DISCLAIMER -- THIS IS NOT AN EARTHQUAKE PREDICTION OR WARNING! The commentary provided with these map(s) is for INFORMATIONAL USE ONLY, and SHOULD NOT be construed as an earthquake prediction, warning, or advisory. Responsibility for such warnings rests with the Office of Emergency Services of the State of California. PLEASE REMEMBER -- THESE ARE PRELIMINARY DATA Releasing these summaries on a timely basis requires that the data, analysis, and interpretations presented are PRELIMINARY. Of necessity they can only reflect the views of the seismologists who prepared them, and DO NOT carry the endorsement of the U.S.G.S. Thus while every effort is made to ensure that the information is accurate, nothing contained in this report is to be construed as and earthquake prediction, warning, advisory, or official policy statement of any kind, of the U.S. Geological Survey, or the U.S. Government. FOR QUESTIONS CONCERNING THIS REPORT Send e-mail to michael@andreas.wr.usgs.gov or reply to this message. Seismicity Report for Northern California, the Nation, and the World for the week of November 10 - 17, 1993 Data and text prepared by Steve Walter, Barry Hirshorn, and Allan Lindh U.S. Geological Survey 345 Middlefield Rd. MS-977, Menlo Park, CA 94025 Graphics by Quentin Lindh San Francisco Bay Area Seismicity continued at low levels in the Bay Area. For the 8-day period ending at midnight on Wednesday, November 17, 1993 the U.S. Geological Survey office in Menlo Park recorded 23 earthquakes of magnitude one (M1) and greater within the San Francisco Bay area shown in Figure 1. Only two of these were as large as M2.0. This total compares to 11 earthquakes during the six-day period from November 4 - 9, three of which were as large as M2. The first M2 earthquake occurred in the East Bay last Saturday morning, a M2.1 on the Hayward fault beneath the eastern Berkeley hills (#1 in figure 1). Later that same day a second M2.1 occurred on the San Gregorio fault about 13 miles west of Santa Cruz (#2/1). The largest recent event in this area was a M3.2 in August, 1991. The central and southern Calaveras was again active only at the M1 level. A couple of M1's occurred on both the creeping and Loma Prieta segments of the San Andreas. Single M1's occurred on the Black Mountain fault west of San Jose and in the southern Santa Cruz Mountains about two miles northwest of Aptos. Northern & Central California Parkfield A-Level Alert The news during the past week was an A-Level alert that warned of a "one in three chance" that an earthquake measuring at least 6.0 might occur in the Parkfield area within 72 hours. The alert was based on a M4.8 that occurred early Sunday morning in the Middle Mountain area just north of Parkfield (Figure 2a). The Parkfield segment of the San Andreas has produced six moderate to strong earthquakes since 1857, an average of one every 22 years. These earthquakes are believed to have all originated beneath Middle Mountain. Because the most recent earthquakes, in 1934 and 1966, were both preceded by M5 foreshocks, experimental procedures were instituted, in coordination with the California Office of Emergency Services (OES), to issue a short- term earthquake alert should a similarly sized earthquake occur with the Middle Mountain box shown in figure 2a. Within half an hour of the M4.8 event Sunday morning, OES issued the short-term alert, instructing agencies in the seven counties surrounding Parkfield to begin implementing pre-arranged plans that would mitigate the effects of the possible earthquake. Quick response is important since the probability of a mainshock is highest in the minutes and hours following a foreshock. The probability declines to about "1 in 6" after a day and about "1 in 20" after two days. In this case, the earthquake failed to occur within 72 hours of Sunday's quake and so the A-level alert ended early Wednesday morning. This is the second A-level alert to be issued for the Parkfield area. The first, in October 1992, also passed without the M6 earthquake. Such false alarms were expected when the alert system was devised in 1985. Sunday's M4.8 was located about 1.5 km below the hypocenter of the 1966 earthquake. Based on the aftershock pattern the rupture was unilateral to the northwest, similar to the 1966 foreshock. Sunday's earthquake produced about a dozen aftershocks as large as