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GeoSeismic Labs Reports: July Edition

All information reported here is based upon data collection and analysis using procedures that are considered "experimental" and might be of a shocking nature to some individuals. Read and use at your own risk!

GSL's Reports have Been Viewed [Picture]  Times Since May 11, 2005





MT ULF Updates: San Jacinto Fault Mojave Desert Block Warnings & Other Advisories

Updated July 21, 2005: Late Breaking News and Links

MT. Saint Helens Eruption Update

The Latest Sumatra, Indonesia Earthquake Update

The Latest Earthquake Prediction & Forecasting Methods

Recent Acoustic Emission Spectrogram

Gulf of California M5.7 Magneto-Telluric Precursor

North American Volcanic Unrest and Eruption Updates

Predicted Times for Spring Tides during the Month of July 2005

Please Make a Small Contribution to the Lab





Cascadia Subduction Zone

Mount St. Helens Volcano Eruption Update:

U.S. Geological Survey, Vancouver, Washington
University of Washington, Pacific Northwest Seismograph Network, Seattle, Washington

Mount St. Helens Volcano, July 31, 2005 10:00 a.m. PDT (1700 UTC)

Current status is Volcano Advisory (Alert Level 2); aviation color code ORANGE


The Latest Eruption Update for the Unrest at Mt. Saint Helens, WA

Definition of Alert Levels

Mount St. Helens Satellite Imagery

For additional information, background, images, and other graphics, please visit:

Pacific Northwest Seismic Network

Tsunami history of an Oregon coastal lake

Caution: You may need to refresh the displayed page in order to view the latest live Volcano-Webcam.

Graphic: Mt. Saint Helens Webcam
Graphic: Popocatepetl Volcano  Webcam
Graphic: Major Volcanoes of Gorda Ridge


Links to Phenomena Associated with Earthquakes
&
Super-Volcanoes Worldwide

Los Padres Forest On Hot-Ground: News Report: KRON TV San Francisco, CA USA

Triggered Earthquakes: University of Edinburgh, Scotland

Earthquake Prediction: Great Britain

Volcano Hell: BBC2 Video Clips

Geologists Warn of SuperVolcano Threat: Great Britain

Magnetic Reversals on Earth-Possible Implications: Austria

Icelandic water making waves in seismology: Iceland

Earthquakes—Rattling the Earth’s Plumbing System: USA

Earthquake Lights: Kobe Earthquake in Japan 1995: Japan

Unlocking the mystery of 'Earthquake Clouds'

Novel Mobile and Portable Methods for Detecting Rock Failure: Great Britain

Amatuer Seismic Centre: India

Recently Reviewed Infrasonic Spectrograms Associated with Deep
Crustal Resonant Harmonic Frequency Activity along
the Pacific and North American Plate Boundary

Graphic:(AE)Infrasonic Spectrogram Infrasonic harmonic pulsations and spectrum content, detected
from the Pacific & North American Plate Boundary in Southern California
- GeoSeismic Labs 2005.

View Other Recently Reviewed Acoustic Emission Spectrograms




The Great Sumatra Earthquake and Tsunami
December 26, 2004 (Updated 05/09/2005)

Rupture Area Map
Sumatra Earthquake Global Displacement Wavefield
Graphic: Tsunami's Global Map

Mw 8.9 earthquake in Sumatra on December 26th, 2004 at 00:58 UTC

The Great Earthquake and Tsunami of 26 December 2004 in Southeast Asia

Preliminary report of numerical computation of tsunamis
generated by the December 26, 2004
Off Sumatra Island Earthquake, Indonesia


India’s last active volcano erupts in Andaman Islands

Info about Barren 1 Active Volcano in Andaman Islands, India

The Indian Ocean Tsunami

The Latest Official Information on Active Volcanoes in Sumatra, Indonesia

The Tsunami Page: Tsunamis of the 21st Century

Quake may be 'imminent' warns tsunami expert

Tsunamis and Earthquakes: What Physics is Interesting?

Volcanic Cone Collapses and Tsunamis

  • An unstable volcano is a potential source for a Tsunami.

  • Weakened and fractured material may give way and cause a collapse.

  • The most common cause is intrusion of magma, which causes a detachment.

  • Injection of magma into the interior of the volcano causes the volcanic cones to inflate, and the magma pushes out part of the volcano. Magma filling steep faults and fractures can provide a lubricated surface along which collapse may take place. The pore pressure within a volcano may increase owing to the presence of intruding magma, the volcano being squeezed by geological (tectonic) stresses; extra water within the volcano caused by increased rainfall, or a change in the local drainage system.

  • Earthquakes that "shake" the volcano.

  • Weakening of the volcano caused by heat and hot fluids in the interior of the volcano that alter hard volcanic rocks into soft clay.

  • Slippage along the surface on which the volcano is built, caused by a low-angle fault or lubricants such as clays or injected magma.

  • The volcano becomes too steep and high, regular volcanic eruptions pile more and more volcanic materials onto the upper slopes of the volcano which then is susceptible to collapse through gravity.

    Historical Cone Collapses in the Southwest Pacific

    Ritter (PNG) 1888. Major cone collapse without signs of volcanic eruptions
    led to the formation of a Tsunami 12 to 15 meters high on nearby islands. An early missionary
    map shows the positions of villages in western New Britain that no longer exist. Several
    hundred people were probably killed.

    Ambae (Vanuatu) 1913. A lateral collapse after a large earthquake generated a landslide that
    Caused possibly about 50 deaths.

    White Island (New Zealand) 1914. This volcano located 48 kilometers offshore from the
    North Island has a horse-shoe shaped crater just above sea-level. Part of the crater rim
    collapsed along a fault on or about September 10th and fell to the crater floor. There were 11
    fatalities. No Tsunamis were reported.

    Ruapehu (New Zealand) 1953. The upper portion of Ruapehu's crater wall failed on Christmas
    Eve releasing more than 1 million cubic meters of Crater Lake waters. The collapse was
    relatively small but resulted in a devastating lahar that swept away a railway bridge as the
    main Wellington-Auckland express train was crossing and 151 lives were lost in what has
    become known as the Tangwai Disaster.

    Tinakula (Solomon Islands) 1966. A landslide of unknown cause slipped into the sea from
    the high wall of an ancient avalance amphitheater. There may have been a Tsunami but no
    lives were lost.

    Lopevi (Vanuatu) 1975. A landslide associated with a lava flow from the summit crater
    plunged into the sea. No Tsunami was recorded but the residents have now been permanently evacuated.

