💾 Archived View for federal.cx › earthquake.gmi captured on 2023-04-26 at 13:30:22. Gemini links have been rewritten to link to archived content
⬅️ Previous capture (2023-04-19)
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Earthquake Magnitude Scale Magnitude Earthquake Effects Number/year(est.) 2.5 or less Usually not felt, but can be recorded by seismograph. 900,000 2.5 to 5.4 Often felt, but only causes minor damage. 30,000 5.5 to 6.0 Slight damage to buildings and other structures. 500 6.1 to 6.9 May cause a lot of damage in very populated areas. 100 7.0 to 7.9 Major earthquake. Serious damage. 20 8.0 or greater Great earthquake. Total destruction near epicenter. One every 5 to 10 years Earthquake Magnitude Classes Earthquakes are also classified in categories ranging from minor to great. Class Magnitude Great 8 or more Major 7 - 7.9 Strong 6 - 6.9 Moderate 5 - 5.9 Light 4 - 4.9 Minor 3 - 3.9
(GMT, m > 1.7, 60sec)
04/26 17:13:17 1.88md 5 km S of Pāhala, Hawaii (19.1578 -155.4842)
04/26 16:47:10 1.92ml 10 km WSW of Volcano, Hawaii (19.4012 -155.3253)
04/26 16:35:36 1.76ml 14 km S of Fern Forest, Hawaii (19.3330 -155.1183)
04/26 16:34:42 1.90ml 46 km ENE of Chenega, Alaska (60.2914 -147.2974)
04/26 16:25:46 1.94md 4 km SSE of Pāhala, Hawaii (19.1678 -155.4647)
04/26 15:45:19 2.10ml 32 km WNW of Nanwalek, Alaska (59.4151 -152.4832)
04/26 15:42:27 1.76ml 6 km WSW of Volcano, Hawaii (19.4127 -155.2818)
04/26 15:41:46 5.00mb 293 km ENE of Kuril’sk, Russia (45.8094 151.5482)
04/26 15:33:38 1.73ml 7 km SW of Volcano, Hawaii (19.4028 -155.2875)
04/26 15:09:44 1.75ml 18km SW of Ludlow, CA (34.6060 -116.2955)
04/26 14:46:02 3.20ml 11 km SE of Pāhala, Hawaii (19.1205 -155.4090)
04/26 14:39:16 1.75md 27 km WNW of Volcano, Hawaii (19.4962 -155.4852)
04/26 14:31:41 1.90ml 55 km NW of Yakutat, Alaska (59.9395 -140.3356)
04/26 14:27:42 3.00ml 59 km S of Whites City, New Mexico (31.6436 -104.3841)
04/26 14:13:39 2.64ml 27 km W of Volcano, Hawaii (19.4822 -155.4888)
04/26 13:38:57 2.13md 11 km ENE of Pāhala, Hawaii (19.2247 -155.3750)
04/26 13:31:16 1.80ml 58 km WNW of Nanwalek, Alaska (59.5586 -152.8705)
04/26 13:27:05 3.11ml 25 km W of Volcano, Hawaii (19.4857 -155.4705)
04/26 12:44:15 1.80ml 36 km W of Valdez, Alaska (61.1857 -147.0116)
04/26 12:32:53 3.40md Mona Passage (18.4823 -67.9055)
04/26 12:06:25 4.60mb 32 km ENE of Luganville, Vanuatu (-15.4520 167.4604)
04/26 12:03:23 1.90ml 27 km SSE of Nelchina, Alaska (61.7563 -146.6335)
04/26 12:01:37 2.13md 11km E of Gilroy, CA (37.0015 -121.4493)
04/26 12:00:19 1.98md 11 km ENE of Pāhala, Hawaii (19.2582 -155.3832)
04/26 11:57:12 1.82md 5 km SW of Volcano, Hawaii (19.4058 -155.2717)
04/26 11:43:45 1.89md 5 km NNE of Pāhala, Hawaii (19.2495 -155.4532)
04/26 11:42:46 2.10ml 3 km SSE of Central, Alaska (65.5436 -144.7857)
04/26 10:58:02 2.38ml 11 km SE of Pāhala, Hawaii (19.1345 -155.3907)
