Newsgroup sci.geo.geology 35826

Articles

Subject: Re: Mystery Soviet magnetic pole? (1941)...
From: stgprao@sugarland.unocal.COM (Richard Ottolini)
Date: 24 Oct 1996 18:36:37 GMT

In article <54nmqh$f5o_002@196-7-116-226.iafrica.com>,
Jan Lamprecht  wrote:
>Mystery Soviet magnetic pole? (1941)...
>
>I'm not sure if this is the right place to ask this question...
>
>I read somewhere that back in 1941, the Soviets announced the discovery of 
>another North Magnetic Pole - somewhere near Russia. Unfortunately, I can't 
>remember the name of the scientific journal in which this occurred. 
>Elsewhere, I also came upon a reference to the existence of TWO magnetic 
>poles (for the vertical component of magnetism only). I am trying to find 
>out more about this - can anyone help? If so, kindly drop me an e-mail - it 
>would be greatly appreciated. Thanks.
First you have ask whether this was from rock magnetism or direct measurements
of the field.    Continental rocks point to all sort of magnetic poles.
In the late 1960s the theory of plate tectonics then explained why this is so.
Before then there were some pretty wild theories as to what was happening,
a few that still persist in the urban folklore.

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Subject: Re: Three Mars Missions to Launch in Late 1996
From: twister@river.it.gvsu.edu
Date: Thu, 24 Oct 1996 19:03:05 GMT

>I'm working on a science fiction novel about Mars and my research 
>indicates that maintaining atmosphere and temperature on the planet for 
>any reasonable length of time would be big considerations.
	Well actually from all the research I have done it is in my best 
understanding that Mars could hold an atmosphere.  Matter of fact it could 
hold an Earthlike atmosphere.  The only thing that we would need to do is 
increase its rotation and thus increase its overall gravity to at least 0.9 G 
so that it could effectively hold the atmosphere in check like Earth does.
	Once this is done then melting the Polar Icecaps to obtain water and O2 as 
well as many other things would not be a problem.  Also, we could milk Earth 
for some of her water ( heck, we have enough of it ) and purify it, then place 
it on Mars to replace all the water that was lost so long ago.  AND, if we 
wanted to get so brave, we could also work on a mission out to Uranus, 
Neptune, and Pluto (if it is still there) and find a way to tow them into a 
lower solar orbit.  Then you mine them for all of the ice on them ( yes they 
are ice planets ) and the minerals as well and within 50-75 years you would 
have a livable, terriformed planet ready for farming and colonization.
	Please note though that this is based on my research only as a writer and a 
hobbiest and not stone hard facts.  I recommend that you do your own research 
into this and make your own opinions on this.

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Subject: Re: What is the mass of the earth?
From: ba137@lafn.org (Brian Hutchings)
Date: Thu, 24 Oct 1996 21:51:59 GMT

In a previous article, skrueger@arco.com (S Krueger) says:
yes, but it's a spherical argument (so to say .-)
>Simple physics, using the equations for gravitational acceleration
>(Gmm/r^2). Drop a 1 kg mass in a vacuum, measure acceleration. G and
>earth radius known. Solve for earth mass.
-- 
You *don't* have to be a rocket scientist.  (College Career Counselor
					     to me, again )
There is no dimension without time.  --RBF (Synergetics, 527.01)

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Subject: Porrisey Brook Question
From: onemind@mindspring.com (Steven Jay Scheiner)
Date: Thu, 24 Oct 1996 18:32:18 -0400

Hi all...
I've heard there is a site in central new jersey 
with nice rock speciments with cretaceous era fossils.
I know the name is porrisey brook  and its 
near middletown.
Would anyone have any further information, especially
directions from New York City.
thanks in advance...
Steve
-- 
Onemind@mindspring.com
Digital Heaven...what are you looking at?

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Subject: Re: Three Mars Missions to Launch in Late 1996
From: ez049941@boris.ucdavis.edu (Jedidiah Whitten)
Date: 24 Oct 1996 21:44:22 GMT

twister@river.it.gvsu.edu wrote: : >I'm working on a science fiction novel about Mars and my research : >indicates that maintaining atmosphere and temperature on the planet for : >any reasonable length of time would be big considerations. : : Well actually from all the research I have done it is in my best : understanding that Mars could hold an atmosphere. Matter of fact it could : hold an Earthlike atmosphere. The only thing that we would need to do is : increase its rotation and thus increase its overall gravity to at least 0.9 G : so that it could effectively hold the atmosphere in check like Earth does. Speeding up its rotation would have no effect on its gravity. The gravitational pull of a planet depends only on its mass and radius. Mars could still hold an Earthlike atmosphere with its current gravity, for long enough to make terraforming possible. -- ------------------------------------------ | Jedidiah Whitten | | jswhitten@ucdavis.edu | | http://wwwcsif.cs.ucdavis.edu/~whitten | ------------------------------------------
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Subject: Re: Three Mars Missions to Launch in Late 1996
From: ez049941@boris.ucdavis.edu (Jedidiah Whitten)
Date: 24 Oct 1996 21:49:47 GMT

James Grady Ward (jgward@unity.ncsu.edu) wrote: : : you mentioned fuel, you do realize that none of the probes sent : to mars ever left the surface once they landed. so all the fuel : needed to come back would be extra weight from the begining. If we sent humans to Mars we would definitely want to make the fuel for the return trip there rather than carrying it to Mars with them. Not only would you need extra fuel for the return trip, but even more fuel to push the extra mass of fuel you're carrying. It becomes a lot cheaper if you make as much of what you need on Mars' surface as you possibly can. -- ------------------------------------------ | Jedidiah Whitten | | jswhitten@ucdavis.edu | | http://wwwcsif.cs.ucdavis.edu/~whitten | ------------------------------------------
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Subject: Re: Three Mars Missions to Launch in Late 1996
From: ez049941@boris.ucdavis.edu (Jedidiah Whitten)
Date: 24 Oct 1996 21:57:06 GMT

John Ladasky (ladasky@leland.Stanford.EDU) wrote: : > : >the trip would not have to be under weightless conditions. you could : >spin the ship with little trouble and create the effect of a small : >gravity inside the ship. : : Yes, we could generate artificial gravity. But would we? None of : the proposals I have heard make any mention of it. It would not seem to be : much of an obstacle, but there may be some technical issues I don't under- : stand. For example, it's hard to adjust your course when you're spinning. I think the main problem is that to spin a spacecraft you have to build it larger and stronger, and that costs money. But if we're sending a human mission on a journey to Mars that will likely last over a year, it would have to be a fairly large spacecraft anyway and artificial gravity will be almost a necessity. -- ------------------------------------------ | Jedidiah Whitten | | jswhitten@ucdavis.edu | | http://wwwcsif.cs.ucdavis.edu/~whitten | ------------------------------------------
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Subject: Re: Three Mars Missions to Launch in Late 1996
From: ez049941@boris.ucdavis.edu (Jedidiah Whitten)
Date: 24 Oct 1996 22:01:57 GMT