M2, most within the first six hours and all spread over about a 4 km length of the fault extending north from the M4.8. Interestingly, there were also several foreshocks on this same section of the fault Saturday afternoon and evening, the largest a M3.1. This activity was significant enough to produce a C-Level status, alerting scientists who monitor the instruments at Parkfield of a moderately anomalous condition. Because Parkfield remains the most likely place to observe a M6 earthquake the Parkfield Earthquake Prediction Experiment will continue its attempt to monitor this area in order to observe possible precursors, to study the basic physics of the earthquake process, and to work on the practical problems of issuing and responding to earthquake advisories. Other Activity The creeping segment of the San Andreas north of Parkfield was also a bit busier during the past week with five earthquakes as large as M2.0. The largest of these was a M2.5 last Friday morning in the Bitterwater Canyon area about one mile southeast of San Benito. On the coast a M2.2 occurred Tuesday evening about nine miles northwest of San Simeon (#8/2b). It appears to have occurred along the one of the numerous faults that comprise the Hosgri fault zone along much of the Big Sur coast. Northern California was relatively quiet during the week with only three areas active at the M2 level. Cape Mendocino experienced two notable events, both located just offshore of the Cape (#2/2b). A pair of M2.0 events occurred in the Shasta National Forest about 19 miles southeast of Mt. Shasta (#3/2b) and two M2 events occurred along the eastern side of the Coast Range, both northwest of Lake Berryessa (#5/2b). The largest event of the week in the Sierra Nevada was a M3.4 last Friday evening north of Lake Isabella (#1/2b). Monday evening a M2.0 occurred about nine miles east of Yosemite Valley (#6/2b) and on Tuesday a M2.6 occurred in the central Owens Valley about seven miles northeast of Independence (#7/2b). Long Valley Caldera Activity continued in two locations within the caldera. The southeast side of the resurgent dome (north of the airport) was active off and on throughout the week, producing three earthquakes as large as M2 and several smaller temblors (#3/3). In contrast, the southwest side of the resurgent dome was quiet most of the week except for a small but energetic swarm two miles east of Mammoth Lakes just after midnight on Monday (#4/3). This swarm produced seven earthquakes as large as M2.0 though no reports were received that the largest events, a pair of M2.6's, were felt. The largest earthquakes south of the caldera included a pair of events east of Mt. Hopkins, the largest a M3.1 (#1/3), and a M2.0 east of Mt. Morgan (#5/3). USA Seismicity (November 4 - 17) Data from the National Earthquake Information Center shows that, active as it was, California was not the only state in the country to experience seismicity during the week. Southern Nevada experienced a trio of M3 earthquakes early in the week (#1/4). All were located about 75 miles north-northeast of Las Vegas. The Klamath Falls, OR area continued to experience aftershocks to the M6.0 event that struck the area in late September (#2/4). Finally, a M3.8 earthquakes occurred Tuesday in southern Quebec, rattling shelves and nerves but producing no damage. It was felt in Montreal (15 miles north of the epicenter) and across the border in both Plattsburgh, NY and Burlington, VT (#3/4). The quake occurred along an active seismic zone that produces about one felt event per year. The Planet Earth (November 4 - 17) The Middle East was fairly active with a Mb5.0 near the eastern Egyptian border (#1/5) and a Mb5.4 in the beneath the northern Arabian Sea (#2/5). A Ms5.6 earthquake also occurred in the Baluchistan Range of western Pakistan (#6/5). The largest earthquake on the planet was a Ms7.1 near the eastern coast of Kamchatka that was widely felt but produced little damage (#5/5). Finally, a Mb6.0 quake near the southern coast of Guerrero, Mexico was felt as far away as Mexico City but apparently caused no damage or injury (#4/5). Table 1. Northern & Central California Seismicity (M>1.0) --ORIGIN TIME (UT)-- -LAT N-- --LON W-- DEPTH N N RMS ERH ERZ DUR YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG 93 NOV 10 804 27.18 36 55.80 121 25.84 5.63 22 .08 .3 .8 HOL 