    - Australian Geological Survey, Geological Survey of Papua New Guinea

    Mt. Ruapehu-Crater-Lake (Fact Sheet)

    Early Warnings When the Volcano Starts to Slip

    Cumbre Vieja Volcano - Potential Collapse and Tsunami at La Palma, Canary Islands

    MAR-2005: Bulletin of the Global Volcanism Network

    (WOVO) World Organization of Volcano Observatories

    Maps of Volcanoes located within the North American Continent

    Map of North American Volcanoes

    Map of Aleutian Volcanoes

    Map of Nevada Volcanoes

    Map of Volcanic Hazard Zones for California

    Major Volcanoes of Mexico

    General Location Map of the Long Valley area, California

    Eastern California Shear Zone
    CA/NV Border/Eastern Sierras/Yellowstone/Cascades
    Tectonic and Volcanic Activity

    Mount St. Helens Erupts Again: Activity from September 2004 through March 2005

    An Assessment of Volcanic Threat and Monitoring Capabilities in the U.S.:
    Framework for a National Volcano Early Warning System


    Birth of a Fault: Kern County to Walker Pass

    Probing Volcanoes: USGS Public Lecture in Multimedia .wmv (12/4/2004)

    Yellowstone Supervolcano: Transcript

    The 1700 Seattle SuperQuake & Japanese Tsunami: Nature

    How Volcanoes Work

    Yellowstone Swarm Report: 2004

    Volcanoes of Canada

    The Long Valley Caldera: White Mountains Region

    Living With a Restless Caldera:Long Valley, California

    Future Eruptions in California's Long Valley Area--What's Likely

    Adobe Hills Volcanic Field

    Summary of Holocene eruptive activity and probable greatest hazards from future eruptions at volcanic centers in California

    Eruptions from the Inyo chain about 600 Years ago: sequence of events and effects in the Long Valley Area

    Long Valley Tilt Meters

    Photo Gallery of the Long Valley area, California

    ERS radar interferometry reveals strain transient in the Eastern California Shear Zone

    Lithospheric Dynamics and Continental Deformation

    USGS California Tiled 2 Degree Maps

    USGS California Quarternary Fault and Fold Database Maps

    Earthquake Prediction & Forecasting Techniques

    USGS 24 hour Seismic Forecast

    Predicting an Earthquake

    Earthquake Prediction

    Earthquake Prediction: Some Basic Principles

    Earthquake Prediction: Predicting the Unpredictable?

    Time-Dependent Viscoelastic Stress Transfer and Earthquake Triggering

    Inferring Viscous Properties of the Lithosphere

    Potential Sources for Earthquakes in Northern California

    Pulling the Rug Out from Under California

    Giant Earthquakes Beneath Canada's West Coast

    The role of stress transfer in earthquake occurrence

    The San Andreas Fault System: General Information, Data, Maps, Charts and Graphics

    Foreshocks & Aftershocks of the Great 1857 Fort Tejon, CA Earthquake

    The Great 1857 Fort Tejon Earthquake: Shake, Rattle & Roll

    Quakes Along Central San Andreas Fault Peak Every Three-Years

    Volcanoes and the San Andreas Fault

    The San Andreas Fault system through the Transverse Ranges as illuminated by earthquakes

    Deep Tremors Along the San Andreas Fault

    Aftershocks of the 1952 Tehachapi Earthquake

    Mantle Downwelling Beneath the Transverse Range


    Graphic: Map of the San Andreas Fault, California Graphic: Map: 1998 Southern California Deformation Graphic: Diagonal Map of the San Andreas Fault, So. California

    San Jacinto Fault Zone Advisories
    &
    MT ULF Updates
    Released by
    GeoSeismic Labs of California


    (View MT ULF REPORTS published in October 2004)



    (View MT ULF REPORTS published in November 2004)



    (View MT ULF REPORTS published in December 2004)



    (View MT ULF REPORTS published in January 2005)



    (View MT ULF REPORTS published in February 2005)



    (View MT ULF REPORTS published in March 2005)



    (View MT ULF REPORTS published in April 2005)



    (View MT ULF REPORTS published in May 2005)



    (View MT ULF REPORTS published in June 2005)



    (View a previously Published MT ULF REPORT



    (View the Currently Published MT ULF REPORT



    MT ULF UPDATE: July 1, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was strong infrasonic harmonic resonant activity below 2 Hz on Friday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 1.13 Hz (-69.00 dBv). The spectral line at 0.94 Hz was measured at (-72.50 dBv). The ULF and MT activity level was moderate to high during the past 24 hours. The inferred mean average unclamping level was lower. The ULF mean average was decreased (negative). The MT peak reading was measured at 10.4 units of regional lithospheric stress. The MT mean average was measured at 8.2 units. There were two periods with strong piezomagnetic activity. There were no detected ULF suppression incidents. Late in the period, I detected a strong infrasonic pulsation one hour prior to a strong M6.7 earthquake epicentered in Nicaragua, Central America.

    2 JUL 2005  (183)
    
         ot  = 02:16:46.73   +/-   0.26              NEAR COAST OF NICARAGUA         
         lat =      11.178   +/-    4.1
         lon =     -86.401   +/-    4.1              MAGNITUDE 6.7 (GS)       
         dep =        45.5  (depth phases)
    
         70 km (40 miles) WSW of Rivas, Nicaragua (pop 20,000)
         95 km (60 miles) SSW of Granada, Nicaragua (pop 71,000)
         100 km (65 miles) S of MANAGUA, Nicaragua (pop 864,000)
         1650 km (1020 miles) ESE of MEXICO CITY, D.F., Mexico
    

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Upper level Infrasonic resonant harmonic activity (5 Hz) was extremely active during the past 24 hours. The strong infrasonic resonant harmonic frequency appears to be associated with deep crustal stress in Baja California, Mexico, and further north into Southern California. I observed a strong MT pulsation during a micro quake epicentered near Idyllwild, CA. Later on, a large negative going ULF signal burst was observed that appears to be associated with nucleation of deep crustal stress coming from out of the San Jacinto fault zone near Lake Hemet which stepped over the Elsinore fault zone near Lake Elsinore and into the Newport-Inglewood fault zone in Long Beach, CA. Next I observed a strong single infrasonic pulsation, which is inferred to be associated with increasing deep crustal stress stepping over from the San Jacinto and ELsinore faults zones, respectively. Late in the period, I detected a number of strong infrasonic resonant harmonics from along the pacific & North American Plate Boundary in Southern California.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    01-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    01-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    01-JUL-2005 15:00 - 18:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    01-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    01-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    02-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 2, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was moderate infrasonic harmonic resonant activity below 2 Hz on Saturday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 1.07 Hz (-68.89 dBv). The ULF and MT activity level was moderate to high during the past 24 hours. The inferred mean average unclamping level was largely increased. The ULF mean average was decreased (negative). The MT peak reading measured 11.4 units of regional lithospheric stress. The MT mean average was measured at 8.3 units.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Upper level Infrasonic resonant harmonic activity (5 Hz) was extremely active again during the past 24 hours. The strong infrasonic resonant harmonic frequency appears to be associated with deep crustal stress in Baja California, Mexico, and California. I observed a sharp strong MT pulsation which was associated with a micro quake epicentered near Cloverdale, in Northern California. So, that appears to be an indication where crustal stress has nucleated since the recent earthquakes epicentered near the Geysers and further north to Ferndale and Petrolia, CA. There was a period with detected strong unclamping from along the plate boundary in Southern California.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    02-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    02-JUL-2005 12:00 - 15:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    02-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    02-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    03-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 3, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was moderate infrasonic harmonic resonant activity below 2 Hz on Sunday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 1.78 Hz (-71.85 dBv). The spectral line at 0.94 Hz was measured at (-72.56 dBv). The ULF and MT activity level was moderate to high during the past 24 hours. The inferred mean average unclamping level was decreased. The ULF mean average was increased (positive). The MT peak reading measured 9.9 units of regional lithospheric stress. The MT mean average was measured at 8.4 units. There were no detected ULF suppression incidents. There was a period with moderate unclamping (dilatancy).