Dazz (dazz@iconz.co.nz) wrote: : In article <54dggi$29u@news2.acs.oakland.edu>, : jbartlo@ouchem.chem.oakland.edu says... : > : >Interesting. This is not especially appropriate for this : >newsgroup, but perhaps others have wondered the same thing. : >What has prevented a human Mars landing similar to Apollo : >11 ? : > : >Joseph : : Hi .... I wish to add my thoughts why a human venture wouldnt be : considered for a few years yet. : : I reckon the biggest hold up for humans to visit Mars is simply the : unknown. In saying that I mean if the pathfinder mission discovered toxic : substances (just for example) OR even unknown substances would we still : send an astronaut there ?, I doubt we would even return the pathfinder : equipment (what kind of quarantine procedures are in place?). : : Hopefully though the 3 upcoming missions will confirm that human space : travel to Mars is SAFE, then I would assume it will definitely happen in : the next 10 years maximum. That's not really a consideration at all. We already know enough about Mars to know that there aren't any major dangers to worry about, relatively speaking. The problem is cost, and a human Mars mission is not considered important enough by the people (and hence, the government) to justify spending 1/4 of 1% of our GNP on it. -- ------------------------------------------ | Jedidiah Whitten | | jswhitten@ucdavis.edu | | http://wwwcsif.cs.ucdavis.edu/~whitten | ------------------------------------------
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Subject: Mineral deposits
From: "A. Czajkowska (Birdy)"
Date: Fri, 25 Oct 1996 00:25:39 -0700

Hi, I am a writer in need of help. One of the plot points in the sci-fi book I am trying to write involves the discovery of mineral deposits on a certain planet and being an ignoramus when it comes to geology I need some suggestions here. Is there anything that could point to the presence of a certain mineral in a particular region? (Other than actual rock samples, of course). What other methods can be used to look for particular minerals? I'd appreciate all sugestions - please send to my e-mail address, as I do not usually visit this group (for obvious reasons ;)) Or perhaps you know some web-sites that might be of help? Anka (czajkow@warman.com.pl)
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Subject: Re: Magnetic symmetry supports new ocean ridge model
From: john@mail.petcom.com. (John S.)
Date: 25 Oct 1996 01:02:35 GMT

In article , pjh1@york.ac.uk says... > >On Thu, 17 Oct 1996, Nick Hunter wrote: > >%< big snip > >> >> If the single dilating cell hypothesis can be confirmed by analysis of >> spreading rates on all paired flanks worldwide, then the reign of plate >> tectonics would be at an end, with earth expansion becoming the new >> ruling hypothesis. >> >Why so? It will certainly imply that the plate model which relies on a >convection cell per plate is wrong, but I suspect that many of us regard >*that* one as suspect anyway. > >Whilst I am perfectly happy to 'go' with a simple solution, I have grave >reservations regarding just about *all* the single process solutions >frequently offered. They tend to be rapidly seen to be gross *over* >simplifications. > >Lets be honest, we are speculating because our evidence is both far from >complete and far from conclusive. Some mechanism of 'plate' movement >would seem to fit the geological evidence better than postulating an >expanding planet. So, why could not a single convective cell along a >plate separation zone be just a part of the story? It may well act as >part of the mechanism for propelling the plates away from each other - >and, perhaps or in part, balance out some of the observed 'loss' at plate >collision zones. Why do we *have* to have an 'expanding' earth to explain >the oceanic ridges ... we cannot hope to understand the processes of the >earth by taking one facet in isolation and rejecting the whole. > The names Velikovsky and Waren S. Carey spring to mind. An expanding Earth would explain a lot of things nicely. No longer to we need a huge comet to selectively wipe out the larger animals- increasing gravity fills the bill. There's no way T. Rex could chase anyone in today's gravity- he'd be like a beached whale; suffocating under his own weight. Where does this increase in mass come from? Where could the planet be receiving a steady supply of energy that might result in creation of new atoms? Perhaps it is by constantly blocking the energy given off by the galaxies which causes our gravity. Look at Jupiter- giving off 60% more radiation in the form of heat than it can possibly be receiving from the Sun.
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Subject: Re: Troodos Ophiolite,Cyprus
From: Elmer Bataitis <"nylicens@frontiernet.net/nylicense"@aol.com>
Date: Thu, 24 Oct 1996 20:52:07 -0500

RA says, "I hope that there is someone out there who can help me. I'm soing my dissertation research on the Cyprus Ophiolite,..." Try Ager's last book. He did some work there and he may have put refs to the original literature there. Good Luck. D.V. Ager (1993). The New Catastrophism. Cambridge University Press ************************************************************* Elmer Bataitis �Hot dog! Smooch city here I come!� Planetech Services -Hobbes 716-442-2884 *************************************************************
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Subject: Seeking contouring software.
From: ishky@ix.netcom.com(Andrew Heiz )
Date: 25 Oct 1996 02:46:52 GMT

Hi, A few years ago, while I was working at an environmental consultant, I was in charge of making groundwater contour maps using Surfer. I'm looking to purchase the software myself but I don't know where to get it. If you know of a good product or where to find Surfer please send the information to me. Thanks in advance, Andrew Heiz e-mail ishky@ix.netcom.com
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Subject: Looking for CIPW normative program
From: s3500244@nickel.laurentian.ca
Date: 24 Oct 96 10:56:39 -0500

If anyone knows of a CIPW normative calculation shareware program that take CO2 into acount and alows you to plot the on a Quartz, Plag., K-Spar, Feldspathoid quadralateral - could you please email me. I have found several programs, however, none that have all of these requirements. Thanks in advance. shaun shaun.richards@sympatico.ca or S3500244@nickel.laurentian.ca
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Subject: Re: Seeking contouring software.
From: Erik Loehr
Date: Thu, 24 Oct 1996 22:37:54 -0500

Andrew Heiz wrote: > > Hi, > > A few years ago, while I was working at an environmental consultant, I > was in charge of making groundwater contour maps using Surfer. I'm > looking to purchase the software myself but I don't know where to get > it. > > If you know of a good product or where to find Surfer please send the > information to me. Surfer is produced by: Golden Software, Inc. 809 14th St. Golden, CO 80401-1866 phone: 303-279-1021 You might also check out GMS (Groundwater Modeling System) by the Engineering Computer Graphics Laboratory (ECGL) at BYU. You can see the software at http://www.ecgl.byu.edu/software/gms/ or email them at GMS@byu.edu. I don't have a phone number handy but can get one if you need it. If you just want contouring software, Surfer may be better for your needs. However, if you want additional capabilities for groundwater modeling GMS is certainly worth a look as it contains a very nice suite of tools for groundwater modeling. -Erik Loehr > > Thanks in advance, > Andrew Heiz > e-mail ishky@ix.netcom.com
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Subject: Re: What is the mass of the earth?
From: rwinsto@lsuvm.sncc.lsu.edu (Richard B. Winston)
Date: Fri, 25 Oct 1996 06:25:28 GMT