04/26 10:54:21 4.80mb 45 km W of Port-Olry, Vanuatu (-14.9747 166.6526)
04/26 10:21:02 2.00ml 68 km N of Aleneva, Alaska (58.6705 -152.8040)
04/26 10:12:17 2.06md 3 km SE of Volcano, Hawaii (19.4202 -155.2140)
04/26 10:08:03 1.86ml 11 km ESE of Scipio, Utah (39.1967 -111.9910)
04/26 09:28:19 1.99md 9 km ENE of Pāhala, Hawaii (19.2508 -155.4015)
04/26 09:26:09 3.50ml 60 km SSW of Tanana, Alaska (64.6509 -152.4595)
04/26 09:25:40 3.30ml 56 km SSW of Tanana, Alaska (64.6927 -152.4538)
04/26 09:13:05 2.23md 4 km ESE of La Parguera, Puerto Rico (17.9588 -67.0078)
04/26 08:58:08 1.78ml 9 km ENE of Pāhala, Hawaii (19.2347 -155.3958)
04/26 08:53:27 2.58ml 24 km WNW of Volcano, Hawaii (19.4938 -155.4645)
04/26 08:34:34 1.83ml 4 km SW of Volcano, Hawaii (19.4105 -155.2620)
04/26 08:15:08 1.96ml 16km NNW of Westmorland, CA (33.1703 -115.6933)
04/26 07:34:33 3.10ml 16km E of Seven Trees, CA (37.2868 -121.6577)
04/26 07:34:00 2.50ml 54 km S of Whites City, New Mexico (31.6842 -104.3977)
04/26 07:27:15 3.10ml 54 km S of Whites City, New Mexico (31.6828 -104.3950)
04/26 07:26:57 2.80ml 55 km S of Whites City, New Mexico (31.6759 -104.4062)
04/26 07:20:27 1.81ml Island of Hawaii, Hawaii (19.4018 -155.3327)
04/26 07:17:50 1.99ml 10 km WSW of Volcano, Hawaii (19.4053 -155.3252)
04/26 06:47:17 3.10ml 79 km ENE of Kodiak, Alaska (57.9825 -151.1093)
04/26 06:46:58 3.56mlr 12km NNE of Banning, CA (34.0288 -116.8457)
04/26 06:46:43 1.80ml 36 km S of Eureka Roadhouse, Alaska (61.6167 -147.0481)
04/26 06:45:41 2.29ml 9 km E of Pāhala, Hawaii (19.1987 -155.3853)
04/26 06:42:43 1.80ml 16 km ENE of Pāhala, Hawaii (19.2812 -155.3438)
04/26 06:34:03 4.60mb 115 km WNW of Meulaboh, Indonesia (4.4992 95.1465)
04/26 05:52:21 4.60mb Catamarca, Argentina (-27.8922 -66.7192)
04/26 05:48:50 2.30ml 26 km E of Sterling, Alaska (60.5388 -150.2909)
04/26 05:42:13 2.91md 29 km NNW of Charlotte Amalie, U.S. Virgin Islands (18.5935 -65.0310)
04/26 05:21:33 2.15ml 5 km SW of Volcano, Hawaii (19.4103 -155.2745)
04/26 05:12:44 2.30ml 54 km NE of Chignik, Alaska (56.6649 -157.8339)
04/26 04:38:53 2.48md 12km SE of Talmage, CA (39.0542 -123.0657)
04/26 04:20:26 4.50mb Guam region (13.9721 145.1109)
04/26 04:02:23 1.90ml 88 km NW of Karluk, Alaska (58.1853 -155.4028)
04/26 03:32:09 2.14ml 10 km WSW of Volcano, Hawaii (19.4082 -155.3270)
04/26 03:22:34 1.87ml 4 km SE of Volcano, Hawaii (19.4162 -155.2040)
04/26 03:06:19 2.54ml 9 km ENE of Pāhala, Hawaii (19.2483 -155.3992)
04/26 02:34:36 1.75ml 10km E of Santa Clarita, CA (34.4108 -118.3958)
04/26 02:23:47 2.38ml 9 km ENE of Pāhala, Hawaii (19.2410 -155.3983)
04/26 02:04:27 1.80ml 75 km E of Nikolai, Alaska (63.0415 -152.8870)
04/26 01:49:35 2.41md 38km WSW of Navarro Head, CA (39.0945 -124.1813)
04/26 01:29:17 1.80ml 64 km W of Karluk, Alaska (57.6512 -155.5286)
04/26 01:18:53 5.00mb Bougainville region, Papua New Guinea (-6.6486 155.5569)