1.4 93 NOV 10 837 24.31 37 20.73 122 8.16 5.69 8 .06 1.1 .5 BLM 1.1 93 NOV 10 841 15.31 36 26.17 120 37.55 17.00 13 .09 .4 1.1 CRV 1.9 93 NOV 10 854 21.22 37 39.48 118 50.77 2.41 11 .17 .6 1.1 HCF 1.3 93 NOV 10 948 50.00 36 55.95 121 25.74 6.82 52 .14 .3 .6 HOL 1.9 93 NOV 10 1028 0.21 38 50.30 122 49.51 2.63 8 .03 .3 1.2 GEY 1.1 93 NOV 10 1430 13.21 37 38.85 118 55.42 7.10 7 .01 .6 1.4 SMO 1.0 93 NOV 10 1453 36.13 37 34.54 118 28.80 10.99 8 .07 .6 1.9 CHV 1.3 93 NOV 10 1645 36.66 37 37.44 118 51.85 9.05 15 .07 .4 .7 SMO 1.2 93 NOV 10 1851 23.63 37 32.65 118 50.22 0.67 12 .10 .7 .4 MOR 1.6 93 NOV 10 1913 5.76 37 24.97 118 31.89 8.09 9 .05 .4 1.7 CHA 1.1 93 NOV 10 2013 48.50 37 38.29 118 54.53 5.00 14 .13 .5 .8 SMO 1.4 93 NOV 10 2024 25.66 37 39.58 118 51.40 3.30 22 .19 .5 1.1 DOM 1.9 93 NOV 10 2052 4.36 37 21.38 121 42.70 4.29 22 .17 .5 1.7 ALU 1.4 93 NOV 10 2154 57.80 38 48.32 122 45.81 1.44 7 .03 .3 .8 GEY 1.2 93 NOV 10 2156 25.62 37 29.03 118 48.82 5.62 29 .12 .3 1.1 MOR 2.0 93 NOV 10 2202 35.12 38 46.64 122 43.44 2.89 21 .09 .3 .6 GEY 2.0 93 NOV 10 2313 33.66 38 49.71 122 47.49 0.46 15 .11 .3 .9 GEY 1.7 93 NOV 11 151 12.93 37 39.86 118 50.65 4.97 10 .06 .4 .9 HCF 1.0 93 NOV 11 152 25.70 37 39.39 118 50.97 3.59 14 .13 .4 .9 HCF 1.5 93 NOV 11 234 39.49 37 39.89 118 52.00 3.40 21 .14 .4 1.0 DOM 1.7 93 NOV 11 436 8.06 38 47.12 122 44.78 0.48 7 .04 .3 1.2 GEY 1.3 93 NOV 11 620 48.99 37 25.11 118 37.54 11.85 39 1 .09 .3 .6 RVL 2.4 93 NOV 11 857 5.47 38 50.20 122 47.72 1.66 8 .02 .3 .8 GEY 1.2 93 NOV 11 857 24.31 38 48.86 122 50.09 0.03 13 .26 .6 3.5 GEY * 2.0 93 NOV 11 858 10.59 38 49.91 122 47.63 1.05 11 .14 .4 1.2 GEY 1.4 93 NOV 11 948 2.78 36 36.30 121 12.83 8.95 14 .07 .3 .8 PIN 2.1 93 NOV 11 1053 12.76 38 45.26 122 44.26 2.95 45 1 .12 .2 .6 GEY 2.9 93 NOV 11 1222 41.93 36 16.07 121 46.10 11.17 19 .16 1.1 1.1 SUR 1.2 93 NOV 11 1340 40.51 38 46.57 122 44.77 4.35 41 1 .13 .2 .5 GEY 2.5 93 NOV 11 1407 51.09 39 46.30 122 54.44 2.59 20 1 .13 .3 5.1 SAC- 1.8 93 NOV 11 1516 9.30 37 28.62 118 47.99 9.49 43 3 .10 .3 .6 MOR 3.2 93 NOV 11 1520 14.74 37 38.94 118 51.35 5.20 11 .13 .6 1.0 HCF 1.0 93 NOV 11 1523 48.23 37 36.38 118 58.08 6.87 11 .06 .5 1.0 SHE 1.0 93 NOV 11 1535 33.11 37 38.97 118 51.62 5.12 19 .15 .4 .7 SMO 1.6 93 NOV 11 1556 45.79 37 39.16 118 52.39 5.54 42 4 .13 .3 .4 DOM 2.4 93 NOV 11 1619 15.65 37 39.82 118 52.00 3.67 10 .08 .5 1.1 DOM 1.0 93 NOV 11 1634 34.86 38 24.12 122 34.11 6.81 29 1 .12 .2 .7 NAP 1.8 93 NOV 11 1702 28.45 37 33.77 118 50.15 10.24 18 .12 .4 .9 MOR 1.7 93 NOV 11 1802 7.48 36 29.70 121 4.05 6.31 42 4 .07 .2 .4 BIT 2.6 93 NOV 11 1802 48.52 37 39.44 118 51.93 3.27 10 .11 .6 1.5 DOM 1.1 93 NOV 11 1902 6.16 37 4.30 121 53.76 14.47 19 .08 .5 .8 LOM 1.3 93 NOV 11 1907 28.46 37 39.57 118 51.63 5.72 12 .08 .7 .6 DOM 1.0 93 NOV 11 1917 49.76 36 29.71 121 3.95 6.23 26 1 .05 .2 .5 BIT 1.8 93 NOV 11 1920 59.80 37 39.97 118 51.99 3.67 9 .09 .6 1.3 DOM 1.0 --ORIGIN TIME (UT)-- -LAT N-- --LON W-- DEPTH N N RMS ERH ERZ DUR YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG 93 NOV 11 2133 34.41 37 39.17 118 52.22 5.02 16 .10 .3 .7 DOM 1.5 93 NOV 11 2312 50.17 37 39.20 118 52.00 5.07 19 .13 .4 .7 DOM 1.6 93 NOV 11 2318 13.36 36 45.84 121 28.15 8.00 39 2 .19 .3 .6 SJB 1.8 93 NOV 12 26 58.96 39 36.57 123 25.05 7.97 7 .01 .4 1.0 MAA 1.1 93 NOV 12 159 18.81 40 18.43 124 32.45 15.07 8 1 .06 1.1 .7 MEN 1.7 93 NOV 12 252 54.91 37 39.51 118 51.95 3.72 13 .13 .4 1.0 DOM 1.4 93 NOV 12 303 11.36 38 47.59 122 44.40 0.00 10 .19 .5 1.6 GEY * 1.2 93 NOV 12 358 57.34 39 0.18 123 20.25 0.12 21 8 .10 .2 .9 PAR- 1.6 93 NOV 12 531 9.08 35 40.95 118 19.81 16.88 19 .15 .4 .9 WWF 3.5 93 NOV 12 801 37.10 37 39.76 118 51.79 2.95 10 .06 .4 1.5 DOM 1.0 93 NOV 12 824 32.42 35 40.94 118 19.88 14.84 15 3 .14 .4 1.0 WWF 1.8 93 NOV 12 901 45.98 40 22.04 124 33.69 17.74 18 1 .12 .8 .3 MEN 3.0 93 NOV 12 902 32.85 38 48.84 122 47.83 3.21 7 .10 .5 .8 GEY 1.2 93 NOV 12 940 25.46 37 27.77 118 52.37 1.15 8 .06 .9 9.3 MOR - 1.4 93 NOV 12 1033 42.76 37 32.45 121 40.14 6.46 35 2 .07 .2 .4 HAM 1.6 93 NOV 12 1105 17.67 36 52.51 121 19.27 4.72 7 .02 1.0 1.3 QUI 1.2 93 NOV 12 1121 51.41 39 34.63 123 26.08 5.84 14 2 .10 .4 .8 MAA 1.5 93 NOV 12 1302 9.26 37 0.23 121 55.94 3.68 10 .07 .5 .9 MON 1.1 93 NOV 12 1356 15.58 37 38.18 118 56.15 9.33 7 .08 1.5 1.1 SMO 1.0 93 NOV 12 1445 10.28 37 38.96 118 52.14 5.22 24 .14 .4 .5 SMO 2.2 93 