The orbital period of a satellite (such as the moon) depends only on the distance to the body about which it is orbiting and the mass of the body about which it is orbiting. It does not depend on the mass of the satellite. This is why we didn't know the mass of Pluto until we discovered a satellite (Charon) orbiting around it. ba137@lafn.org (Brian Hutchings) wrote: > >In a previous article, skrueger@arco.com (S Krueger) says: > >yes, but it's a spherical argument (so to say .-) > >>Simple physics, using the equations for gravitational acceleration >>(Gmm/r^2). Drop a 1 kg mass in a vacuum, measure acceleration. G and >>earth radius known. Solve for earth mass. >-- Richard B. Winston Dept. of Geology and Geophysics rwinsto@lsuvm.sncc.lsu.edu Louisiana State University http://aapg.geol.lsu.edu/rbwinsto.htm Baton Rouge, La 70803 ftp://aapg.geol.lsu.edu/pub/winston U.S.A. 504-388-2337 Fax 504-388-2302
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Subject: Re: What is the mass of the earth?
From: s1045099@iplabs.ins.gu.edu.au
Date: Fri, 25 Oct 1996 06:39:49 GMT

In article S Krueger writes: >From: S Krueger >Subject: Re: What is the mass of the earth? >Date: Wed, 23 Oct 1996 15:26:32 GMT >In article <54k4hp$j8i@sjx-ixn9.ix.netcom.com> Ronald.X.from.Beirut, >ahf2@ix.netcom.com writes: >>Hi, this is Ray. >>I would like to know the mass of the earth and the way that scientist >>to come up with that number. >>Please tell me about your profession. >>Thank you for your respond >Roughly 6 x 10^27 grams. >Simple physics, using the equations for gravitational acceleration >(Gmm/r^2). Drop a 1 kg mass in a vacuum, measure acceleration. G and >earth radius known. Solve for earth mass. But wasn't the value of the gravitational constant G (not g) in that equation derived by solving using the known Earth's mass and another 1kg mass and measuring acceleration. So how do you weigh the Earth without G? How did find the relationship between G and the Earth's mass in the first place? Just inquisitve Scott.
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Subject: Long Valley USGS Quake Map 10/17-23/96
From: michael@garlock.wr.usgs.gov (Andy Michael)
Date: Fri, 25 Oct 1996 00:42:48 GMT

Thu Oct 24 18:02:05 PDT 1996 The most recent version of this plot can be found here on the WWW This map is associated with the USGS weekly seismicity report for Northern California, the US, and the World. Disclaimers in that report apply to this map. The format is GIF (GIF 87a, I believe) converted to ascii by uuencode. For more info contact michael@andreas.wr.usgs.gov. DO NOT SEND EMAIL TO weekly@garlock.wr.usgs.gov It will not be read. 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Subject: USA USGS Quake Map 10/17-23/96
From: michael@garlock.wr.usgs.gov (Andy Michael)
Date: Fri, 25 Oct 1996 00:42:58 GMT

Thu Oct 24 18:02:05 PDT 1996 The most recent version of this plot can be found here on the WWW This map is associated with the USGS weekly seismicity report for Northern California, the US, and the World. Disclaimers in that report apply to this map. The format is GIF (GIF 87a, I believe) converted to ascii by uuencode. For more info contact michael@andreas.wr.usgs.gov. DO NOT SEND EMAIL TO weekly@garlock.wr.usgs.gov It will not be read. 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Subject: Weekly USGS Quake Report 10/17-23/96
From: michael@garlock.wr.usgs.gov (Andy Michael)
Date: Fri, 25 Oct 1996 00:42:21 GMT

