 17 51 00134 28 215 *Pk P 17 44 00137 31 213 Pfc'P 17 58 00141 .62 304 e( PK P ) 1 8 04 00142 19 237 e P k P IB 0300145 12 357 P PKPd 18 08 90
1 3s 96 OOnm146.33 14 epfp 18 14 20
1 2s 1 00 00nm146 93 13 ePKP 18 13 80
1 Is 70 0«nm146 98 14
e«d 01 n
MUNCMS*DE
s~f
C C "r OL;
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CAN
NAMNNTBOT
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WMOOUEMH 1oouALO
FRBJCTf I CVAO
04s 8 0 0 n m 47mb28 60 206 e P 15 21 O O -0 328 77 152 «P 152300 0229 36 166 .PC 15 29 08 0 8e V-i 33 einm 5 6mb3* it 28* * > 15 3? (ff> -1 3«» 3 i 4 ' 5 fcnm 52mb3 ' 34 t 4 3 *P 154700 1432 26 ?51 .PS 15 57 oe 3 3x
i 1 7 1 i 0032 56 162 *P 15 55 03 -6 532 69 285 .PC 15 55 . 60 -1 987s 21 59nm 5 6mb33 42 1 52 ' Pd 169486 12
17 23.203408 153 i Pd 16 1980 1 635 87 302 «P 16 24 10 -0 538 95 308 cP 16 49 98 -8 50 5 s 47 . 40nm 5 5mb39 S0 310 iPc 16 59 08 076 7* 20 55nm 5 0mb
0 39 90 310 iP 165900 0787s 111 2nm 4 8mt>4 1 36 320 PC 171100 064343 9cP 172600 -0945 08 327 P 17 40 40 8245 14 335 PC 17 40 10 -0 548 12 345 cP 18 83 50 -0 349 13312 i P 181100 -1149 13 331 tP 181160 -S3 'i50 26 355 eP 18 19 20 -O 953 7 i 33 1 i PC 184650 0355 08 310 iP'. 185580 - O 80 5s 10 00 nm 5 Omb55 29 310 i P .; 18 57 7 y - 0 356 22 291 PC 190320 -1309s 27 9tfnm 5 2mb56 42 296 eP 190500 -1 11.0s 50 . 00nm 5 5mb61 01 295 i P i NCCOM ( 533 )
Feit tr i o u ' ft e r n Anglesey o n d innorthern G / n e d d Count/. WoltS
1 1 8 258 < P 153930 02eS 155350
1 30 290 eP 154110 04cS 15 54 50
1 39 285 eP 1542.50 05eS 15 56 00
1 . 48239 i P 154380 05eS 160160
1 62 249 i P I5457o 03eS 160470
162 l7cPn 154630 08cSn 16 13.33
1 82 302 cP 15 48.50 O 2eS 1 6 09 30
1.83 283 cP 1548.50 01«$ 160840
2 27 32 cPnc 1555.38 0.6cSn 16 20.12
233 17 cPnc 1556.20 0 .6cSn 1621.90
2 81 25 cPn 16 01 83 -0 6SO -04 on 11 o < llobs
JAN 64. 1985 02h 17m 34 78* 0 16-.
26 W 5 7 «j i «, ')^ n, 1/7 ', 1 fl W i 3 8 1. mDEPTH - 132 7 t m ( 15 3
SOUT H
RAO
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AF 1
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P vCPAR
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ADE
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ISOASPAWB2
WRA
DRVWBN
MTNK LG
RKG
NWAOAA 1
MEK
MBL
mb < 3b obs )OF FIJI ISLANDS
i depth i>hos* s )
(171)CENTROID. MOMENT TENSOR (HRV)Dolo Used GDSNL . P 8 . MS. 32CCentroid locationOrigin T i me 02.17 41 9 0 2Lot 25 73S 0 02 Ion 177 6 1 W 0 03Dep 138 6 0 8 Hal f-durotion 3 0Moment Tensor. Seal* 10»«24 0-CM
Mr r- 1 81 O 10M ( ( - 0 80 0 16Mr (-- 1 58 0 10Principal Axes
M I 1 --2 61 0 15Mr t --5 21 0 10M t ( - - 0 42 0 15
T Vol- 5 52 Pig-56 Azm-156N 075P -627
6 25434 348
Best Double Couple-Mo-5 9«10««24NP 1 S t r i k e-1 0 1 DNP2 . 253
p- 1 2 Slip- 11779 84
3 . 20 1 86 P 1825.00 03S 184200
8 74 334 eP 19 39 70 039 43 332 ePd 19 51 00 2213.21 205 eP 204200 3 7X
« 210100s
1323 25 Ps
15 10 281 . Pd, s
15 53 299 i PC1 * 96 7 7 P
s17 58 2 ft 4 iPd
i 325 6 1 90 , P09s 7 5 UOnm27 02 304 eP27 26 253 eP27 . 30 304 P30 12 244 eP
,30.35 242 i PC
i30 49 246 «P32.46 252 eP33 27 241 «P33.78 272 i PCO 8s 265 67nm
153000 27 OO - 1 1 7 X2 36 001 06 00 3 7X4 06 0011000 2312400 - 1 44 20 001 35 1 ft 2 l45480? 52 00 -0 9
5 2mb3 04 00 -2331300 1 5 X31200 3 1 X3 34 80 083 39 70 1 7 imX3 37 40 143 42 70 1 8 ! mX3 38 70 153 55 00 043 56 00 - 'j 4 4 07 00 10
6 1mbi S 291700iScP 30 16 00i ScS 34 1800
35 54 242 eP36 09 251 eP
'4 23 08 23M 26 00 06
36.27 302 eP* 24 20 00 -7 ix37.34 290 iPc1 0s 220 00nm38-49246 i PC :0 7s 23 29nm
'4 36 00 005 9mb
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5 4mb'4 56 00 09'5 30 20 -0 2>5 35 00 0 6"6 07 80 146VmX
eS 30 56 0044 53 267 Pd1.0s 216 80nm
:5 34 90 -0 25 8mb
48 32 201 iPc 26 03 90 -0 249 . 86 257 , PC 261530 - 1 20 8s 142 00nm 5 8mb49 . 88 275 eP 26 1 5 00 - 1 753.31 250 eP 26 40 00 -2 304s 1 4 00nm 5 2mb56 . 39 245 eP 270200 -2504s 6 50nm 4 9mb56 42 246 eP 27 04 00 -0 856 50 284 eP 27 03 70 -1 9
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BAL
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SPA
CGP
TRTPPRK K MBAGMAT
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r N2
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1 1 1OXMLNVT PMT ACH1 1 CRMUROCHPCHPELBACHNNTLOERFALTX
GT AB J l
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TTAPME
ALQ
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T 1 YNEWBDT
57 3504s57 4658 2707s60 5505s64 0909s
65761 5s685771 437 1 6873 50749509s
Z 20s
765477 6081 151 1 s82 0582 0507s
830083 1783 6883 7283 77
83 { ?