NOV 12 1446 17.85 40 22.89 124 27.64 16.08 9 .08 1.5 .5 MEN 2.3 93 NOV 12 1506 44.00 37 39.71 118 51.93 3.66 11 .08 .6 1.0 DOM 1.3 93 NOV 12 1507 49.86 37 39.75 118 52.14 3.52 8 .04 .6 1.2 DOM 1.1 93 NOV 12 1511 38.07 37 39.63 118 51.85 2.49 8 .11 .8 2.0 DOM 1.3 93 NOV 12 1613 58.24 39 29.64 122 56.60 11.29 12 .06 .3 .7 BAR 1.9 93 NOV 12 1619 4.17 37 37.86 118 50.65 5.17 7 .16 1.0 2.8 HCF 1.2 93 NOV 12 1754 44.42 37 38.60 118 55.55 9.35 14 .07 .5 .9 SMO 1.4 93 NOV 12 1927 17.27 36 21.71 120 56.34 5.65 17 .08 .3 1.4 BIT 2.0 93 NOV 12 1954 53.90 38 47.99 122 47.92 1.98 9 .05 .3 .5 GEY 1.2 93 NOV 12 2009 21.49 36 2.53 120 35.35 1.99 15 .17 .6 1.8 SLA 1.8 93 NOV 12 2255 16.44 37 25.06 121 45.99 5.44 26 .11 .3 .6 ALU 1.6 93 NOV 13 502 4.30 41 6.24 122 4.49 16.50 7 .09 .9 1.4 SHA 2.0 93 NOV 13 520 32.96 37 4.40 121 53.85 13.76 14 .08 .7 1.6 LOM 1.1 93 NOV 13 547 38.03 35 43.41 118 12.10 11.93 8 .06 .5 .8 WWF 1.4 93 NOV 13 708 14.71 38 49.51 122 50.08 0.95 10 .06 .3 .8 GEY 1.6 93 NOV 13 736 45.83 41 6.14 122 3.90 16.14 9 .10 .5 1.6 SHA 2.0 93 NOV 13 825 43.60 37 38.61 118 52.21 5.66 13 .12 .4 .7 SMO 1.3 93 NOV 13 846 25.20 35 58.65 120 31.86 11.24 10 .03 .9 .7 MID 1.1 93 NOV 13 1044 50.37 38 49.82 122 47.65 2.06 15 .05 .2 .5 GEY 1.8 93 NOV 13 1128 52.10 36 39.22 121 16.47 5.41 11 .03 .3 .6 STN 1.5 93 NOV 13 1130 5.50 36 39.15 121 16.50 5.18 8 .03 .4 .8 STN 1.4 93 NOV 13 1420 27.32 36 39.33 121 16.47 5.32 7 .03 .6 1.3 STN 1.1 93 NOV 13 1456 52.16 38 49.65 122 47.59 0.06 10 .06 .2 1.4 GEY * 1.1 93 NOV 13 1528 32.35 37 7.66 121 31.60 7.43 21 .07 .3 .6 CYN 1.3 93 NOV 13 1627 4.10 37 52.71 122 15.03 10.20 34 .19 .3 .8 HAY 2.1 --ORIGIN TIME (UT)-- -LAT N-- --LON W-- DEPTH N N RMS ERH ERZ DUR YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG 93 NOV 13 1754 7.98 40 25.03 121 30.48 7.80 8 .07 .7 .9 LAS 1.8 93 NOV 13 1905 42.03 38 47.64 122 48.50 4.04 12 .03 .3 .6 GEY 1.6 93 NOV 13 1907 11.60 37 35.93 118 50.67 8.05 16 .12 .5 1.0 MOR 1.4 93 NOV 13 2021 16.51 36 42.73 121 0.43 1.16 16 .33 .8 8.3 ORT * 1.6 93 NOV 13 2042 2.23 36 57.66 121 35.27 3.46 22 .13 .3 .6 SAR 1.4 93 NOV 13 2114 5.86 35 57.06 120 29.87 11.28 46 .12 .3 .4 MID 3.1 93 NOV 13 2311 52.18 37 35.96 118 50.60 8.21 14 .12 .5 1.0 MOR 1.3 93 NOV 14 11 12.96 35 56.86 120 29.78 10.95 40 .13 .3 .4 MID 2.5 93 NOV 14 222 19.49 37 14.88 121 37.98 4.42 12 .04 .3 .8 SFL 1.3 93 NOV 14 318 56.58 38 48.12 122 48.70 1.92 8 .18 .6 2.4 GEY 1.0 93 NOV 14 333 15.96 38 49.43 122 47.93 4.30 8 .02 .4 .9 GEY 1.1 93 NOV 14 335 44.61 36 59.28 122 16.31 2.60 23 .18 1.4 2.8 MON 2.1 93 NOV 14 359 32.46 38 48.00 122 48.49 1.83 8 .02 .3 .5 GEY 1.2 93 NOV 14 437 59.22 37 34.04 118 49.52 4.68 13 .11 .6 .8 MOR 1.6 93 NOV 14 441 0.01 35 57.05 120 29.83 10.84 23 .10 .4 .6 MID 2.3 93 NOV 14 442 45.12 38 48.12 122 49.08 1.51 9 .04 .3 .6 GEY 1.2 93 NOV 14 448 27.15 35 57.09 120 29.88 11.36 26 .07 .3 .5 MID 2.2 93 NOV 14 555 7.44 37 38.15 118 58.51 6.07 10 .07 .6 1.1 SMO 1.3 93 NOV 14 605 48.25 37 38.20 118 58.49 6.28 11 .11 .7 1.4 SMO 1.3 93 NOV 14 713 7.85 37 33.80 118 49.54 3.99 7 .03 .5 1.4 MOR 1.0 93 NOV 14 739 45.60 37 34.15 118 49.64 5.21 16 .10 .4 .7 MOR 1.7 93 NOV 14 753 28.31 38 48.97 122 47.69 4.67 16 .14 .4 .8 GEY 1.6 93 NOV 14 803 15.76 37 14.80 121 37.78 3.85 39 .10 .2 .6 SFL 1.8 93 NOV 14 906 20.42 40 25.73 123 59.53 27.79 11 .11 .6 1.1 MEN 1.9 93 NOV 14 916 53.59 38 49.79 122 49.65 0.59 12 .06 .3 .7 GEY 1.6 93 NOV 14 957 37.60 39 30.96 123 23.25 5.44 14 .10 .3 1.4 MAA 1.9 93 NOV 14 1201 33.75 37 40.16 118 52.00 1.51 8 .02 .7 .4 DOM 1.2 93 NOV 14 1225 34.89 35 57.16 120 29.65 11.50 25 .07 .4 .5 MID 4.7 93 NOV 14 1228 45.22 35 56.50 120 32.94 13.60 8 .11 1.6 2.0 MID 1.7 93 NOV 14 1229 14.50 35 57.29 120 30.45 11.12 32 .16 .4 .6 MID 2.6 93 NOV 14 1230 37.33 35 58.02 120 30.85 11.55 22 .06 .4 .5 MID 2.3 93 NOV 14 1233 59.72 35 57.74 120 31.31 11.96 14 .05 .5 .4 MID 1.5 93 NOV 14 1234 53.87 35 57.36 120 30.34 10.94 23 .08 .4 .5 MID 2.7 93 NOV 14 1241 36.34 35 57.66 120 31.05 11.27 13 .07 .7 .6 MID 1.6 93 NOV 14 1243 14.27 35 58.09 120 30.82 11.43 16 .05 .4 .6 MID 1.8 93 NOV 14 1243 22.64 35 57.98 120 30.99 10.36 19 .15 .5 .8 MID 2.0 93 NOV 14 1245 3.82 35 57.59 120 31.19 11.39 13 .03 .4 .5 MID 2.2 93 NOV 14 1252 27.82 36 38.56 121 14.99 4.71 41 .11 .3 1.4 STN 2.4 93 NOV 14 1252 59.29 35 56.61 120 29.60 11.32 28 .11 .3 .5 MID 2.7 93 NOV 14 1254 5.91 36 38.34 121 15.06 5.76 20 .06 .3 .6 STN 1.8 93 NOV 14 1301 49.82 35 58.28 120 31.61 11.33 28 .12 .4 .6 MID 2.2 93 NOV 14 1305 45.41 36 38.26 121 15.42 4.96 9 .04 .4 .8 STN 1.3 93 NOV 14 1306 42.54 35 58.14 120 31.17 11.83 31 .12 .3 .5 MID 2.2 93 NOV 14 1333 46.86 38 49.17 122 48.17 3.54 11 .05 .3 .7 GEY 1.4 93 NOV 14 1346 24.81 37 40.91 118 51.88 5.92 11 .06 .7 .7 DOM 1.5 --ORIGIN TIME (UT)-- -LAT N-- --LON W-- DEPTH N N RMS ERH ERZ DUR YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG 93 NOV 14 1347 34.42 35 58.15 120 31.16 11.76 19 .05 .4 .5 MID 1.9 93 NOV 14 1348 19.39 35 57.72 120 32.06 10.90 10 .06 .9 .7 MID 1.2 93 NOV 14 1426 15.04 38 49.64 122 49.21 0.00 12 .27 .6 1.8 GEY * 1.9 93 NOV 14 1430 42.64 35 57.33 120 30.29 12.23 12 .06 .8 .7 MID 1.4 93 NOV 14 1455 36.61 35 57.80 120 30.95 11.11 34 .13 .4 .5 MID 2.3 93 NOV 14 1543 30.61 37 31.78 118 49.77 10.01 10 .03 .5 1.1 MOR 1.2 93 NOV 14 1550 30.85 35 57.33 120 30.62 11.51 16 .02 .4 .4 MID 1.7 93 NOV 14 1601 25.06 35 57.49 120 30.89 10.53 8 .03 1.1 .7 MID 1.3 93 NOV 14 1627 2.72 35 58.24 120 30.20 11.66 26 .20 .6 .8 MID 2.1 93 NOV 14 1905 24.56 35 58.14 120 31.15 12.08 15 .09 .6 .6 MID 1.8 93 NOV 14 2203 31.63 37 33.85 118 49.88 4.86 16 .06 .3 .7 MOR 1.6 93 NOV 14 2301 16.56 38 50.18 122 48.99 0.80 9 .07 .3 .9 GEY 1.0 93 NOV 14 2328 27.39 35 58.00 120 30.98 12.07 18 .06 .5 .5 MID 1.8 93 NOV 15 200 43.20 35 57.44 120 30.87 10.85 9 .02 .8 .8 MID 1.3 93 NOV 15 305 4.79 35 58.46 120 31.15 11.08 24 .06 .4 .5 MID 2.6 93 NOV 15 431 36.40 37 33.43 118 48.89 3.58 9 .17 .9 1.9 MOR 1.0 93 NOV 15 517 3.78 37 33.34 118 49.64 4.57 9 1 .05 .8 1.1 MOR 1.0 93 NOV 15 533 23.08 37 40.19 118 51.77 5.57 10 1 .10 .9 1.0 DOM 1.0 93 NOV 15 705 8.35 37 35.84 118 53.45 7.32 11 1 .10 .6 .9 MOR 1.1 93 NOV 15 852 35.70 35 59.54 120 32.29 10.72 20 .06 .3 .5 MID 1.9 93 NOV 15 1032 38.33 38 48.51 122 46.02 2.12 9 .08 .3 .7 GEY 1.2 93 NOV 15 1101 0.99 36 0.10 120 33.09 10.55 43 .13 .3 .5 SLA 2.3 93 NOV 15 1224 11.92 37 40.40 118 51.91 1.97 7 1 .04 .5 .8 DOM 1.2 93 NOV 15 1228 44.00 38 47.41 122 28.04 8.24 30 .15 .3 .8 GVL 2.5 93 NOV 15 1349 52.89 38 40.46 122 44.02 7.39 7 .03 1.0 .9 NAP 1.0 93 NOV 15 1423 48.57 35 57.32 120 30.61 10.50 7 .02 .9 1.3 MID 1.1 93 NOV 15 1556 0.57 38 47.40 122 44.69 0.15 7 .09 .6 3.4 GEY * 1.2 93 NOV 15 1643 46.59 38 50.41 122 49.27 3.13 22 .11 .3 .9 GEY 2.0 93 NOV 15 1731 35.03 37 34.11 118 47.10 4.49 29 .11 .3 .6 MOR 1.9 93 NOV 15 1802 47.89 38 47.29 122 46.21 2.68 10 .05 .3 .8 GEY 1.4 93 NOV 15 1956 23.87 37 38.46 118 51.67 5.18 12 .15 .7 .9 SMO 1.0 93 NOV 15 2005 50.99 36 3.60 120 36.92 7.51 23 .07 .3 .6 SLA 2.0 93 NOV 15 2010 53.27 37 38.09 118 51.97 9.26 12 1 .07 .7 1.1 SMO 1.0 93 NOV 15 2012 25.26 37 37.46 118 51.88 9.47 15 1 .10 .5 .9 SMO 1.1 93 NOV 16 139 31.19 37 33.27 118 52.22 2.41 7 .04 .7 6.6 MOR - 1.0 93 NOV 16 304 0.06 37 37.98 118 55.94 6.96 9 2 .12 .6 1.2 SMO 1.1 93 NOV 16 409 28.75 37 22.29 121 45.76 1.66 11 .08 .3 .5 ALU 1.3 93 NOV 16 420 55.71 37 33.23 118 51.16 0.79 9 .14 .9 .8 MOR 1.0 93 NOV 16 611 30.60 38 44.94 122 42.34 0.92 16 .13 .3 1.0 NAP 2.1 93 NOV 16 718 4.45 37 44.10 119 26.27 19.13 7 .10 .7 4.1 KAI 2.0 93 NOV 16 718 28.27 38 49.48 122 47.82 1.62 23 .12 .3 1.9 GEY 2.7 93 NOV 16 719 25.28 38 49.07 122 48.47 1.12 12 .09 .3 .6 GEY 1.6 93 NOV 16 721 37.56 38 49.94 122 48.00 0.06 15 .10 .3 1.2 GEY * 1.6 93 NOV 16 721 55.14 38 50.06 122 48.01 0.03 9 .11 .5 1.4 GEY * 1.7 93 NOV 16 722 26.75 38 49.56 122 48.16 2.20 9 1 .05 .3 .6 GEY 1.7 --ORIGIN TIME (UT)-- -LAT N-- --LON W-- DEPTH N N RMS ERH ERZ DUR YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG 93 NOV 16 731 13.37 38 50.17 122 47.72 1.35 13 .05 .2 .7 GEY 1.7 93 NOV 16 833 55.93 37 39.68 118 55.50 8.38 10 1 .08 .7 .8 DOM 1.5 93 NOV 16 835 38.82 37 39.05 118 55.94 7.38 26 .18 .5 .7 SMO 2.6 93 NOV 16 836 52.06 37 40.13 118 55.77 8.03 11 1 .08 .7 1.0 DOM 1.3 93 NOV 16 837 32.80 37 38.82 118 55.83 6.77 18 .14 .5 .7 SMO 2.1 93 NOV 16 838 42.86 37 39.18 118 55.67 8.09 9 2 .09 1.0 .8 SMO 1.0 93 NOV 16 840 22.51 38 47.05 122 44.75 0.62 17 .11 .2 .7 GEY 1.7 93 NOV 16 841 52.36 37 38.30 118 55.74 6.39 9 .14 .7 .9 SMO 1.0 93 NOV 16 847 23.26 37 39.04 118 56.39 7.21 30 .17 .4 .6 SMO 2.6 93 NOV 16 852 34.65 37 38.90 118 55.65 6.46 12 .15 .6 .9 SMO 1.0 93 NOV 16 853 41.36 37 38.47 118 55.84 6.32 8 1 .15 1.1 1.2 SMO 1.1 93 NOV 16 854 23.19 37 38.64 118 56.07 7.60 10 1 .10 .7 1.0 SMO 1.2 93 NOV 16 