NOTE: 5 or more maps will follow this post. If you don't want to read them all the subjects include the phrase "USGS Quake Map" for your killing convenience. 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 DO NOT SEND EMAIL TO weekly@garlock.wr.usgs.gov It will not be read. Seismicity Report for Northern California, the Nation, and the World for the week of October 17 - 23, 1996 Stephen R. Walter U.S. Geological Survey 345 Middlefield Rd. MS-977, Menlo Park, CA 94025 San Francisco Bay Area During the seven-day period ending at midnight on October 23, 1996 the U.S. Geological Survey office in Menlo Park recorded 21 earthquakes of magnitude one (M1) and greater within the San Francisco Bay area shown in Figure 1. Three were as large as M2. This total compares to 28 earthquakes during the previous seven-day period (October 10 - 16), four of which were as large as M2. What activity there was during the past week occurred primarily along the Calaveras fault. Two of the week's three M2 earthquakes occurred along the central part of this fault, the first a M2.2 on Sunday about five miles northeast of Morgan Hill (#1/1), the second a M2.3 on Monday about seven miles southeast of Gilroy (#3/1). A pair of small events also occurred at the northern end of the Calaveras fault about four miles north of Dublin (#2/1). The San Andreas fault was largely inactive with only one earthquake as large as M2. This M2.9 temblor occurred early Wednesday morning about seven miles northeast of Prunedale (#4/1). It was reported felt by some residents of that community. Northern & Central California Activity remained light in the rest of the region. For the second week in a row, the only earthquake as large as M3 occurred at the Geysers geothermal area, a M3.5 that occurred early Saturday morning (#6/2). Aside from a pair of M2's northeast of Covelo (#8/2) the Coast Range was quiet. The North Coast was marginally more active than during the previous week with four earthquakes as large as M2. Three of these occurred west and northwest of Eureka, all located within the Gorda Plate that is underthrusting this part of the state (#4,#5,#9/2). The fourth occurred along Mendocino fracture zone about 16 miles west of Petrolia (#10/2). The eastern Sierra Nevada saw continued, though diminished, activity. A single M2 event occurred about 20 miles north of Truckee, site of three M2 earthquakes during each of the two previous weeks (#2/2). Similarly, three M2 events occurred east of Markleeville, half the number seen during the previous week. In the central part of the range, a M2.9 occurred last Friday afternoon about 14 miles southeast of Yosemite Village (#3/2). Long Valley Caldera No earthquakes as large as M2 occurred in the caldera during the past week, nor in the Sierra Nevada terrane to the south of the caldera. Activity was limited to a half dozen M1 events in Mt. Morrison area. USA Seismicity (October 13 - 22) According to data provided by the National Earthquake Information Center, the largest earthquake in the United States was a M5.7 in central Alaska that was felt strongly in much of central Alaska and as far away as the western Yukon Territory, Canada (#5/5). Slightly smaller was a M5.3 beneath the central Cook Inlet area that was widely felt in south-central Alaska (#3/5). The largest earthquake in the lower 48 states was a M4.2 in the northern Laramie Mountains of central Wyoming that was felt most strongly in the Casper area (#4/4). Slightly smaller was a M3.7 south of the Wind River Range (#6/4). Other notable events in the Rockies were a pair of M3's in the Hebgen Lake area along the Wyoming/Montana border (#1/4). Other earthquakes of note include a M3.7 beneath the Nellis Air force Range in south-central Nevada (#3/4) and a M4.0 in the Bullion Mountains southeast of Barstow, CA (#5/4). The Planet Earth (October 13 - 22) A strong earthquake occurred about 75 miles southeast of Kagoshima, Kyushu, Japan early last Friday morning (#3/5). This Ms6.6 earthquake was felt most strongly in eastern Kagoshima Prefecture and generated a local tsunami with wave heights up to 17 cm recorded on Tanega-shima. It was followed 28 hours later by a second Ms6.6 earthquake nearer southern Kyushu that produced some damage at Miyazaki and generated another tsunami with wave heights of 110 cm measured at Miyazaki. 