    M3.2 2005/07/03 13:16:32 32.365 -115.096 27.9 8 km ( 5 mi) N of Guadalupe Victoria, Mexico

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Upper level Infrasonic resonant harmonic activity (5 Hz) was active again during the past 24 hours. The strong infrasonic resonant harmonic frequency appears to be associated with deep crustal stress along the Pacific & North American Plate Boundary in Baja California, Mexico, and California. There was increased MT and ULF activity associated with the San Jacinto Fault zone near Anza, and Idyllwild, CA. There was a period with detected moderate unclamping from along the plate boundary in Southern California.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    03-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    03-JUL-2005 03:00 - 06:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    03-JUL-2005 09:00 - 12:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    03-JUL-2005 12:00 - 15:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    03-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    03-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    04-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram

    hr>

    MT ULF UPDATE: July 4, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was strong infrasonic harmonic resonant activity below 2 Hz on Monday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.78 Hz (-66.73 dBv). An earlier peak was observed at 0.91 Hz (-67.96 dBv). The ULF and MT activity level was moderate during the past 24 hours. The inferred mean average unclamping level was greatly increased. The ULF mean average was slightly decreased (negative). The MT peak reading measured 9.6 units of regional lithospheric stress. The MT mean average measured 8.3 units. There were no detected ULF suppression incidents. There was a period with severe unclamping (dilatancy).

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Upper level Infrasonic resonant harmonic activity (5 Hz) seems to have finally ended. Strong infrasonic resonant harmonic activity which was observed during late afternoon into early evening hours, is inferred to be associated with a period of observed unclamping along the San Andreas fault zone and the Pacific & North American Plate Boundary, at the Cajon Pass, in Southern California. The decompression is inferred to be associated with a significant amount of slip that gets transfered to the San Jacinto fault zone which acts as a pore pressure relief valve for the plate boundary. High pore pressure fluids act like a shock absorber, and easily flow from regions of high pressure(compression) to regions of low pressure(dilatancy). Since early July 2004, the transmission characteristics of distant seismic waves detected by the lab's seismograph have reflected the shock absorber theory, and were the first sign that trouble was on the horizon. Simultaneously some municipal water aquifers rapidly dropped in level, and Phelan and Wrightwood were forced to truck in water from an outside source. The record winter rains and spring snow melt were then able to replenish what was initially absorbed by the plate boundary. When you have normal fault stress approaching that of hydrostatic, the asperities (future epicenters) become nearly frictionless, and stress will nucleate onto any adjacent secondary faults, which include the San Jacinto, Helendale, Pipes Canyon, and Pinto Mountain faults. The San Gorgonio knot, is coming untied near Yucaipa, CA. That's the main reason why the San Jacinto fault at the Anza Seismic Gap is now under high crustal stress, and rapidly approaching its next rupture. So, the main areas to monitor are Morongo Valley, Cabazon, Banning, Yucaipa, Idyllwild, Anza, Beaumont, Loma Linda, San Bernardino, Colton, Rialto, Fontana, Lytle Creek, Devore, and Wrightwood, CA with an emphasis on the Cajon Pass. Alternatively, At the west end of the big bend is located another asperity near Frazier Park, which is the point where crustal stress out of the ECSZ moving along the Western Garlock fault zone on its way towards the Central California coast near San Simeon ends up nucleating to. The major secondary fault in that region is the Big Pine fault, which is inferred to be the Pacific Plate side of the Garlock Fault. The recently detected periods with strong upper level infrasonic resonant harmonics at close to 5 Hz is inferred to be the main signal for the ECSZ where the new plate boundary is in formation, which will some day extend north across the Garlock fault from east of Barstow, CA and into the Owens Valley, where it will eventually merge with the Walker Lane and meet with the Mendocino-Triple-Junction.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    04-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    04-JUL-2005 12:00 - 15:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    04-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    04-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    05-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram

    hr>

    MT ULF UPDATE: July 5, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was moderate infrasonic harmonic resonant activity below 2 Hz on Tuesday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 1.39 Hz (-70.23 dBv). The ULF and MT activity level was low to moderate during the past 24 hours. The inferred mean average unclamping level was greatly increased. The ULF mean average was slightly decreased (negative). The MT peak reading measured 9.9 units of regional lithospheric stress. The MT mean average measured 8.6 units. There were no detected ULF suppression incidents. There was a period with severe unclamping (dilatancy).

    M3.3 2005/07/06 19:46:33 32.003 -115.754 9.9 66 km ( 41 mi) N of Lázaro Cárdenas, Mexico