855 8.55 37 40.05 118 55.87 4.81 10 .12 .8 .9 DOM 1.5 93 NOV 16 858 30.29 37 39.98 118 54.66 5.44 9 .09 .6 .9 DOM 1.7 93 NOV 16 859 49.76 37 38.57 118 55.42 7.19 10 .19 .8 1.3 SMO 1.5 93 NOV 16 900 29.23 37 39.31 118 56.44 3.71 7 .14 .7 1.5 SMO 1.0 93 NOV 16 900 54.87 37 38.69 118 56.08 6.59 13 1 .13 .6 .7 SMO 1.3 93 NOV 16 902 2.88 37 38.92 118 55.76 6.20 8 2 .12 .8 1.2 SMO 1.1 93 NOV 16 902 59.36 37 39.17 118 55.61 6.46 13 .16 .7 .9 SMO 2.4 93 NOV 16 905 9.15 37 40.33 118 55.79 9.53 7 .10 2.5 2.5 DOM 1.2 93 NOV 16 907 59.23 37 39.06 118 56.10 6.32 12 .11 .5 .8 SMO 1.0 93 NOV 16 910 31.88 37 41.20 118 55.28 10.49 9 .06 2.6 1.5 DOM 1.0 93 NOV 16 913 52.49 37 38.71 118 55.80 6.58 13 .20 .8 1.6 SMO 2.1 93 NOV 16 914 32.74 37 38.28 118 56.53 12.54 9 .08 .9 2.0 SMO 1.6 93 NOV 16 915 47.22 37 38.14 118 56.04 4.98 10 .11 .6 1.0 SMO 1.0 93 NOV 16 921 7.74 37 38.23 118 55.18 5.54 16 .14 .5 .7 SMO 1.7 93 NOV 16 940 46.15 37 39.06 118 56.01 6.74 22 .16 .5 .6 SMO 2.1 93 NOV 16 949 48.75 37 38.98 118 55.85 6.99 12 1 .11 .5 .7 SMO 1.5 93 NOV 16 959 14.71 37 38.72 118 54.56 11.19 7 1 .04 1.2 2.1 SMO 1.0 93 NOV 16 1034 33.38 38 49.27 122 47.06 1.28 9 .06 .3 .6 GEY 1.2 93 NOV 16 1100 1.36 37 39.68 118 55.30 6.49 8 .13 1.4 1.9 DOM 1.2 93 NOV 16 1101 7.61 37 38.87 118 55.61 5.90 10 .17 .8 1.4 SMO 1.6 93 NOV 16 1102 55.12 37 38.80 118 55.99 2.45 7 1 .17 1.1 1.9 SMO 1.6 93 NOV 16 1104 57.42 37 38.80 118 55.76 6.59 17 .15 .5 .7 SMO 1.5 93 NOV 16 1119 36.43 37 39.24 118 56.01 7.45 9 2 .09 .9 1.0 SMO 1.1 93 NOV 16 1121 18.29 37 38.63 118 55.56 6.01 10 .20 .8 1.4 SMO 1.3 93 NOV 16 1206 24.40 37 39.53 118 55.67 7.53 12 .16 .7 1.0 SMO 1.1 93 NOV 16 1218 1.12 37 39.28 118 55.53 8.00 12 1 .10 .5 .9 SMO 1.1 93 NOV 16 1231 6.63 37 38.78 118 55.63 3.13 8 .12 .6 1.4 SMO 1.0 93 NOV 16 1244 54.91 37 38.86 118 55.81 6.48 11 .13 .7 .9 SMO 1.0 93 NOV 16 1438 28.35 37 31.64 118 47.65 6.29 19 .11 .4 .8 MOR 1.8 93 NOV 16 1636 42.71 37 33.35 118 49.50 4.57 14 .04 .4 .7 MOR 1.4 93 NOV 16 1639 51.11 37 40.06 118 51.29 4.78 37 .14 .4 .6 DOM 2.5 93 NOV 16 1825 26.35 37 31.60 118 47.70 6.39 33 1 .11 .3 .6 MOR 2.0 93 NOV 16 2329 23.92 37 38.86 118 51.61 5.87 10 .16 .9 1.3 SMO 1.1 --ORIGIN TIME (UT)-- -LAT N-- --LON W-- DEPTH N N RMS ERH ERZ DUR YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG 93 NOV 16 2333 41.38 37 38.93 118 52.44 4.42 14 .14 .6 .9 SMO 1.2 93 NOV 16 2359 6.53 38 49.40 122 47.61 0.37 9 .05 .3 1.0 GEY 1.2 93 NOV 17 4 36.80 38 40.80 122 23.55 7.33 19 .10 .4 .8 GVL 2.1 93 NOV 17 47 34.78 36 51.25 118 6.05 14.17 8 .08 8.4 1.7 DEV - 2.6 93 NOV 17 103 49.09 37 32.31 118 53.61 1.38 11 .08 .6 9.4 SIL - 1.4 93 NOV 17 140 26.42 35 43.74 121 18.62 6.09 24 .12 .6 3.6 SSM 2.2 93 NOV 17 235 50.13 37 40.11 118 50.71 2.19 14 .12 .4 .7 DOM 1.5 93 NOV 17 244 10.78 37 38.85 118 54.83 7.07 20 2 .10 .4 .5 SMO 1.5 93 NOV 17 248 25.93 37 39.85 118 55.03 9.20 9 1 .05 1.3 1.2 DOM 1.0 93 NOV 17 444 16.48 37 33.50 118 49.46 9.88 13 1 .12 .6 1.2 MOR 1.3 93 NOV 17 445 55.75 37 39.30 118 55.70 7.28 17 .13 .5 .9 SMO 1.3 93 NOV 17 447 56.50 37 38.76 118 55.18 6.48 18 .14 .5 .7 SMO 1.6 93 NOV 17 625 55.92 38 47.81 122 45.01 1.89 8 .05 .3 .8 GEY 1.2 93 NOV 17 636 50.49 37 38.67 118 55.81 6.23 11 .13 .6 .8 SMO 1.0 93 NOV 17 716 26.12 38 44.31 122 58.21 2.64 15 .08 .3 1.2 ROG 1.5 93 NOV 17 733 52.81 37 34.10 118 47.11 5.26 9 .03 .4 .9 MOR 1.1 93 NOV 17 904 20.48 36 55.97 122 14.22 2.06 19 .17 1.3 3.5 MON 1.6 93 NOV 17 924 40.49 36 58.61 121 41.69 5.68 21 .11 .3 .8 SAR 1.4 93 NOV 17 933 59.76 37 39.29 118 57.17 12.04 10 2 .04 1.6 2.3 SMO 1.0 93 NOV 17 1047 54.68 38 50.31 122 48.02 2.31 22 .07 .2 .7 GEY 2.2 93 NOV 17 1113 42.82 37 38.48 118 56.41 6.21 11 1 .10 .5 1.0 SMO 1.0 93 NOV 17 1208 5.97 37 38.89 118 56.14 8.21 16 .15 .9 1.3 SMO 1.8 93 NOV 17 1243 22.75 37 38.00 118 56.18 6.31 11 2 .12 .6 1.0 SMO 1.1 93 NOV 17 1243 51.91 37 38.95 118 56.56 7.21 11 .07 .6 1.2 SMO 1.0 93 NOV 17 1304 24.73 37 38.87 118 56.19 8.47 17 .13 .7 1.1 SMO 1.6 93 NOV 17 1439 7.03 37 38.90 118 56.40 8.21 9 .08 .7 1.3 SMO 1.0 93 NOV 17 1535 44.29 35 59.88 120 33.25 5.20 21 .06 .3 .5 MID 2.1 93 NOV 17 1552 35.79 37 38.14 118 54.64 5.14 18 2 .12 .5 .6 SMO 1.5 93 NOV 17 1807 38.44 38 47.10 122 45.46 1.67 8 .05 .3 .9 GEY 1.1 93 NOV 17 1931 41.57 37 37.19 118 50.70 5.25 14 .12 .4 .7 SMO 1.4 93 NOV 17 2003 16.45 37 39.24 118 55.77 7.30 14 .09 .6 .9 SMO 1.3 93 NOV 17 2032 7.68 36 28.20 121 