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 96 OCT 17 708 1.34 38 46.51 122 45.18 1.20 13 .02 .2 .5 GEY 1.6 96 OCT 17 735 54.48 39 37.54 123 22.87 8.14 15 .05 .2 .4 MAA 1.8 96 OCT 17 847 24.79 38 47.89 122 47.87 1.09 7 .03 .3 .5 GEY 1.3 96 OCT 17 855 53.01 37 39.30 118 54.34 6.14 16 .06 .5 .4 DOM 1.4 96 OCT 17 933 21.24 38 21.82 122 10.71 1.44 10 1 .13 .4 1.9 GVL # 1.2 96 OCT 17 1138 18.75 38 49.62 122 47.96 3.84 7 .02 .4 .9 GEY 1.0 96 OCT 17 1305 7.33 37 28.40 118 49.52 1.38 19 .08 .5 7.1 MOR # 1.3 96 OCT 17 1326 47.72 38 49.20 122 48.02 3.75 14 .04 .2 .8 GEY 1.4 96 OCT 17 1444 15.04 40 32.09 124 12.56 32.03 12 1 .06 .7 1.0 EUR 2.0 96 OCT 17 1629 30.88 37 55.92 118 35.69 9.87 27 .08 1.1 1.5 MOL 2.6 96 OCT 17 1959 15.71 37 11.98 121 35.95 3.80 9 .02 .3 2.5 SFL 1.4 96 OCT 17 2021 10.56 38 49.60 122 48.26 3.67 13 .05 .3 .6 GEY 1.5 96 OCT 17 2051 57.46 36 34.69 121 10.40 5.49 26 1 .03 .2 .4 PIN 1.7 96 OCT 17 2059 31.69 37 54.44 118 9.00 6.33 20 1 .07 2.0 7.7 NEV - 1.9 96 OCT 17 2111 1.68 37 55.01 118 9.85 2.43 7 2 .04 2.5 4.4 NEV # 1.4 96 OCT 17 2146 48.56 39 38.71 120 4.04 0.35 15 1 .29 1.9 4.3 WAK 2.2 96 OCT 17 2149 54.55 37 56.07 118 37.03 10.13 7 .01 .6 2.3 MOL 1.8 96 OCT 17 2225 5.03 37 37.64 118 57.91 8.55 10 .07 .6 1.3 SMO 1.4 96 OCT 17 2235 29.98 39 41.41 123 24.86 6.03 12 .03 .2 .6 MAA 1.8 96 OCT 17 2243 33.19 38 46.90 122 46.59 2.10 7 .24 .8 2.1 GEY 1.2 96 OCT 17 2258 4.82 37 37.53 118 58.15 8.58 12 .07 .5 1.0 SMO 1.3 96 OCT 18 29 54.73 37 28.71 118 49.01 9.63 23 .08 .4 .8 MOR 1.4 96 OCT 18 120 47.00 36 24.78 120 58.99 5.29 41 1 .08 .2 .5 BIT 2.0 96 OCT 18 150 35.66 37 27.14 118 36.61 11.45 20 .06 .3 1.0 RVL 1.4 96 OCT 18 214 50.00 37 22.59 121 44.29 6.45 9 1 .05 .4 1.1 ALU 1.0 96 OCT 18 520 13.28 38 34.97 122 41.34 6.51 13 1 .04 .3 .6 NAP 1.3 96 OCT 18 706 43.84 37 37.92 118 58.12 8.09 20 .04 .3 .6 SMO 1.6 96 OCT 18 709 3.81 37 37.42 118 57.54 6.97 8 .04 .5 1.2 SMO 1.0 96 OCT 18 734 17.45 38 48.24 122 48.96 4.28 18 .03 .2 .4 GEY 1.6 96 OCT 18 824 12.37 35 58.36 120 31.52 7.66 27 3 .07 .4 .3 MID 1.8 96 OCT 18 831 38.80 37 34.76 118 49.03 5.88 13 .04 .3 .6 MOR 1.1 96 OCT 18 954 5.55 36 6.38 120 19.38 5.65 12 .05 .4 1.8 COA 1.4 96 OCT 18 1257 55.51 36 29.99 121 4.29 4.45 20 .06 .3 .4 BIT 1.5 96 OCT 18 1401 52.61 38 47.97 122 47.22 0.66 8 .10 .4 .7 GEY 1.5 96 OCT 18 1500 45.22 36 12.09 121 48.59 5.90 13 .05 1.7 .3 SUR 1.7 96 OCT 18 1515 14.58 36 58.73 120 16.89 7.62 10 .04 .5 1.3 JQN 2.1 96 OCT 18 1631 54.79 36 59.15 121 38.56 2.43 13 .19 1.210.1 SAR # .9 96 OCT 18 1858 20.79 35 58.39 120 31.39 7.82 10 .03 .7 .7 MID 1.3 96 OCT 18 1901 5.83 35 59.40 120 31.85 10.66 42 3 .05 .2 .2 MID 2.0 96 OCT 18 2009 8.23 38 47.99 122 48.70 2.12 19 .03 .2 .3 GEY 1.9 96 OCT 18 2011 35.32 37 37.32 119 22.95 15.26 40 1 .15 .4 1.4 KAI 3.1 96 OCT 18 2135 48.35 37 30.93 118 48.51 6.70 16 .07 .3 .5 MOR 1.4 96 OCT 18 2140 53.92 38 48.75 122 48.29 3.58 9 .02 .3 .6 GEY 1.2 96 OCT 18 2223 23.21 41 17.83 124 34.79 18.81 12 2 .03 1.0 .9 DEL 2.7 96 OCT 18 2358 16.52 36 51.67 121 35.69 7.26 28 .10 .3 .4 SJB 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 96 OCT 19 0 3.16 36 32.22 121 7.19 2.41 26 1 .06 .2 .5 PIN 1.7 96 OCT 19 14 7.13 37 28.84 118 48.67 8.13 26 .07 .3 .6 MOR 1.5 96 OCT 19 224 33.21 37 30.77 118 48.57 7.21 27 .05 .3 .5 MOR 2.0 96 OCT 19 356 1.79 36 39.85 121 17.29 2.88 12 1 .08 .3 .9 STN 1.1 96 OCT 19 432 38.78 37 17.23 121 39.51 6.40 24 1 .06 .2 .7 SFL 1.3 96 OCT 19 527 14.51 37 22.83 120 3.47 26.68 7 3 .04 .7 1.4 KAI 1.7 96 OCT 19 718 16.28 38 47.34 122 45.53 1.51 8 .03 .3 .8 GEY 1.2 96 OCT 19 718 29.58 36 48.36 121 12.54 6.83 21 .06 .3 .9 PAN 1.3 96 OCT 19 802 38.25 40 45.41 124 29.35 18.87 22 2 .09 .8 .7 EUR 2.8 96 OCT 19 855 28.21 38 43.96 122 26.22 0.07 11 .06 .4 2.0 GVL 1.6 96 OCT 19 1208 44.18 38 47.80 122 48.53 4.27 7 .02 .4 .7 GEY 1.3 96 OCT 19 1217 15.17 38 49.22 122 48.77 1.94 32 .06 .2 .4 GEY 3.5 96 OCT 19 1219 7.04 38 48.78 122 49.40 0.13 8 .03 .3 .9 GEY 1.8 96 OCT 19 1219 30.96 38 49.11 122 49.10 1.18 19 .05 .2 .6 GEY 1.9 96 OCT 19 1221 20.26 38 48.98 122 47.49 0.08 8 .44 1.310.3 GEY # 1.6 96 OCT 19 1225 25.17 38 49.50 122 48.87 0.24 10 .08 .3 1.0 GEY 1.6 96 OCT 19 1233 7.24 38 48.53 122 48.68 1.18 7 .03 .3 .4 GEY 1.4 96 OCT 19 1253 38.20 36 33.07 121 8.58 2.05 11 .04 .3 .6 PIN 1.1 96 OCT 19 1329 58.73 37 30.66 118 48.55 7.23 14 1 .03 .3 .5 MOR 1.3 96 OCT 19 2110 1.87 37 8.91 121 32.43 8.43 12 .03 .3 .8 CYN 1.2 96 OCT 19 2319 41.67 37 36.94 118 51.02 7.18 11 .06 .4 .7 SMO 1.4 96 OCT 20 2 25.54 38 48.26 122 48.85 4.32 8 .02 .4 .8 GEY 1.4 96 OCT 20 9 56.52 37 36.14 118 48.96 11.34 9 .03 .5 .9 HCF 1.1 96 OCT 20 32 1.40 37 25.22 118 48.64 1.98 8 .06 1.5 8.5 SIL - 1.1 96 OCT 20 300 36.08 36 34.14 121 6.81 2.30 28 1 .13 .2 .7 BVL 1.9 96 OCT 20 309 7.02 36 34.28 121 6.93 2.71 28 .13 .3 .9 BVL 2.1 96 OCT 20 321 0.55 36 59.94 121 28.02 5.01 28 .05 .2 .4 CYS 1.3 96 OCT 20 536 49.82 37 30.40 118 48.54 8.73 8 .02 .9 .6 MOR 1.2 96 OCT 20 704 21.76 36 32.11 121 7.01 3.22 36 .07 .2 .5 PIN 2.3 96 OCT 20 810 35.25 36 6.28 120 19.27 9.93 22 .07 .4 1.0 COA 1.8 96 OCT 20 1043 16.71 36 58.87 121 38.18 3.39 33 .09 .2 .6 SAR 1.5 96 OCT 20 1124 28.52 38 43.87 119 39.02 5.59 21 1 .03 .4 2.0 WAK 2.4 96 OCT 20 1132 56.85 38 48.07 122 48.82 4.08 7 .02 .4 .7 GEY 1.2 96 OCT 20 1138 19.67 38 42.29 119 40.68 5.10 7 .02 2.7 7.2 WAK - 2.0 96 OCT 20 1404 17.25 39 