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    There was no strong infrasonic resonant harmonic activity observed today. Severe unclamping was observed beginning at 0900 UTC which lasted until 15:00 UTC. This brings up the average level of unclamping to about 40 units on the chart, and 32 is the average during the past 6 months. That's a good indication that the region adjacent to the plate boundary at the Cajon Pass can expect to soon see increased seismic activity, similar to what happened during the last severe period of unclamping incidents During December 2004, and early January 2005. If you all remember, there was a swarm of magnitude 4 range earthquakes all within a few minutes of each other, epicentered in northern Fontana, CA, during the first week of the year. That is definitely something which will need your immediate attention if the unclamping continues, as it did in the past.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    05-JUL-2005 09:00 - 12:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    05-JUL-2005 12:00 - 15:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 6, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was moderate infrasonic harmonic resonant activity below 2 Hz on Wednesday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 1.76 Hz (-72.40 dBv). The ULF and MT activity level was moderate during the past 24 hours. The inferred mean average unclamping level was greatly increased. The ULF mean average was basically unchanged. The MT peak reading measured 9.4 units of regional lithospheric stress. The MT mean average measured 8.5 units. There were no detected ULF suppression incidents. There was a period with severe unclamping (dilatancy). There was strong upper level infrasonic resonant harmonic activity at 5 Hz observed today, on the electronic tracking filter.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Severe unclamping was observed again beginning at around 07:40 UTC which lasted until just after 15:00 UTC. This brings up the average level of unclamping to about 48 units on the chart, and 32 is the average during the past 6 months. That's a good indication that the region adjacent to the plate boundary at the Cajon Pass can expect to soon see increased seismic activity, similar to what happened during the last severe period of unclamping incidents During December 2004, and early January 2005. If you all remember, there was a swarm of magnitude 4 range earthquakes all within a few minutes of each other, epicentered in northern Fontana, CA, during the first week of the year. That is definitely something which will need your immediate attention if the unclamping continues, as it did in the past. THe strong upper level infrasonic harmonic at 5 Hz is associated with deep crustal stress nucleation out of the ECSZ, and north into the Southern Owens Valley, and west along the Garlock Fault Zone and the Big Pine fault through the Grapevine at Frazier Park, and into Central California near San Simeon. Severe unclamping appears to be related to the same region as the third strong scalar pulsation, which was inferred to be associated with the Rialto-Colton Fault and the Northern San Jacinto fault zone.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    06-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    06-JUL-2005 06:00 - 09:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    06-JUL-2005 09:00 - 12:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    06-JUL-2005 12:00 - 15:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    06-JUL-2005 15:00 - 18:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    06-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    06-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    06-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 7, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was moderate infrasonic harmonic resonant activity below 2 Hz on Thursday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 1.44 Hz (-70.45 dBv). The ULF and MT activity level was low to moderate during the past 24 hours. The inferred mean average unclamping level was significantly decreased. The ULF mean average was basically unchanged. The MT peak reading measured 9.5 units of regional lithospheric stress. The MT mean average measured 8.4 units. There were no detected ULF suppression incidents. There was a period with severe unclamping (dilatancy). There was notably strong upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter.

    3.0 2005/07/07 14:23:01 36.650 -121.265 3.8 16 km ( 10 mi) SSE of Tres Pinos, CA

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Severe unclamping was observed again beginning at around 10:30 UTC which lasted until just after 15:00 UTC. This brought the average level of unclamping to approximately 39 units on the chart, and 32 was the average during the past 6 months. It's a good indication that the region adjacent to the plate boundary in the Cajon Pass can expect to soon see increased seismicity, similar to what happened during the last long period with severe unclamping incidents during December 2004, and early January 2005, when there was a swarm of magnitude 4 range earthquakes all within a few minutes of each other, epicentered in northern Fontana, CA. The strong upper level infrasonic harmonic activity at 5 Hz is associated with deep crustal stress nucleation out of the ECSZ, and north into the Southern Owens Valley, and west along the Garlock Fault Zone and the Big Pine fault through the Grapevine at Frazier Park, and into Central California near San Simeon. Severe unclamping appears to be related to the same region as the third strong scalar pulsation, which was inferred to be associated with the Rialto-Colton Fault and the Northern San Jacinto fault zone. Other seismic activity was associated with a strong piezomagnetic signal burst which occurred three months ago, near Tres Pinos, CA.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    07-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    07-JUL-2005 09:00 - 12:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    07-JUL-2005 12:00 - 15:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    07-JUL-2005 15:00 - 18:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    07-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    07-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    08-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 8, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was moderate infrasonic harmonic resonant activity below 2 Hz on Friday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 1.58 Hz (-72.27 dBv). The ULF and MT activity level was low during the past 24 hours. The inferred mean average unclamping level was decreased. The ULF mean average was basically unchanged. The MT peak reading measured 9.3 units of regional lithospheric stress. The MT mean average measured 8.4 units. There were no detected ULF suppression incidents. There was a period with severe unclamping (dilatancy). There was notably strong upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Severe unclamping was observed beginning at around 09:00 UTC which lasted for a short period of time and returned stronger just after 12:00 UTC until 15:00 UTC. This brought the average level of unclamping to approximately 38 units on the chart, and 32 was the previous average during the past 6 months. Once again, it appears that the Fontana Trend activity rises with the level of unclamping along the plate boundary, and the region between Lytle Creek and Colton, CA should be watched very carefully to see if the unclamping level to rises above it's current moderately elevated range, just as it did last December 2004, and in early January 2005.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    08-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    08-JUL-2005 09:00 - 12:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    08-JUL-2005 12:00 - 15:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    07-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    07-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 9, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was infrasonic harmonic resonant activity below 2 Hz on Saturday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.94 Hz (-72.94 dBv). The ULF and MT activity level was low during the past 24 hours. The inferred mean average unclamping level was decreased. The ULF mean average was basically unchanged. The MT peak reading measured 9.6 units of regional lithospheric stress. The MT mean average measured 8.3 units. There were no detected ULF suppression incidents. There was a period with severe unclamping (dilatancy). There was a period with strong upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. There were four infrasonic scalar pulsations observed late in the period.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Severe unclamping was observed beginning at around 13:00 UTC which lasted until 15:00 UTC. This brought the average level of unclamping to approximately 34 units on the chart, and 32 was the previous average during the past 6 months. There were a series of four infrasonic scalar pulsations, which appear to be associated with the Cajon Pass region NNE of Wrightwood, CA. I issued a warning for the Inland Empire after observing these strong crustal energy bursts that have preceeded many recent earthquakes, including those near both Yucaipa and Anza, CA. This was preliminarily inferred to be associated with the Cajon Valley fault; an inactive ancient strand of the San Andreas fault's Mojave Segment.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    09-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    09-JUL-2005 12:00 - 15:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    09-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    10-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    10-JUL-2005 03:00 - 06:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 10, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was moderate infrasonic harmonic resonant activity below 2 Hz on Sunday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 1.49 Hz (-70.68 dBv). The ULF and MT activity level was moderate during the past 24 hours. The inferred mean average unclamping level was decreased. The ULF mean average was increased (positive). The MT peak reading measured 9.6 units of regional lithospheric stress. The MT mean average measured 8.4 units. There were no detected ULF suppression incidents. There was a limited period with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. There were two observed high frequnecy ULF signal bursts late in the period.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Severe unclamping was observed beginning at around 13:00 UTC which lasted for a short period of time until 13:30 UTC. This brought the average level of unclamping to approximately 38 units on the chart, and 32 was the previous average during the past 6 months. There were a series of four infrasonic scalar pulsations, which appear to be associated with the Coachella Valley NE of Indio, CA. I issued another warning for that immediate region surrounding after observing these four extremely strong crustal scalar energy bursts that have preceeded many recent earthquakes, including those in offshore Northern California west of Crescent City, Yucaipa, and Anza, CA. This was preliminarily inferred to be associated with the Southern San Andreas Fault Coachella Valley Segment. More details about this incident should be ready by the next report. Simultaneous with these pulsations was also observed two high frequency ULF signal bursts, which are inferred to indicate that stress is nucleating into a more shallow depth of the crust.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    10-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    10-JUL-2005 06:00 - 09:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    10-JUL-2005 12:00 - 15:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    10-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    11-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    11-JUL-2005 03:00 - 06:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 11, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was no moderate infrasonic harmonic resonant activity below 2 Hz on Monday. The ULF and MT activity level was moderate during the past 24 hours. The inferred mean average unclamping level was increased. The ULF mean average was increased (positive). The MT peak reading measured 9.7 units of regional lithospheric stress. The MT mean average measured 8.1 units. There were no detected ULF suppression incidents. There were no detected severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    There was a nine hour long period with detected upper level infrasonic harmonic activity from 18:00 UTC until 03:00 UTC on July 12, 2005. It's inferred that the 5 Hz infrasonic harmonics are related to increased deep crustal stress in the ECSZ/Mojave Desert Block, which now needs to be watched very carefully.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    11-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    11-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    11-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    12-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 12, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was moderate infrasonic harmonic resonant activity below 2 Hz on Tuesday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.14 Hz (-71.46 dBv). The ULF and MT activity level was moderate during the past 24 hours. The inferred mean average unclamping level was increased. The ULF mean average was decreased (negative). The MT peak reading measured 9.0 units of regional lithospheric stress. The MT mean average measured 7.7 units. There were no detected ULF suppression incidents. There was a limited period with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. There were two observed high frequnecy ULF signal bursts late in the period.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Severe unclamping was observed beginning at around 13:00 UTC which lasted for a short period of time until 13:30 UTC. This brought the average level of unclamping to approximately 38 units on the chart, and 32 was the previous average during the past 6 months. There were a series of four infrasonic scalar pulsations, which appear to be associated with the Coachella Valley NE of Indio, CA. I issued another warning for that immediate region surrounding after observing these four extremely strong crustal scalar energy bursts that have preceeded many recent earthquakes, including those in offshore Northern California west of Crescent City, Yucaipa, and Anza, CA. This was preliminarily inferred to be associated with the Southern San Andreas Fault Coachella Valley Segment. More details about this incident should be ready by the next report. Simultaneous with these pulsations was also observed two high frequency ULF signal bursts, which are inferred to indicate that stress is nucleating into a more shallow depth of the crust.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    12-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    12-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 13, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was moderate infrasonic harmonic resonant activity below 2 Hz on Wednesday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.94 Hz (-72.26 dBv). The ULF and MT activity level was moderate during the past 24 hours. The inferred mean average unclamping level was increased. The ULF mean average was decreased (negative). The MT peak reading measured 8.7 units of regional lithospheric stress. The MT mean average measured 7.8 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. There was one observed high frequency ULF signal burst late in the period.