2.30 5.68 14 .09 .8 3.5 BIT 2.3 93 NOV 17 2209 47.80 38 47.77 122 48.02 2.66 12 .04 .3 .5 GEY 1.5 93 NOV 17 2213 36.59 36 39.72 121 17.09 4.18 7 .06 .8 1.1 STN 1.1 93 NOV 17 2219 28.25 38 47.31 122 45.45 0.04 10 .09 .3 1.1 GEY * 1.4 93 NOV 18 109 7.23 36 41.69 121 20.56 5.86 16 .10 .4 .7 STN 1.6 93 NOV 18 207 8.56 36 0.22 120 33.14 12.10 32 .10 .3 .5 SLA 2.2 93 NOV 18 243 32.56 36 50.26 121 16.71 6.22 7 .08 1.2 1.3 QUI 1.1 93 NOV 18 506 31.61 37 38.56 118 51.76 10.63 7 1 .07 1.0 2.5 SMO 1.0 93 NOV 18 642 7.75 37 18.28 121 40.44 6.15 10 .04 .4 .7 SFL 1.1 TABLE 2. Data from National Earthquake Information Center (NEIC) UTC TIME LAT LONG DEP GS MAGS SD STA REGION AND COMMENTS HRMNSEC MB Msz USED ------------------------------------------------------------------------------ NOV 04 014704.0 21.923N 143.260E 33N 4.8 4.0 0.6 23 MARIANA ISLANDS REGION 070701.1? 38.70 N 30.14 E 10G 1.0 7 TURKEY. ML 3.7 (ISK). 084412.7& 59.730N 153.080W 103 76 SOUTHERN ALASKA. . 130944.4 11.342N 125.776E 33N 4.7 4.0 1.1 27 SAMAR, PHILIPPINE ISLANDS 200945.3? 54.11 N 162.38 W 33N 4.0 1.6 12 ALASKA PENINSULA 231537.4 34.616N 116.642W 5G 0.7 15 SOUTHERN CALIFORNIA. ML 3.2 NOV 05 004207.1& 58.300N 152.840W 44 4.1 78 KODIAK ISLAND REGION. ML 3.4 015123.9? 16.19 N 99.04 W 33N 1.2 7 NEAR COAST OF GUERRERO, MEXICO 020104.8 44.240N 12.229E 10G 5.1 1.3 32 NORTHERN ITALY. ML 3.9 (KBA). 040203.9? 22.45 S 67.39 W 293? 4.3 1.0 25 CHILE-BOLIVIA BORDER REGION 070209.9* 6.940S 106.316E 107? 5.2 1.1 29 JAWA, INDONESIA. Felt at Bandung and Jakarta. 074948.8? 55.23 N 159.64 W 62? 1.1 14 ALASKA PENINSULA. Felt (III) at Perryville and Sand Point. 092252.2? 11.22 N 125.67 E 33N 4.5 1.3 12 SAMAR, PHILIPPINE ISLANDS 134452.1& 62.900N 149.090W 70 67 CENTRAL ALASKA. . ML 2.8 144856.2 20.150N 146.198E 33N 4.8 4.7 1.0 52 MARIANA ISLANDS REGION 190634.7* 5.835S 145.984E 10G 3.8 1.7 8 EASTERN NEW GUINEA REG., P.N.G. NOV 06 004826.3* 13.226N 89.488W 33N 4.8 1.1 36 EL SALVADOR. Felt throughout much of El Salvador. 023235.2 6.875N 73.097W 160D 4.7 0.8 45 NORTHERN COLOMBIA 041841.4* 14.892S 176.697W 33N 4.6 0.8 17 FIJI ISLANDS REGION 044356.3* 6.794N 73.057W 160D 4.3 0.7 20 NORTHERN COLOMBIA 074521.5* 16.788N 98.575W 33N 4.2 0.7 30 NEAR COAST OF GUERRERO, MEXICO. Felt in the states of Guerrero and Oaxaca. Also felt at Mexico City. 103248.5 54.862N 156.888W 10G 4.6 1.3 24 SOUTH OF ALASKA. ML 4.1 (AEIC). 151249.7 44.719N 10.083E 10G 1.6 17 NORTHERN ITALY. ML 3.3 (VIE). 182256.3* 15.502N 93.512W 33N 4.6 1.0 25 NEAR COAST OF CHIAPAS, MEXICO NOV 07 013617.5 60.030N 153.060W 149 0.6 81 SOUTHERN ALASKA 021240.4& 60.490N 151.530W 59 54 KENAI PENINSULA, ALASKA. ML 2.7 030541.9 6.363S 155.051E 55D 5.2 1.0 31 SOLOMON ISLANDS 042113.3* 5.791S 145.925E 10G 3.6 0.2 5 EASTERN NEW GUINEA REG., P.N.G. 071741.4% 44.499N 7.040E 5G 0.5 8 NORTHERN ITALY. ML 2.3 (GEN). 073458.3* 5.891S 146.226E 10G 4.8 1.5 17 EASTERN NEW GUINEA REG., P.N.G. 095550.2? 12.55 N 125.01 E 33N 4.8 3.9 1.4 8 SAMAR, PHILIPPINE ISLANDS 115711.7 47.854N 146.860E 418? 4.4 0.6 29 NORTHWEST OF KURIL ISLANDS 140454.3 5.852S 146.212E 10G 4.5 0.8 11 EASTERN NEW GUINEA REG., P.N.G. 163604.0* 5.729S 145.901E 10G 4.5 1.0 13 EASTERN NEW GUINEA REG., P.N.G. 214337.8 34.427N 119.231W 5G 1.1 37 SOUTHERN CALIFORNIA. ML 3.1 221429.7 38.747N 122.693W 5G 1.0 31 NORTHERN CALIFORNIA. ML 2.8 232111.5 44.260N 12.233E 10G 1.2 32 NORTHERN ITALY. ML 4.2 (VIE). 234730.9* 13.114N 145.736E 33N 4.8 1.4 12 MARIANA ISLANDS. Felt (III) at Merizo and Dededo, Guam. NOV 08 010602.3 28.673N 34.668E 10G 5.0 0.8 29 EGYPT. MD 4.6 (HLW). 012507.9* 5.863S 145.934E 10G 4.6 1.3 14 EASTERN NEW GUINEA REG., P.N.G. ML 4.9 (PMG). 035858.6 44.246N 12.250E 10G 1.3 33 NORTHERN ITALY. ML 3.7 (VIE). 041938.8 6.142S 146.697E 33N 4.1 4.0 0.6 9 EASTERN NEW GUINEA REG., P.N.G. 045047.3% 37.807N 14.881E 10G 1.1 9 SICILY. MD 3.0 (ROM). 055233.5& 19.360N 155.474W 11 17 HAWAII. . MD 3.9 (HVO). 141916.3 63.298N 151.208W 10G 0.9 12 CENTRAL ALASKA. ML 2.9 (PMR). 154949.8 12.967N 89.655W 33N 4.5 1.1 24 OFF COAST OF CENTRAL AMERICA. Felt (III) at San Salvador, El Salvador. 161737.1 37.049N 139.333E 5G 4.6 1.0 11 EASTERN HONSHU, JAPAN 164308.1* 2.867N 125.379E 193? 5.0 1.4 27 TALAUD ISLANDS, INDONESIA 191550.3? 