41.43 123 24.99 5.52 11 .03 .3 .6 MAA 1.4 96 OCT 20 1437 26.88 38 49.42 122 47.66 4.15 16 .05 .3 .5 GEY 1.5 96 OCT 20 1634 37.97 36 44.83 121 25.38 6.96 19 1 .18 .5 .6 SJB 1.2 96 OCT 20 1647 59.11 39 15.16 123 13.48 6.54 10 3 .03 .5 1.2 MAA 1.3 96 OCT 20 1829 41.43 36 34.07 121 9.70 2.78 12 .05 .2 .4 PIN 1.1 96 OCT 20 1918 10.55 40 20.08 124 26.07 13.65 8 1 .06 2.0 1.4 MEN 1.7 96 OCT 20 1934 2.34 37 10.84 121 34.99 3.18 71 1 .07 .1 .3 CYN 2.3 96 OCT 20 1945 37.09 39 57.38 122 56.93 0.16 35 2 .40 .6 2.5 SAC # 2.7 96 OCT 20 2255 58.67 41 10.78 125 16.18 5.23 15 .07 1.9 9.7 PON - 2.8 96 OCT 21 24 14.69 36 33.05 121 8.32 5.37 19 .06 .3 .7 PIN 1.4 96 OCT 21 511 9.03 36 38.65 121 15.93 7.12 11 1 .03 .4 .8 STN .9 --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 96 OCT 21 523 3.80 40 18.75 124 35.44 20.26 22 1 .11 1.5 .4 MEN 2.5 96 OCT 21 602 35.87 39 1.22 123 29.02 0.03 14 4 .19 .4 2.4 PAR## 1.7 96 OCT 21 1007 59.35 38 49.41 122 48.38 4.44 7 .03 .4 .8 GEY 1.0 96 OCT 21 1114 4.49 38 47.00 122 46.46 2.12 8 .01 .2 .6 GEY 1.2 96 OCT 21 1146 37.76 37 45.14 121 55.66 7.53 12 1 .06 .3 1.4 DAN 1.4 96 OCT 21 1149 21.61 36 0.39 120 57.26 10.32 38 2 .09 .2 .5 ROB 1.7 96 OCT 21 1242 24.93 37 45.27 121 55.74 8.02 35 3 .07 .2 .3 DAN 1.6 96 OCT 21 1719 52.90 38 48.34 122 48.85 4.40 8 .03 .4 .9 GEY 1.3 96 OCT 21 1940 47.16 36 26.74 121 1.11 4.52 13 .05 .3 .6 BIT 1.1 96 OCT 21 2023 22.98 37 33.70 118 51.31 9.40 25 .08 .3 .5 MOR 1.8 96 OCT 21 2034 36.24 37 57.55 119 22.40 5.00 7 .2219.620.0 KAI - 2.4 96 OCT 21 2034 38.25 37 58.48 119 22.42 5.00 7 .1313.013.3 KAI - 1.5 96 OCT 21 2059 31.23 36 58.01 121 27.16 3.55 57 1 .13 .2 .4 CYS 2.4 96 OCT 21 2111 3.95 36 21.67 120 56.01 7.34 30 .08 .2 .5 BIT 2.1 96 OCT 21 2126 34.29 39 32.43 122 58.98 10.50 16 2 .07 .5 .4 BAR 1.6 96 OCT 21 2219 6.91 37 36.50 118 27.89 6.14 8 .02 .4 1.3 CHV 1.5 96 OCT 21 2326 42.82 37 29.53 118 52.13 7.84 20 .08 .4 .6 MOR 1.2 96 OCT 22 110 19.98 36 13.19 121 45.31 3.39 15 1 .04 .9 .6 SUR 1.4 96 OCT 22 110 20.06 36 13.63 121 44.65 2.24 18 1 .04 1.0 1.2 SUR 1.4 96 OCT 22 119 42.29 36 13.02 121 46.52 4.39 19 1 .09 1.3 .5 SUR 1.5 96 OCT 22 229 7.72 36 11.53 121 49.58 5.17 15 .07 2.5 .5 SUR 1.4 96 OCT 22 236 0.58 38 49.57 122 46.88 2.83 8 .04 .3 .8 GEY 1.2 96 OCT 22 353 17.96 38 48.84 119 43.08 5.15 32 1 .12 .4 1.6 WAK 2.6 96 OCT 22 359 18.88 39 29.39 121 59.63 12.52 15 4 .08 .6 2.3 SAC 1.7 96 OCT 22 449 13.66 37 17.67 120 3.01 22.26 7 3 .08 .7 1.4 KAI # 1.6 96 OCT 22 523 16.48 36 14.90 121 44.81 0.74 22 2 .05 .6 1.3 SUR 1.5 96 OCT 22 646 29.14 36 13.29 121 46.17 4.08 31 1 .08 .8 .4 SUR 1.9 96 OCT 22 912 13.24 36 12.88 121 45.89 4.27 20 1 .04 .8 .4 SUR 1.5 96 OCT 22 948 30.77 36 49.29 121 17.40 7.85 10 .04 .4 .9 QUI 1.0 96 OCT 22 1015 56.85 38 47.40 122 46.09 0.02 37 .29 .3 1.0 GEY## 2.5 96 OCT 22 1016 21.55 38 47.15 122 46.07 0.02 11 .07 .2 1.1 GEY # 1.2 96 OCT 22 1024 56.65 39 56.84 122 56.83 0.05 27 .26 .4 3.3 SAC # 2.5 96 OCT 22 1042 11.71 36 12.99 121 46.82 4.46 34 1 .09 .6 .2 SUR 1.9 96 OCT 22 1132 15.85 38 48.14 122 46.27 1.59 9 .05 .3 .6 GEY 1.3 96 OCT 22 1137 38.92 37 28.33 118 49.71 2.51 24 .08 .4 2.3 MOR 1.5 96 OCT 22 1208 4.67 38 48.59 122 47.90 3.96 11 .03 .3 .6 GEY 1.4 96 OCT 22 1430 33.03 36 28.08 121 2.28 5.23 23 .06 .3 .6 BIT 1.4 96 OCT 22 1631 17.05 38 47.29 122 45.49 1.60 8 .01 .3 .8 GEY 1.5 96 OCT 22 1908 1.24 37 34.79 121 57.40 9.87 27 4 .06 .2 .3 HAY 1.2 96 OCT 22 2035 20.22 37 24.77 118 32.84 14.67 17 .04 .6 1.4 CHA 1.8 96 OCT 22 2202 9.28 37 20.78 121 42.66 7.54 48 .04 .1 .3 ALU 1.6 96 OCT 22 2218 5.01 37 20.71 121 42.69 6.48 14 .04 .3 1.2 ALU 1.1 96 OCT 22 2229 49.99 38 47.69 122 48.55 4.22 20 .03 .2 .4 GEY 1.9 96 OCT 22 2250 18.37 36 14.93 120 48.77 5.85 11 1 .07 .4 .6 BIT 1.2 96 OCT 22 2356 25.20 35 43.19 119 9.91 29.60 17 .19 .5 2.0 BAK 2.5 --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 96 OCT 22 2359 6.09 37 32.09 118 52.53 6.98 19 .10 .3 .6 MOR 1.6 96 OCT 23 109 23.25 36 39.85 121 9.77 7.10 16 .06 .3 .5 BVL 1.2 96 OCT 23 418 38.76 38 48.53 122 48.97 1.67 7 .05 .3 .5 GEY 1.2 96 OCT 23 449 5.66 37 32.72 118 51.81 6.77 29 .08 .3 .5 MOR 1.8 96 OCT 23 546 42.02 39 32.50 123 20.72 11.74 11 2 .07 .3 1.2 MAA 1.3 96 OCT 23 629 47.11 38 51.47 122 50.95 2.60 21 .07 .2 1.9 GEY 2.1 96 OCT 23 1241 10.77 36 51.55 121 35.63 7.70 72 2 .13 .1 .3 SJB 2.9 96 OCT 23 1244 55.31 36 51.72 121 35.95 6.35 26 .14 .3 .5 SJB 1.4 96 OCT 23 1321 6.35 38 42.92 119 37.94 4.96 19 4 .06 1.0 3.8 WAK 2.4 96 OCT 23 1322 23.80 38 47.70 122 48.43 4.61 11 .03 .3 .6 GEY 1.4 96 OCT 23 1518 20.88 38 49.47 122 47.85 3.65 9 .04 .3 .8 GEY 1.4 96 OCT 23 1657 3.68 36 53.67 121 29.77 5.33 7 .06 .7 .9 BUS 1.1 96 OCT 23 2333 48.43 37 32.19 118 49.56 5.85 12 .03 .6 .6 MOR 1.5 96 OCT 23 2336 54.77 39 1.76 122 37.67 2.50 8 .46 1.529.1 BAR - 1.5 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 ----------------------------------------------------------------------------- OCT 13 011905.1 24.981N 128.059E 33N 4.7 1.0 28 SOUTHEAST OF RYUKYU ISLANDS 020425.5% 32.939S 70.262W 105G 0.2 11 CHILE-ARGENTINA BORDER. MD 4.0 020444.4* 7.272S 155.263E 33N 4.3 0.9 17 SOLOMON ISLANDS 032019.1 30.887N 138.577E 395 4.3 0.9 25 SOUTH OF HONSHU, JAPAN 032126.8? 