    M3.1 2005/07/14 02:32:01 34.706 -116.061 4.2 9 km ( 6 mi) E of Ludlow, CA
    M3.1 2005/07/14 02:15:23 34.703 -116.061 3.6 9 km ( 6 mi) ESE of Ludlow, CA
    M3.1 2005/07/14 00:09:42 40.413 -125.014 1.3 62 km ( 39 mi) W of Petrolia, CA

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    There were a series of two infrasonic scalar pulsations, which appear to be associated with the Ludlow region of the Mojave Desert Block, and evidentally the offshore region west of Petrolia, in Northern Cslifornia. I issued warning after observing these two strong scalar pulses. extremely strong crustal scalar energy bursts that have preceeded many recent earthquakes, including those in offshore Northern California west of Crescent City, Yucaipa, and Anza, CA. This was preliminarily inferred to be associated with the ECSZ. Simultaneous with these pulsations I observed one high frequency ULF signal burst, which is inferred to indicate that stress is nucleating into a more shallow depth of the crust, and is what happened within a couple of hours in the Ludlow, CA region with at least two small earthquakes being detected prior to 03:00 UTC. In Northern California, Immediately following the two strong ionospheric sheet current induced earth coupled scalar energy pulses there was an offshore seismic event west of Petrolia, CA. The upper level infrasonic harmonic at 5 Hz was kind of erratic in the hours leading up to these latest detected incidents. However, it's soon going to affect the Garlock fault zone and the Grapevine near Tejon Pass as it nucleates west towards the Central California coast at San Simeon, CA and north into the Southern Owens Valley near Olancha, CA. HOwever, as the number of nucleation events rises it begins to also affect faults directly north in the Argus Range, Panamint, and Death Valley region east of the Coso Volcanic Center.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    13-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    13-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    13-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 14, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was moderate infrasonic harmonic resonant activity below 2 Hz on Thursday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 1.58 Hz (-70.69 dBv). The ULF and MT activity level was moderate to high during the past 24 hours. The inferred mean average unclamping level was decreased. The ULF mean average was decreased (negative). The MT peak reading measured 9.4 units of regional lithospheric stress. The MT mean average measured 7.4 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    As a result of the latest in depth analysis, I believe that the ECSZ/Mojave Desert Block is close to having another strong earthquake. With the evidence now pointing towards an earthquake along the West Calico/Pisgah Fault. However, it's also going to affect the Garlock fault zone and the Grapevine near Tejon Pass as crustal stress nucleates west towards the Central California coast at San Simeon, CA and north into the Southern Owens Valley near Olancha, CA. As the number of inferred nucleation events rises, it begins to also affect faults directly north in the Argus Range, Panamint, and Death Valley region east of the Coso Volcanic Center. We are currently undergoing some of the strongest MT and ULF activity to be observed in many years. You are so advised to be prepared for the next strong seismic event, which could be as soon as the next solar induced geomagnetic field changes. The area is extremely unstable at the moment, and subject to rupture beyond that of its recent history. Solar Flare Induced Magnetospheric Influences on the Sub-Ionosphere

    -------------------------------------------------------
    Joint USAF/NOAA Solar and Geophysical Activity Summary
    SGAS Number 196 Issued at 0245Z on 15 Jul 2005
    This report is compiled from data received at SWO on 14 Jul
    A.  Energetic Events
    Begin  Max  End  Rgn   Loc   Xray  Op 245MHz 10cm   Sweep
     0137 0137 0138                       150                           
     0221 0221 0221                       120                           
     0557 0725 0743  0786        M9.1     59     81                     
     0723 0724 0732  0786 N11W73       1n 130    220                    
     1016 1055 1129  0786        X1.2     5400   3400      IV           
     1716 1725 1728  0786        M1.3     820                           
     1732 1733 1733                       110                           
     2250 2257 2302  0786        M1.1     94     100                    
    B.  Proton Events:  A slow, gradual rise in the greater than 10 MeV
    protons began soon after yesterday's M5 event. The 10 pfu alert
    threshold was finally reached at 14/0245Z. A second, larger influx
    of high energy protons followed today's X1 flare. The greater than
    10 MeV proton flux were still slowly increasing at issue time, and
    the peak flux so far is 102 pfu at 14/2355Z.
    C.  Geomagnetic Activity Summary:  The geomagnetic field was quiet to
    active. Solar wind speed remains elevated near 500 km/s, but is
    declining. The most disturbed geomagnetic periods occurred between
    14/0100 - 1300Z when the IMF Bz was predominantly southward.
    D.  Stratwarm:  Not Available
    E.  Daily Indices: (real-time preliminary/estimated values)
    10 cm 090  SSN 061  Afr/Ap 010/011   X-ray Background C1.0
    Daily Proton Fluence (flux accumulation over 24 hrs)
    GT 1 MeV 1.4e+07   GT 10 MeV 2.0e+06 p/(cm2-ster-day)
    (GOES-11 satellite synchronous orbit W115 degrees)
    Daily Electron Fluence
    GT 2 MeV 2.40e+08 e/(cm2-ster-day)
    (GOES-12 satellite synchronous orbit W75 degrees)
    3 Hour K-indices:
    Boulder 2 4 3 2 2 2 2 1 Planetary 2 4 3 3 2 2 1 1 
    F.  Comments:  None
    