25.47 S 176.52 W 33N 5.1 4.9 0.4 30 SOUTH OF FIJI ISLANDS 204854.8 36.186N 141.734E 33N 5.3 4.7 1.0 118 NEAR EAST COAST OF HONSHU, JAPAN 211446.8* 5.721S 129.691E 200* 4.9 1.4 15 BANDA SEA NOV 09 021403.2* 14.242N 53.712E 10G 5.4 5.1 1.0 34 ARABIAN SEA 024420.9 36.474N 141.593E 33N 4.9 5.0 1.4 54 NEAR EAST COAST OF HONSHU, JAPAN 024817.5 36.229N 141.792E 33N 4.5 0.8 19 NEAR EAST COAST OF HONSHU, JAPAN 034048.2 36.390N 141.674E 33N 4.8 5.2 1.0 59 NEAR EAST COAST OF HONSHU, JAPAN 042716.3* 13.049N 144.700E 67 5.0 0.9 43 MARIANA ISLANDS. Felt on Guam. 050134.0* 36.405N 141.601E 33N 1.2 9 NEAR EAST COAST OF HONSHU, JAPAN 134625.3 44.216N 12.232E 10G 1.1 37 NORTHERN ITALY. ML 4.1 (VIE). 135252.1 44.100N 12.365E 10G 0.5 16 NORTHERN ITALY. ML 3.5 (VIE). 190813.7 44.212N 12.200E 10G 1.0 31 NORTHERN ITALY. ML 3.4 (VIE). 215747.9 36.294N 141.885E 33N 4.4 1.3 23 NEAR EAST COAST OF HONSHU, JAPAN 220143.1 36.205N 142.127E 33N 4.4 1.0 14 OFF EAST COAST OF HONSHU, JAPAN 234427.1* 27.990S 178.551W 258D 5.0 0.7 30 KERMADEC ISLANDS REGION NOV 10 000325.5 4.656S 151.841E 116? 5.4 0.8 109 NEW BRITAIN REGION, P.N.G. 001922.2 36.147N 141.807E 33D 4.3 1.0 27 NEAR EAST COAST OF HONSHU, JAPAN 005410.7 12.666N 88.135W 59D 4.7 1.2 58 OFF COAST OF CENTRAL AMERICA. Felt (II) at San Salvador, El Salvador. 010245.3* 11.317N 125.650E 33N 4.9 1.0 20 SAMAR, PHILIPPINE ISLANDS 031135.5 40.683N 29.255W 10G 5.1 4.5 0.9 39 AZORES ISLANDS REGION 034700.4 34.033N 117.197W 5G 0.8 9 SOUTHERN CALIFORNIA. ML 2.8 045348.3 63.263N 150.677W 33N 0.8 10 CENTRAL ALASKA. ML 2.8 (PMR). 064852.9 37.434N 115.481W 5G 1.3 20 SOUTHERN NEVADA. ML 3.2 (GS). 105722.8 37.441N 115.563W 5G 0.7 18 SOUTHERN NEVADA. ML 3.4 (GS). 111336.3 15.086S 177.137W 360D 5.3 0.9 104 FIJI ISLANDS REGION. 202829.6 64.069N 149.679W 10G 1.3 10 CENTRAL ALASKA. ML 3.0 (PMR). 210001.0 51.634N 16.165E 10G 0.7 12 POLAND. ML 4.5 (GRF), 4.5 (VIE). 214500.9* 22.381S 179.085E 600G 5.3 1.0 29 SOUTH OF FIJI ISLANDS NOV 11 000341.9 42.140N 122.108W 5G 0.8 16 OREGON. ML 3.1 (GS). 000607.6 39.010N 142.186E 33N 5.2 0.8 69 NEAR EAST COAST OF HONSHU, JAPAN. Felt (IV JMA) at Ofunato; (III JMA) at Miyako, Morioka and Sendai. 002835.8 50.287N 177.387W 33N 6.3 5.6 0.9 140 ANDREANOF ISLANDS, ALEUTIAN IS. 030737.2 63.005N 150.933W 145? 0.3 10 CENTRAL ALASKA 070147.0 37.186N 115.238W 5G 1.0 18 SOUTHERN NEVADA. ML 3.5 (GS). 101354.2 4.322S 153.022E 33N 5.4 5.5 1.0 32 NEW IRELAND REGION, P.N.G. 121558.8 47.765N 146.714E 440D 4.4 0.6 40 NORTHWEST OF KURIL ISLANDS 151609.8 37.501N 118.783W 5G 0.7 35 CALIFORNIA-NEVADA BORDER REGION. ML 3.2 (GS). NOV 12 053109.2 35.621N 118.329W 10G 0.8 62 CENTRAL CALIFORNIA. ML 3.6 (GS). 111633.3 51.319N 177.996W 33N 5.2 5.0 1.1 81 ANDREANOF ISLANDS, ALEUTIAN IS. NOV 13 001647.6 16.331N 98.633W 10G 6.0 5.2 0.9 79 NEAR COAST OF GUERRERO, MEXICO. 011804.3 51.957N 158.797E 33N 6.6 7.1 0.7 175 NEAR EAST COAST OF KAMCHATKA. Mw 020825.0 52.229N 158.708E 46D 4.9 0.7 33 NEAR EAST COAST OF KAMCHATKA 103130.2* 22.503S 169.753E 33N 5.4 5.2 1.1 33 LOYALTY ISLANDS REGION 123055.8* 16.110S 70.627W 125D 5.5 0.6 72 SOUTHERN PERU 211405.7 35.918N 120.527W 10G 0.8 61 CENTRAL CALIFORNIA. ML 3.0 (GS). NOV 14 015923.0* 21.939S 68.660W 110D 5.9 0.7 61 CHILE-BOLIVIA BORDER REGION. Mw 122534.4 35.934N 120.539W 10G 4.3 0.9 86 CENTRAL CALIFORNIA. MD 4.8 (GM). Felt in parts of central California as far as Salinas. NOV 16 093142.4 45.264N 73.476W 5G 3.8 0.7 9 SOUTHERN QUEBEC, CANADA. mbLg 4.1 (GS). Felt in the Montreal area. Also felt at Plattsburgh, New York and Burlington, Vermont. 155250 Q 30.9 N 67.2 E 33N 5.6 0.6 33 PAKISTAN NOV 17 111853 Q 51.8 N 158.8 E 40 6.1 0.7 140 NEAR EAST COAST OF KAMCHATKA Notes: Origin time in the list is in GMT, in the text and on maps it is in local time. N RD: is the number of readings used to locate the event. N S: is the number of S waves in N RD. RMS SEC: is the root mean squared residual misfit for the location is seconds, the lower the better, over 0.3 to 0.5 seconds is getting bad, but this is machine, not hand timed, data. ERH: is the estimated horizontal error in kilometers. ERZ: is the estimated vertical error in kilometers. N FM: is the number of readings used to compute the magnitude. REMKS: obtuse region codes that denote the velocity model used to locate the event. DUR MAG: is the magnitude as determined from the duration of the seismograms, not the amplitude. Sort of like going to echo canyon and measuring how loud your yell is by counting echos. FIG: denotes the figure/event number in the maps posted separately.