84 0584 341 Oi85 3 185 391 2 &858786 098& 671 0s86 7386 850 3i86 96
87 34
87 7187 9687 9788 3388 4688 5468 6288 7588 7888 9088 9389 07895389 6489 68
89 7790 1 4
90 . 301 Os90 3290 351 0S90 .531 0S
91 011 3s91 3091 6191 781 Os
249 i PC29 OOnm
247 eP250 eP
12 00nm258 .Pc
81 06nm180 i PC290 45nm
e293 i Pd423 7 0 nm
272 ePc29 1 eP286 ePc298 eP324 eP
21 . 8 5 nrri0 7 1 umeS
320 eP1 eP
277 ePd163 70nm42 eP41 e ( P )25 OOnm
e(S)4 3 eP4 2 eP39 eP49 l P
3 1 0 POS.P
S2 l 7 fP
ePS40 eP
278 ePc33 90 nm
325 eP275 ePd
99 90nm280 eP307 eP42 i P10.00 nm
320 PC43 l P
7 69nm373 i °d
pP3 1 3 P d
pP68 P P67 ePc
127 i PC68 i PC
127 i Pd67 eP47 eP
126 i Pd127 i Pd127 i PC127 ePc284 eP290 eP129 e P c57 eP
e300 eP3 i 5 eP
eS1 3 P23 . OOnm
1 0 eP1 3 eP35 00nm
51 eP16.7 5nm
epP34 eP5 1 OOnm
3 1 2 P36 eP
288 fP34 5ftnm
27
2727
27
27
3728
2828282829
38292929
2929
392929292929304030422929
2929
303036
3030
303030303030303030303030303030303030303030304030
3030
30
3030
30.3030
69
101 6
32
55
3806
2443435300
1 61 01 537
4242
464647495 1e. i40001 0
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2 120
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570
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70500040500040
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92 .25
92 .531 0s
92 531 Os92 691 0s
92 7093. 1 71 Os93. 55
93.740 . 9s
93 861 Os
94 1494 41
96 08964796 5 196 6296 .831 0S
99 40
99 5 11 0s
1 00 80107 430 6s
107 6108-,
108 10109 22118 910 8s
121 42125 17
1 27 29127 53
128 1908s
128.28
128 87
1 29 86
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131 90
1 36 09
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1 38 50
140 1205s
141 29142 3606s
1 44 . 62
144 98
1 46 . 06149 24
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297 «PpP
290 eP40 OOnm
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39 «P58 i P
1 1 50nm12 «P
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3 7 9nme
47 eP22 OOnm
e302 «P313 «P
SKS36 «P
307 eP33 «P
112 «P44 i P
9 00nme
114 «Pe
1 1 3 «P2 50nm
309 «Pd i f293 «Pk'P
5 OOnm293 «PKP
1 1 00 nm12 «PkP
276 PKP8 -Pt-P
4 OOnm30 * P V P
124 p«
217 i P K P d! SkP
215 i Pk Pdi SKP
297 ,Pk'Pde
2 1 4 PKPi
347 « P k Pfi
236 ePkP14 93nm
344 ePKPe
343 iPkP3 OOnm
299 «PkP342 i P k P
1 5 . 70nm347 i PKP
i358 iPkP354 e P k P353 .PkPd
60 00nmi
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4 1 0830 34
30 31
3 1 0630 3330 35
30 3431 1130 38
31 1230 39
31 1330 4 130 4 141 01
30 4830 51304930 5230 5 1
31 263 1 0635 093 1 06
31 0935 46
35 47
35 4635 5336 06
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38 2636 2838 2636 2939 3736 3039 4036 3239 4436 3139 4936 3 136 4 136 46
36 36364436 40
36 4636 47
36 5337 0836 5436 5937 08
37 44
10 t\ 1
00 1 30km00
00
5000
00 0.700 1 3 1 km00 16
5 6mb0000 1 6
5 4mb40 - 1 6
4 9mb00 1 34 km20 0.300 -0 2
5 1mb00 -2 100 144kmX10 02
4 7mb00 1 3 1 Kn50 1 2
5 . 4mb40 1 3 1 km00 1 400 03
00
00 00
50 1 200 -09
00 04
40 -0 4
5 . 2mb00 134km00 16
5030 1 2
4 . 7mb90 0 i x60 14
2 » - 1 0
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