    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    14-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    14-JUL-2005 15:00 - 18:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    14-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    14-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    15-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    15-JUL-2005 03:00 - 06:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram

    MT ULF UPDATE: July 15, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was moderate infrasonic harmonic resonant activity below 2 Hz on Friday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.94 Hz (-70.49 dBv). The ULF and MT activity level was moderate to high during the past 24 hours. The inferred mean average unclamping level was increased. The ULF mean average was decreased (negative). The MT peak reading measured 8.7 units of regional lithospheric stress. The MT mean average measured 7.1 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. Twin strong scalar energy pulses were observed late in the period.

    M3.8 2005/07/16 04:58:31 34.844 -116.324 1.9 20 km ( 13 mi) NW of Ludlow, CA
    M3.5 2005/07/16 06:46:09 34.844 -116.323 0.4 20 km ( 13 mi) NW of Ludlow, CA

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    There were two strong infrasonic scalar pulses detected approximately four hours prior to a M3.8 earthquake epicentered 13 miles NW of Ludlow, CA which was added to the short term WARNING list 24 hours ago. This is an example of the kind of accuracy that can be achieved using this excellent method of earthquake prediction. Both timing and location were extremely close to the previously forecasted in depth analysis. Many were expecting an earthquake to the east where the two M3.1's were epicentered. However, the previous days analysis as confirmed in my daily forecast inferred that it was the Pisgah fault which was undergoing high lithospheric stress prior to these two earthquakes, and was the closest to rupture within 24 hours. I'm completely satisified with the results of the short term analysis, which is going to become much more frequent in the near term. Solar Flare Induced Magnetospheric Influences on the Sub-Ionosphere

    Joint USAF/NOAA Solar and Geophysical Activity Summary
    SGAS Number 197 Issued at 0245Z on 16 Jul 2005
    This report is compiled from data received at SWO on 15 Jul
    A.  Energetic Events
    Begin  Max  End  Rgn   Loc   Xray  Op 245MHz 10cm   Sweep
     0704 0704 0704                       300                           
     2010 2325 0005              C7.3            280                    
    B.  Proton Events:  The greater than 10 MeV proton event that began
    on 14/0245Z, had a peak flux of 134 pfu at 15/0345Z. The proton flux
    gradually decreased to near 50 pfu by the end of the period.
    C.  Geomagnetic Activity Summary:  The geomagnetic field was quiet.
    Solar wind speed declined to near 400 km/s.
    D.  Stratwarm:  Not Available
    E.  Daily Indices: (real-time preliminary/estimated values)
    10 cm 087  SSN 038  Afr/Ap 005/006   X-ray Background B5.9
    Daily Proton Fluence (flux accumulation over 24 hrs)
    GT 1 MeV 2.7e+07   GT 10 MeV 7.2e+06 p/(cm2-ster-day)
    (GOES-11 satellite synchronous orbit W115 degrees)
    Daily Electron Fluence
    GT 2 MeV 4.00e+08 e/(cm2-ster-day)
    (GOES-12 satellite synchronous orbit W75 degrees)
    3 Hour K-indices:
    Boulder 0 2 2 1 2 1 2 2 Planetary 1 2 2 1 1 2 2 2 
    F.  Comments:  None
    

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire (01.07.2005/M4.3) of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ (07.15.2005/M3.8) and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    15-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    15-JUL-2005 15:00 - 18:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    15-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    15-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    16-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 16, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was strong infrasonic harmonic resonant activity below 2 Hz on Saturday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.94 Hz (-69.22 dBv). The ULF and MT activity level was moderate to high during the past 24 hours. The inferred mean average unclamping level was decreased. The ULF mean average was decreased (negative). The MT peak reading measured 9.0 units of regional lithospheric stress. The MT mean average measured 7.1 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. The MT standard deviation is now indicating a record high statistical reading at 1.4 units, which is very signficant and a major part of the daily forecast. There was one weak scalar energy transient pulse detected.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Currently strong ULF and MT activity appears to be still significant to the current forecast. A weak infrasonic scalar energy pulse was observed during the past 24 hours. The ECSZ(5 Hz) infrasonic harmonic was extremely active during a portion of the past 24 hour period. Solar Flare Induced Magnetospheric Influences on the Sub-Ionosphere

    Joint USAF/NOAA Solar and Geophysical Activity Summary
    SGAS Number 198 Issued at 0245Z on 17 Jul 2005
    This report is compiled from data received at SWO on 16 Jul
    A.  Energetic Events
    Begin  Max  End  Rgn   Loc   Xray  Op 245MHz 10cm   Sweep
     0327 0338 0345  0790        M1.0                                   
     0707 0714 0724  0790        C2.2                   II              
    B.  Proton Events:  The greater than 10 MeV proton event that began
    on 14/0245Z, had a peak flux of 134 pfu at 15/0345Z, remains
    in-progress.  The proton flux has been on a gradual decrease and was
    near 10 pfu at the end of the period.
    C.  Geomagnetic Activity Summary:  The geomagnetic field was at
    predominantly quiet to unsettled levels.  An active period occurred
    at the Boulder magnetometer between 16/0600 and 0900Z.  A weak
    transient signature was observed at the ACE spacecraft near 16/0100Z
    with no significant geomagnetic effects resulting.
    D.  Stratwarm:  Not Available
    E.  Daily Indices: (real-time preliminary/estimated values)
    10 cm 076  SSN 016  Afr/Ap 014/009   X-ray Background B1.0
    Daily Proton Fluence (flux accumulation over 24 hrs)
    GT 1 MeV 2.8e+07   GT 10 MeV 2.0e+06 p/(cm2-ster-day)
    (GOES-11 satellite synchronous orbit W115 degrees)
    Daily Electron Fluence
    GT 2 MeV 5.90e+07 e/(cm2-ster-day)
    (GOES-12 satellite synchronous orbit W75 degrees)
    3 Hour K-indices:
    Boulder 3 3 4 1 2 3 3 3 Planetary 2 2 2 1 1 3 3 3 
    F.  Comments:  None
    