04/26 00:37:04 2.29md 6 km S of Indios, Puerto Rico (17.9375 -66.8305)
04/26 00:36:30 2.32md 6 km SSW of Indios, Puerto Rico (17.9352 -66.8317)
04/26 00:25:37 3.61md 27 km SSW of Boca de Yuma, Dominican Republic (18.1571 -68.7246)
04/26 00:19:09 4.50mb 52 km SE of Angoram, Papua New Guinea (-4.3875 144.4054)
04/26 00:14:01 5.70mww Mid-Indian Ridge (-9.0508 67.2739)
04/25 23:50:36 2.90ml 52 km S of Whites City, New Mexico (31.7086 -104.4849)
04/25 23:31:42 1.85md 12 km ESE of Pāhala, Hawaii (19.1597 -155.3708)
04/25 23:05:45 3.90mb Andreanof Islands, Aleutian Islands, Alaska (51.3685 -176.9360)
04/25 22:19:03 5.20mb North Island of New Zealand (-40.2370 176.4869)
04/25 22:16:15 5.40mww 45 km ESE of Dannevirke, New Zealand (-40.3083 176.6162)
04/25 22:14:08 4.00mb 12 km ESE of Ekinözü, Turkey (38.0301 37.3200)
04/25 21:39:08 1.79ml 70 km NNE of Chignik, Alaska (56.9048 -158.0777)
04/25 21:30:27 3.08ml 14 km S of Fern Forest, Hawaii (19.3350 -155.1308)
04/25 21:07:00 4.80mb South Sandwich Islands region (-58.7646 -25.1739)
04/25 20:47:59 4.10mb 53 km E of Palca, Peru (-17.7024 -69.4657)
04/25 19:54:41 2.98ml 10 km WSW of Volcano, Hawaii (19.4098 -155.3247)
04/25 19:10:15 1.76md 6 km SE of Marston, Missouri (36.4790 -89.5565)
04/25 19:02:00 1.71ml 5 km E of Butte, Montana (46.0057 -112.4655)
04/25 18:55:47 4.70mb Near the south coast of Papua, Indonesia (-4.0453 134.0713)
04/25 18:45:56 2.05md 5 km WSW of Guánica, Puerto Rico (17.9470 -66.9502)
04/25 18:39:28 1.76md 5km ENE of Bonadelle Ranchos-Madera Ranchos, CA (37.0010 -119.8183)
04/25 18:00:00 2.60ml 45 km NNW of Valdez, Alaska (61.5241 -146.5828)
04/25 17:49:35 4.50mb near the east coast of Honshu, Japan (37.7082 141.8009)
04/25 17:41:27 4.10mb 107 km SSW of Żurrieq, Malta (34.8934 14.1796)
04/25 17:40:14 3.80mb 31 km E of Atka, Alaska (52.1805 -173.7468)
The magnitude reported is that which the U.S. Geological Survey considers official for this earthquake, and was the best available estimate of the earthquake's size, at the time that this page was created. Other magnitudes associated with web pages linked from here are those determined at various times following the earthquake with different types of seismic data. Although they are legitimate estimates of magnitude, the U.S. Geological Survey does not consider them to be the preferred "official" magnitude for the event.
Earthquake magnitude is a measure of the size of an earthquake at its source. It is a logarithmic measure. At the same distance from the earthquake, the amplitude of the seismic waves from which the magnitude is determined are approximately 10 times as large during a magnitude 5 earthquake as during a magnitude 4 earthquake. The total amount of energy released by the earthquake usually goes up by a larger factor: for many commonly used magnitude types, the total energy of an average earthquake goes up by a factor of approximately 32 for each unit increase in magnitude.