5.52 N 126.09 E 33N 4.2 1.8 12 MINDANAO, PHILIPPINE ISLANDS 055903.2? 34.35 N 32.54 E 33N 4.2 1.0 14 CYPRUS REGION 070352.2* 19.211S 175.800W 200G 4.6 0.9 27 TONGA ISLANDS 073506.0* 12.836N 40.565E 33N 4.4 4.3 1.1 25 ETHIOPIA 094032.0* 8.849S 113.827E 33N 4.4 1.0 8 JAWA, INDONESIA 094505.3? 7.08 S 155.57 E 33N 4.2 1.7 17 SOLOMON ISLANDS 104549.1 9.846N 126.322E 33N 4.9 0.9 40 MINDANAO, PHILIPPINE ISLANDS 111243.2* 5.348S 146.764E 33N 4.6 1.2 13 EASTERN NEW GUINEA REG., P.N.G. 132408.8? 7.26 S 155.49 E 33N 4.1 1.4 11 SOLOMON ISLANDS 142128.3* 10.335S 124.037E 33N 3.4 1.1 7 TIMOR REGION, INDONESIA 143657.5* 24.997N 94.733E 33N 5.1 0.8 8 MYANMAR-INDIA BORDER 143936.3* 6.104N 124.529E 33N 4.5 1.0 19 MINDANAO, PHILIPPINE ISLANDS 154051.4* 17.593S 175.078W 206* 4.5 0.6 25 TONGA ISLANDS 161701.5 9.609N 126.403E 33N 4.7 1.0 40 MINDANAO, PHILIPPINE ISLANDS 171029.0 36.133N 139.221E 103 4.4 0.7 31 EASTERN HONSHU, JAPAN 231855.6? 7.41 S 155.53 E 33N 4.1 0.8 10 SOLOMON ISLANDS OCT 14 000757.7 7.217S 155.486E 33N 5.3 5.8 1.2 55 SOLOMON ISLANDS 002041.9* 7.197S 155.383E 33N 4.6 1.2 20 SOLOMON ISLANDS 014247.0 4.371S 127.214E 33N 4.6 1.0 24 BANDA SEA 015410.2? 25.94 N 142.10 E 50? 4.7 0.3 8 VOLCANO ISLANDS REGION 030537.7* 7.142S 155.447E 33N 4.7 1.0 20 SOLOMON ISLANDS 070134.0 17.975S 178.570W 598* 4.8 0.7 50 FIJI ISLANDS REGION 114247.9* 54.305N 157.449E 33N 4.7 1.1 17 KAMCHATKA 115226.4* 34.687N 32.120E 33N 4.3 1.0 18 CYPRUS REGION 122415.9 38.637N 69.791E 33N 4.7 0.6 19 TAJIKISTAN 141211.9* 7.011S 155.303E 33N 4.5 1.1 20 SOLOMON ISLANDS 144912.5* 29.959N 88.206E 33N 4.9 1.3 18 XIZANG 172330.4? 13.83 S 167.48 E 33N 4.6 0.8 12 VANUATU ISLANDS 173851.8* 5.261S 146.293E 33N 4.0 1.1 9 EASTERN NEW GUINEA REG., P.N.G. 185216.1* 26.567N 142.263E 33N 4.6 0.9 19 BONIN ISLANDS REGION 205957.4* 64.039N 21.238W 10G 4.3 3.3 1.6 21 ICELAND 211113.7? 24.44 S 179.80 W 500G 4.6 1.0 22 SOUTH OF FIJI ISLANDS OCT 15 003535.3* 21.144N 121.374E 70G 4.4 1.1 14 TAIWAN REGION 020424.8* 36.809N 21.559E 33N 4.3 1.1 14 SOUTHERN GREECE 031050.4? 54.01 S 7.76 E 10G 4.0 0.6 5 BOUVET ISLAND REGION 035525.0* 2.026S 127.754E 33N 4.3 1.1 5 CERAM SEA 053207.8 81.370N 119.240E 10G 4.7 0.8 26 EAST OF SEVERNAYA ZEMLYA, RUSSIA 062656.3? 27.86 N 139.94 E 511* 4.3 1.0 11 BONIN ISLANDS REGION 080256.9 3.020N 96.223E 33N 5.2 4.5 1.0 70 NORTHERN SUMATERA, INDONESIA 083255.4 34.399N 32.103E 33N 4.4 1.1 43 CYPRUS REGION. ML 4.3 (JER). 083452.1 34.447N 32.075E 33N 4.3 1.1 35 CYPRUS REGION. ML 4.1 (JER). 100659.7 44.793N 10.713E 10G 1.4 47 NORTHERN ITALY. ML 4.3 101015.0 44.862N 10.684E 10G 0.6 19 NORTHERN ITALY. ML 3.6 101942.9 44.672N 10.737E 10G 3.8 1.4 85 NORTHERN ITALY. ML 4.4 110942.3% 33.863S 69.836W 5G 0.3 11 CHILE-ARGENTINA BORDER. MD 3.1 112234.2 44.872N 10.707E 10G 0.6 19 NORTHERN ITALY. ML 3.3 121823.5 44.738N 10.717E 10G 4.5 1.6 80 NORTHERN ITALY. ML 4.5 125150.1 44.811N 10.616E 10G 1.0 45 NORTHERN ITALY. ML 4.0 144714.6 44.821N 10.549E 10G 1.1 25 NORTHERN ITALY. ML 3.7 145811.9* 7.172S 155.667E 33N 4.4 1.2 17 SOLOMON ISLANDS 150651.4 2.662N 128.611E 258* 4.7 1.0 24 HALMAHERA, INDONESIA 160142.4* 20.751N 121.279E 33N 4.6 1.4 13 PHILIPPINE ISLANDS REGION 163242.8 9.222N 126.071E 33N 5.0 1.0 39 MINDANAO, PHILIPPINE ISLANDS 172957.4 12.513N 142.702E 134* 5.1 0.9 43 SOUTH OF MARIANA ISLANDS 175354.2 60.084N 149.904W 50 0.7 74 KENAI PENINSULA, ALASKA. ML 3.2 182432.3* 7.187S 155.689E 33N 4.5 1.0 19 SOLOMON ISLANDS 192958.3* 0.171S 126.357E 33N 4.8 1.1 13 SOUTHERN MOLUCCA SEA 195549.6 31.578N 139.755E 185 4.3 0.9 24 SOUTH OF HONSHU, JAPAN 200232.6* 34.725N 32.424E 33N 3.5 1.1 10 CYPRUS REGION 202007.8 51.725N 179.500W 79* 4.6 1.1 25 ANDREANOF ISLANDS, ALEUTIAN IS. 204310.0* 43.664N 11.968E 5G 3.7 1.2 23 CENTRAL ITALY. ML 3.2 211017.8 44.755N 10.634E 10G 1.3 37 NORTHERN ITALY. ML 3.4 OCT 16 002430.1 44.815N 10.712E 10G 1.3 50 NORTHERN ITALY. ML 4.3 (VIE). 011905.7* 19.553S 169.329E 33N 5.3 5.2 0.9 27 VANUATU ISLANDS 032837.5* 28.703N 129.483E 46* 4.0 1.1 17 RYUKYU ISLANDS 043035.3 44.908N 10.708E 10G 1.2 29 NORTHERN ITALY. ML 3.9 (VIE). 043350.9 64.211N 137.134W 10G 4.5 0.9 96 SOUTHERN YUKON TERRITORY, CANADA. Felt at Dawson. 084211.6* 13.859N 91.975W 33N 4.9 4.7 1.1 51 NEAR COAST OF GUATEMALA 093218.8* 34.645N 32.087E 33N 3.9 0.6 13 CYPRUS REGION 094249.1* 12.722N 40.480E 10G 4.3 4.6 1.1 25 ETHIOPIA 104000.9 44.793N 10.736E 10G 1.3 52 NORTHERN ITALY. ML 4.2 (VIE). 114753.4 9.557N 126.423E 33N 5.1 1.1 39 MINDANAO, PHILIPPINE ISLANDS 143532.7* 6.820S 129.704E 172* 4.3 1.5 20 BANDA SEA 144101.8? 