    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    16-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    16-JUL-2005 15:00 - 18:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    16-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    16-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 17, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was strong infrasonic harmonic resonant activity below 2 Hz on Sunday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.94 Hz (-66.58 dBv). The ULF and MT activity level was high during the past 24 hours. The inferred mean average unclamping level was increased. The ULF mean average was unchanged. The MT peak reading measured 8.8 units of regional lithospheric stress. The MT mean average measured 7.0 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. The MT standard deviation is currently at a high statistical reading, which is significant, and a major part of the daily forecast.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Currently strong ULF and MT activity appears to be still significant to the current forecast. Many volcanic regions are currently reacting to the high geomagnetic activity levels. Earthquakes near Hawaii, Mt. St. Helens, Washington and at Yellowstone Nat'l Park, Wyoming appears to be associated with the effects of geomagnetic triggering. Still observing some of the strongest sub-ionospheric induced magneto-telluric changes in many years. It's an accumulative effect, which affects the crustal stress level in the Gulf of California and the ECSZ/Mojave Desert Block, which increases the probability of having another strong earthquake in Southern California. Solar Flare Induced Magnetospheric Influences on the Sub-Ionosphere

    Joint USAF/NOAA Solar and Geophysical Activity Summary
    SGAS Number 199 Issued at 0245Z on 18 Jul 2005
    This report is compiled from data received at SWO on 17 Jul
    A.  Energetic Events
    Begin  Max  End  Rgn   Loc   Xray  Op 245MHz 10cm   Sweep
     0127 0127 0127                       100                           
    B.  Proton Events:  The greater than 10 MeV proton event that began
    on 14/0245Z, had a peak flux of 134 pfu at 15/0345Z, and underwent
    an injection of flux at 17/1735Z allowing for the event to remain
    in-progress at near 17 pfu at the time of this writing.  The source
    believed responsible for the increase in proton flux was the
    back-sided activity relating to the full halo CME first seen on
    LASCO C2 imagery at 17/1130Z.
    C.  Geomagnetic Activity Summary:  The geomagnetic field ranged from
    quiet to minor storm levels.  A weak transient signature (likely
    from the X1 related CME activity seen on 14 July) was detected at
    the ACE spacecraft near 17/0000Z where the wind speeds increased
    from near 425 km/sec to 500 km/sec.
    D.  Stratwarm:  Not Available
    E.  Daily Indices: (real-time preliminary/estimated values)
    10 cm 074  SSN 012  Afr/Ap 018/022   X-ray Background A5.4
    Daily Proton Fluence (flux accumulation over 24 hrs)
    GT 1 MeV 1.5e+07   GT 10 MeV 6.5e+05 p/(cm2-ster-day)
    (GOES-11 satellite synchronous orbit W115 degrees)
    Daily Electron Fluence
    GT 2 MeV 1.10e+07 e/(cm2-ster-day)
    (GOES-12 satellite synchronous orbit W75 degrees)
    3 Hour K-indices:
    Boulder 3 2 3 4 3 3 2 5 Planetary 3 2 3 5 3 3 3 5 
    F.  Comments:  None
    
    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    17-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    17-JUL-2005 15:00 - 18:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    17-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    17-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 18, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was strong infrasonic harmonic resonant activity below 2 Hz on Monday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.94 Hz (-70.94 dBv). The ULF and MT activity level was moderate to high during the past 24 hours. The inferred mean average unclamping level was decreased. The ULF mean average was unchanged. The MT peak reading measured 8.7 units of regional lithospheric stress. The MT mean average measured 6.7 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. The MT standard deviation reached a high statistical reading, which is significant, and now a major part of the daily regional forecast.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Currently Strong ULF and MT activity continues to be significant to the current forecast. Many volcanic regions are currently reacting to the recent high geomagnetic activity levels. Earthquakes near Mt. St. Helens, Washington and at Yellowstone Nat'l Park, Wyoming appears to be associated with the effects of geomagnetic triggering. Still observing some of the strongest sub-ionospheric induced magneto-telluric changes in many years. It's an accumulative effect, which affects the crustal stress level in the Gulf of California and the ECSZ/Mojave Desert Block, which increases the probability of having another strong earthquake in Southern California Other activity was an increase in ULF activity along the Southern San Jacinto Fault Zone near Salton City, and Ocotillo Wells, CA. A spectral line was active during a period with increase micro quake activity in the Inland Empire from Claremont to Moreno Valley, CA.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    18-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    18-JUL-2005 15:00 - 18:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    18-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    18-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    19-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 19, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was extremely strong infrasonic harmonic resonant activity below 2 Hz on Tuesday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.94 Hz (-65.80 dBv). The ULF and MT activity level was moderate to high during the past 24 hours. The inferred mean average unclamping level was increased. The ULF mean average was increased (positive). The MT peak reading measured 8.3 units of regional lithospheric stress. The MT mean average measured 6.6 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was no upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Currently Strong ULF and MT activity continues to be significant to the current forecast. Many volcanic regions are still reacting to the recent severe geomagnetic activity. Still observing some of the strongest sub-ionospheric induced magneto-telluric changes to be observed in many years.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    19-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    19-JUL-2005 15:00 - 18:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    19-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 20, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was extremely strong infrasonic harmonic resonant activity below 2 Hz on Wednesday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.94 Hz (-70.61 dBv). The ULF and MT activity level was moderate during the past 24 hours. The inferred mean average unclamping level was decreased. The ULF mean average was increased (positive). The MT peak reading measured 8.2 units of regional lithospheric stress. The MT mean average measured 7.5 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Solar Induced ULF and MT activity decreased to a much lower level as the geomagnetic activity shifted back into the normal range. There was one strong infrasonic scalar energy pulse which was detected just prior to 21:00 UTC. Immediately afterward, the upper level infrasonic harmonic at 5 Hz, which is related to the ECSZ and the new plate boundary was quite active for several hours during the afternoon, until early evening hours. The Full Moon arrives early this morning, along with some very extreme lunar tides.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    20-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    19-JUL-2005 15:00 - 18:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    19-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    19-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    19-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 21, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was extremely strong infrasonic harmonic resonant activity below 2 Hz on Thursday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.94 Hz (-70.52 dBv). The ULF and MT activity level was low to moderate during the past 24 hours. The inferred mean average unclamping level was decreased. The ULF mean average was increased (positive). The MT peak reading measured 8.2 units of regional lithospheric stress. The MT mean average measured 7.5 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    There was a detected increase in ULF activity which appears to be associated with a series of micro quakes epicentered in the Inland Empire, which culminated with a high amplitude ULF signal pulse related to a micro quake epicentered 4 miles north of Beaumont, CA. Infrasonic harmonic activity was moderate and appears to also be related to a buildup in deep crustal stress that was detected immediately after a micro quake epicentered 25 miles NNE of Barstow, CA (Calico Fault). Then activity was observed to have nucleated closer to the Pacific & North American plate boundary at the stress lineament between Big Bear Lake and Cherry Valley, CA.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    21-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    21-JUL-2005 03:00 - 06:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    21-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    21-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    22-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 22, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was strong infrasonic harmonic resonant activity below 2 Hz on Friday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.12 Hz (-67.95 dBv). The ULF and MT activity level was low to moderate during the past 24 hours. The inferred mean average unclamping level was increased. The ULF mean average was increased (positive). The MT peak reading measured 8.8 units of regional lithospheric stress. The MT mean average measured 7.5 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    The ULF activity detected appears to be associated with a micro quake epicentered near Palos Verde Point, CA. Late in the period, a strong infrasonic scalar energy pulse was detected and inferred to be associated with the San Jacinto fault zone near Idyllwild, CA. It was adjacent to one which was detected on July 1, 2005. It is inferred that a step over of lithospheric stress occurred towards the Elsinore and Newport-Inglewood fault zone to the offshore region in San Pedro Channel.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    22-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    22-JUL-2005 03:00 - 06:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    22-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    22-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    23-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 23, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was strong infrasonic harmonic resonant activity below 2 Hz on Saturday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.14 Hz (-66.73 dBv). The ULF and MT activity level was moderate during the past 24 hours. The inferred mean average unclamping level was decreased. The ULF mean average was increased (positive). The MT peak reading measured 8.5 units of regional lithospheric stress. The MT mean average measured 7.8 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. There were short periods with detected geomagnetic oscillations.