There are various ways that magnitude may be calculated from seismograms. Different methods are effective for different sizes of earthquakes and different distances between the earthquake source and the recording station. The various magnitude types are generally defined so as to yield magnitude values that agree to within a few-tenths of a magnitude-unit for earthquakes in a middle range of recorded-earthquake sizes, but the various magnitude-types may have values that differ by more than a magnitude-unit for very large and very small earthquakes as well as for some specific classes of seismic source. This is because earthquakes are commonly complex events that release energy over a wide range of frequencies and at varying amounts as the faulting or rupture process occurs. The various types of magnitude measure different aspects of the seismic radiation (e.g., low-frequency energy vs. high-frequency energy). The relationship among values of different magnitude types that are assigned to a particular seismic event may enable the seismologist to better understand the processes at the focus of the seismic event. The various magnitude-types are not all available at the same time for a particular earthquake.
Preliminary magnitudes based on incomplete but rapidly-available data are sometimes estimated and reported. For example, the Tsunami Warning Centers will calculate a preliminary magnitude and location for an event as soon as sufficient data are available to make an estimate. In this case, time is of the essence in order to broadcast a warning if tsunami waves are likely to be generated by the event. Such preliminary magnitudes are superseded by improved estimates of magnitude as more data become available.
For large earthquakes of the present era, the magnitude that is ultimately selected as the preferred magnitude for reporting to the public is commonly a moment magnitude that is based on the scalar seismic-moment of an earthquake determined by calculation of the seismic moment-tensor that best accounts for the character of the seismic waves generated by the earthquake. The scalar seismic-moment, a parameter of the seismic moment-tensor, can also be estimated via the multiplicative product rigidity of faulted rock x area of fault rupture x average fault displacement during the earthquake.
Magnitude Type, Magnitude Range, Distance Range, Equation
Mww (Moment W-phase)(generic notation Mw) ~5.0 and larger 1 - 90 degrees MW = 2/3 * (log10(MO) - 16.1),where MO is the seismic moment.
Note this is also unit-dependent; the formula above is for moment in dyne-cm. If using metric units (N.m), the constant is 9.1. Derived from a centroid moment tensor inversion of the W-phase (~50-2000 s; pass band based on size of EQ). Computed for all M5.0 or larger earthquakes worldwide, but generally robust for all M5.5 worldwide. Provides consistent results to M~4.5 within a regional network of high-quality broadband stations. Authoritative USGS magnitude if computed.
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Mwc (centroid) ~5.5 and larger 20 - 180 degrees MW = 2/3 * (log10(MO) - 16.1), where MO is the seismic moment.
Derived from a centroid moment tensor inversion of the long-period surface waves (~100-2000 s; pass band based on size of EQ). Generally computable for all M6.0 worldwide using primarily the Global Seismograph Network. Only authoritative if Mww is not computed, not published otherwise.
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Mwb (body wave) ~5.5 to ~7.0 30 - 90 degrees MW = 2/3 * (log10(MO) - 16.1), where MO is the seismic moment.
Derived from moment tensor inversion of long-period (~20-200 s; pass band based on size of EQ) body-waves (P- and SH). Generally computable for all M5.5 or larger events worldwide. Source complexity at larger magnitudes (~M7.5 or greater) generally limits applicability. Only authoritative if Mww and Mwc are not computed.
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Mwr (regional) ~4.0 to ~6.5 0 - 10 degrees MW = 2/3 * (log10(MO) - 16.1), where MO is the seismic moment.
Based on the scalar seismic-moment of the earthquake, derived from moment tensor inversion of the whole seismogram at regional distances (~10-100 s; pass band based on size of EQ). Source complexity and dimensions at larger magnitudes (~M7.0 or greater) generally limits applicability. Authoritative for <M5.0. Within the continental US and south-central Alaska where we have a large number of high quality broadband stations we expect we can compute an Mwr consistently for events as small as M4.0. In some areas of the country, with relatively dense broadband coverage, we can compute Mwr consistently to as small as M3.5.
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Ms20 or Ms (20sec surface wave) ~5.0 to ~8.5 20 - 160 degrees MS = log10 (A/T) 1.66 log10 (D) 3.30 .i
A magnitude based on the amplitude of Rayleigh surface waves measured at a period near 20 sec. Waveforms are shaped to the WWSSN LP response. Reported by NEIC, but rarely used as authoritative, since at these magnitudes there is almost always an Mw available. Ms is primarily valuable for large (>6), shallow events, providing secondary confirmation on their size. Ms_20 tends to saturate at about M8.3 or larger.