44.78 N 110.93 W 10G 0.9 8 YELLOWSTONE AREA, WYOMING. ML 3.0 151300.2* 34.507N 32.414E 33N 4.4 1.2 22 CYPRUS REGION 160235.1* 30.166N 138.911E 432* 4.4 0.2 10 SOUTH OF HONSHU, JAPAN 183045.6 12.701N 40.542E 10G 4.8 0.7 21 ETHIOPIA 190850.9? 44.66 N 10.73 E 10G 1.1 14 NORTHERN ITALY. ML 3.5 (VIE). 191519.1* 26.555N 130.109E 40D 3.9 1.7 18 SOUTHEAST OF RYUKYU ISLANDS 231857.8* 12.735N 40.695E 10G 3.9 0.9 11 ETHIOPIA OCT 17 020832.6* 44.785N 111.290W 10G 0.5 11 HEBGEN LAKE REGION. ML 3.4 022643.5? 44.51 N 10.75 E 10G 1.0 17 NORTHERN ITALY. ML 3.6 (VIE). 031908.5 35.406N 117.733W 5G 1.3 47 CENTRAL CALIFORNIA. ML 3.3 (GS). 080033.9 31.862N 115.631W 5G 1.4 24 BAJA CALIFORNIA, MEXICO. ML 3.8 084128.1 34.447N 32.184E 33N 4.7 0.8 28 CYPRUS REGION. ML 4.8 (JER). 114325.7 39.571N 76.066W 5G 1.6 5 CHESAPEAKE BAY REGION. MD 2.5 (GS). Felt in Cecil and Hartford counties, Maryland. Also felt in Chester County, Pennsylvania. 132453.5* 35.786N 4.790W 100? 0.8 16 STRAIT OF GIBRALTAR. MD 3.3 135149.5* 16.743N 98.726W 33N 4.6 0.8 24 NEAR COAST OF GUERRERO, MEXICO 153819.1 60.248N 153.107W 125D 5.3 1.1 162 SOUTHERN ALASKA. Mw 5.4. Felt at Anchorage, Butte, Homer, Kasilof, Kenai, Ninilchik, Seward and Soldotna. 154738.1 37.536N 116.525W 5G 1.5 28 SOUTHERN NEVADA. ML 3.7 (GS). 161526.0 5.640N 125.998E 122D 5.6 1.4 61 MINDANAO, PHILIPPINE ISLANDS. 170155.8 60.134N 152.875W 136 4.5 1.0 42 SOUTHERN ALASKA OCT 18 050401.1 6.023S 148.647E 33N 5.4 0.9 28 NEW BRITAIN REGION, P.N.G. 092604.0* 27.896N 57.679E 33N 5.5 5.0 1.1 78 SOUTHERN IRAN. Mw 5.3 105021.0 30.522N 131.123E 10G 5.9 6.6 1.3 128 KYUSHU, JAPAN. Mw 6.8 (GS) Felt (IV JMA) in eastern Kagoshima Prefecture; (III JMA) in the Miyazaki and western Kagoshima Prefectures. Also felt (III JMA) on Tanega-shima. Local tsunami generated with wave heights up to 17 cm recorded on Tanega-shima. 111211.6 30.450N 131.401E 33N 4.6 0.6 17 KYUSHU, JAPAN 111918.4* 0.390N 126.616E 33N 5.8 6.3 0.6 14 NORTHERN MOLUCCA SEA 134104.6* 32.048S 69.713W 121D 5.2 0.7 33 MENDOZA PROVINCE, ARGENTINA 152657.5? 52.84 S 21.80 E 10G 5.2 4.6 1.0 8 SOUTH OF AFRICA 164447.2 33.707N 137.352E 330 5.6 0.8 109 NEAR S. COAST OF HONSHU, JAPAN. 234910.7* 61.591N 146.358W 45G 4.6 1.3 12 SOUTHERN ALASKA. Felt from Valdez and Cordova to Anchorage, Palmer and Wasilla. OCT 19 050326.5 30.366N 131.353E 53* 4.8 0.4 9 KYUSHU, JAPAN 074454.2& 52.214N 115.215W 0G 3.9 14 ALBERTA, CANADA. . mbLg 3.8 (PGC), 3.8 (GS). Felt (IV-V) near the Strachan gas plant. 074629.1& 52.136N 115.172W 0G 2 ALBERTA, CANADA. . mbLg 3.6 (PGC). Felt near the Strachan gas plant. 083149.9* 31.841N 131.707E 33N 5.4 5.0 1.2 38 KYUSHU, JAPAN. Mw 5.8 (HRV). 121715.6 38.813N 122.807W 5G 0.8 24 NORTHERN CALIFORNIA. ML 3.0 132758.4 43.085N 106.159W 5G 0.9 10 WYOMING. ML 4.2 (GS). Felt at Casper. Also felt lightly at Sinclair. 140104.1 31.912N 131.631E 33N 5.6 1.1 70 KYUSHU, JAPAN. Mw 5.7 Felt at Miyazaki. 144442.5 31.939N 131.478E 33N 6.4 6.6 1.0 112 KYUSHU, JAPAN. Mw 7.0 Some damage (V JMA) at Miyazaki. Felt (IV JMA) at Kumamoto, Kurume and Oita. A 1.1 meters tsunami was recorded at Miyazaki. 145348.6 20.352S 178.592W 584D 6.1 0.9 101 FIJI ISLANDS REGION. Mw 6.8 210857.8* 17.225N 92.117W 33N 4.4 0.4 8 CHIAPAS, MEXICO 211748.6* 31.758N 131.641E 33N 5.2 1.3 27 KYUSHU, JAPAN OCT 20 001731.9 34.623N 116.235W 5G 1.0 47 SOUTHERN CALIFORNIA. ML 4.0 045102.6* 53.489N 170.964W 200G 4.6 1.4 31 FOX ISLANDS, ALEUTIAN ISLANDS OCT 21 060049.3 34.461N 32.447E 33N 5.0 1.6 54 CYPRUS REGION 135139.5 42.549N 109.270W 5G 0.7 10 WYOMING. ML 3.7 (GS). OCT 22 064810.7* 36.666N 21.457E 33N 4.8 1.2 25 SOUTHERN GREECE 131106.8 51.867N 175.260W 100D 4.8 1.4 21 ANDREANOF ISLANDS, ALEUTIAN IS. 221502.7 63.408N 145.478W 10G 5.7 5.5 0.9 81 CENTRAL ALASKA. Mw 5.9. Felt strongly in much of central Alaska. Also felt in western Yukon Territory, Canada. Note: Computer users can get faster access to the Weekly Seismicity Reports in any of three ways: 1. World-Wide-Web (WWW) access: http://quake.wr.usgs.gov 2. Anonymous FTP access: quake.wr.usgs.gov (in pub/www/QUAKES/WEEKREPS) 3. Email Access: (send email to michael@andreas.wr.usgs.gov) Notes for Table 1: 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.
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Subject: World USGS Quake Map 10/17-23/96
From: michael@garlock.wr.usgs.gov (Andy Michael)
Date: Fri, 25 Oct 1996 00:43:08 GMT

Thu Oct 24 18:02:05 PDT 1996 The most recent version of this plot can be found here on the WWW This map is associated with the USGS weekly seismicity report for Northern California, the US, and the World. Disclaimers in that report apply to this map. The format is GIF (GIF 87a, I believe) converted to ascii by uuencode. For more info contact michael@andreas.wr.usgs.gov. DO NOT SEND EMAIL TO weekly@garlock.wr.usgs.gov It will not be read. 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