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mb (short-period body wave) ~4.0 to ~6.5 15 - 100 degrees mb = log10(A/T) Q(D,h) ,where A is the amplitude of ground motion (in microns); T is the corresponding period (in seconds); and Q(D,h) is a correction factor that is a function of distance, D(degrees), between epicenter and station and focal depth, h (in kilometers), of the earthquake.
Based on the amplitude of 1st arriving P-waves at periods of about 1 s. Waveforms are shaped to the WWSSN SP response. Reported for most M4.0-4.5 to 6.5 EQs that are observed teleseismically. Only authoritative for global seismicity for which there is no Mww, Mwc, Mwb or Mwr, typically 4.0-5.5 range. Mb tends to saturate at about M 6.5 or larger.
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Mfa (felt-area magnitude) any any various
An estimate of body-wave (mb) magnitude based on the size of the area over which the earthquake was felt, typically assigned to widely felt earthquakes that occurred before the invention of seismographs and to earthquakes occurring in the early decades of seismograph deployment for which magnitudes calculated from seismographic data are not available. The computations are based on isoseismal maps or defined felt areas using various intensity-magnitude or felt area-magnitude formulas. Reference: Seismicity of the United States, 1568-1989 (Revised), by Carl W. Stover and Jerry L. Coffman, U.S. Geological Survey Professional Paper 1527, United States Government Printing Office, Washington: 1993.
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ML Ml, or ml (local) ~2.0 to ~6.5 0 - 600 km
The original magnitude relationship defined by Richter and Gutenberg in 1935 for local earthquakes. It is based on the maximum amplitude of a seismogram recorded on a Wood-Anderson torsion seismograph. Although these instruments are no longer widely in use, ML values are calculated using modern instrumentation with appropriate adjustments. Reported by NEIC for all earthquakes in the US and Canada. Only authoritative for smaller events, typically M<4.0 for which there is no mb or moment magnitude. In the central and eastern United States, NEIC also computes ML, but restricts the distance range to 0-150 km. In that area it is only authoritative if there is no mb_Lg as well as no mb or moment magnitude.
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mb_Lg, mb_lg, or MLg (short-period surface wave) ~3.5 to ~7.0 150-1110 km (10 degres)
A magnitude for regional earthquakes based on the amplitude of the Lg surface waves as recorded on short-period instruments. Only authoritative for smaller events in the central and eastern United States, typically <4.0 for which there is no mb or moment magnitude.
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Md or md (duration) ~4 or smaller 0 - 400 km
Based on the duration of shaking as measured by the time decay of the amplitude of the seismogram. Sometimes the only magnitude available for very small events, but often used (especially in the past) to compute magnitude from seismograms with "clipped" waveforms due to limited dynamic recording range of analog instrumentation, which makes it impossible to measure peak amplitudes. Computed by NEIC but only published when there is no other magnitude available.
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Mi or Mwp (integrated p-wave) ~5.0 to ~8.0 all
Based on an estimate of moment calculated from the integral of the displacement of the P wave recorded on broadband instruments.
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Me (energy) ~3.5 and larger all Me = 2/3 log10E - 2.9,where E is the energy calculated by log10E = 11.8 1.5MS where energy, E, is expressed in ergs.
Based on the seismic energy radiated by the earthquake as estimated by integration of digital waveforms.
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Mh any any N/A
Non-standard magnitude method. Generally used when standard methods will not work. Sometimes use as a temporary designation until the magnitude is finalized.
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Finite Fault Modeling ~7.0 and larger 30 - 90 degrees
FFM modeling provides a kinematic description of faulting including estimates of maximum slip, area of rupture and moment release as a function of time. Results are used to provide constraints on fault dimensions and slip used in damage assessment modeling (ShakeMap, PAGER) and to model stress changes (Coulomb stress modeling) on the active fault and/or adjacent faults.
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Mint (intensity magnitude) any any various
A magnitude estimated from the maximum reported intensity, typically for earthquakes occurring before seismic instruments were in general use. This has been used for events where the felt reports were from too few places to use a magnitude determined from a felt area. Reference: Catalog of Hawaiian earthquakes, 1823-1959, by Fred W. Klein and Thomas L. Wright U.S. Geological Survey Professional Paper 1623, USGS Information Services, Denver: 2000.