    M3.2 2005/07/23 12:31:27 38.795 -122.793 4.8 1 km ( 1 mi) ESE of The Geysers, CA

    All daily charts were updated to reflect the latest analysis.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    23-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    23-JUL-2005 15:00 - 18:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    23-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    23-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    24-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 24, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was strong infrasonic harmonic resonant activity below 2 Hz on Sunday. The ULF and MT activity level was moderate to high during the past 24 hours. The inferred mean average unclamping level was decreased. The ULF mean average was increased (positive). The MT peak reading measured 8.7 units of regional lithospheric stress. The MT mean average measured 7.8 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. There were several short periods with detected geomagnetic oscillations.

    M4.1 2005/07/24 12:59:42 33.674 -119.761 6.0 44 km ( 27 mi) SE of Santa Rosa Is., CA

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    The ULF activity detected appears to be associated with a micro quake epicentered near Ventura, CA. There was another strong infrasonic scalar energy pulse detected and inferred to be associated with the San Jacinto fault zone. A moderate magnitude earthquake was epicentered west of Los Angeles, in the offshore region south of Ventura County. There were also periods with geomagnetic oscillation that were detected, which indicates a strong crustal stress change is currently in progress.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    24-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    24-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    24-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    25-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    25-JUL-2005 03:00 - 06:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 25, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was strong infrasonic harmonic resonant activity below 2 Hz on Monday. The ULF and MT activity level was moderate during the past 24 hours. The inferred mean average unclamping level was decreased. The ULF mean average was increased (positive). The MT peak reading measured 9.4 units of regional lithospheric stress. The MT mean average measured 7.9 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. There were two short periods with detected geomagnetic oscillations.

    M3.6 2005/07/25 09:42:52 37.116 -119.575 4.8 8 km ( 5 mi) WNW of Auberry, CA
    M3.0 2005/07/25 13:18:41 40.405 -125.232 2.8 81 km ( 50 mi) W of Petrolia, CA

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Geomagnetic oscillations were detected which are associated with an earthquake epicentered in the foothills along the western edge of the Sierra Nevada Mountain Range near Fresno, CA. A major change in deep crustal stress continues at this time.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    25-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    25-JUL-2005 12:00 - 15:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    25-JUL-2005 15:00 - 18:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    25-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    25-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    26-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    26-JUL-2005 03:00 - 06:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 26, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was strong infrasonic harmonic resonant activity below 2 Hz on Tuesday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.22 Hz (-66.54 dBv). The ULF and MT activity level was moderate during the past 24 hours. The inferred mean average unclamping level was decreased. The ULF mean average was increased (positive). The MT peak reading measured 8.5 units of regional lithospheric stress. The MT mean average measured 7.6 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. There were no periods with detected geomagnetic oscillations.

    M3.0 2005/07/26 15:43:24 40.432 -124.654 13.0 33 km ( 21 mi) WNW of Petrolia, CA

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    There was an increase in ULF and MT activity which preceeded the moderate earthquake in Western Montana. The upper level infrasonic harmonic activity at 5 Hz continues to be active in the ECSZ / Mojave Desert block.

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    26-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    26-JUL-2005 15:00 - 18:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    26-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    26-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    27-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 27, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was moderate infrasonic harmonic resonant activity below 2 Hz on Wednesday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.94 Hz (-71.05 dBv). The ULF and MT activity level was low to moderate during the past 24 hours. The inferred mean average unclamping level was increased. The ULF mean average was increased (positive). The MT peak reading measured 8.4 units of regional lithospheric stress. The MT mean average measured 7.6 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. There were no periods with detected geomagnetic oscillation.

    M3.0 2005/07/27 21:43:01 40.343 -125.627 27.4 114 km ( 71 mi) W of Petrolia, CA

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    There was an increase in ULF and MT activity associated with a micro quake epicentered near Borrego Springs, CA. The upper level infrasonic harmonic activity at 5 Hz continues to be active in the ECSZ / Mojave Desert block.

    Joint USAF/NOAA Solar and Geophysical Activity Summary
    SGAS Number 209 Issued at 0245Z on 28 Jul 2005
    This report is compiled from data received at SWO on 27 Jul
    A.  Energetic Events
    Begin  Max  End  Rgn   Loc   Xray  Op 245MHz 10cm   Sweep
    B.  Proton Events:  A slow gradual rise in the greater than 10 MeV
    protons began after the M3.7 event at 27/0502 UTC.  The 10 pfu alert
    threshold was finally reached at 27/2300 UTC.  The max flux at the
    time of issue for the greater than 10 MeV was 14 pfu.
    C.  Geomagnetic Activity Summary:  The geomagnetic field was quiet to
    minor storm conditions.
    D.  Stratwarm:  Not Available
    E.  Daily Indices: (real-time preliminary/estimated values)
    10 cm 091  SSN 019  Afr/Ap 010/017   X-ray Background B1.7
    Daily Proton Fluence (flux accumulation over 24 hrs)
    GT 1 MeV 2.9e+06   GT 10 MeV 4.1e+05 p/(cm2-ster-day)
    (GOES-11 satellite synchronous orbit W114 degrees)
    Daily Electron Fluence
    GT 2 MeV 7.60e+06 e/(cm2-ster-day)
    (GOES-12 satellite synchronous orbit W76 degrees)
    3 Hour K-indices:
    Boulder 1 3 4 2 3 3 4 4 Planetary 2 2 3 2 3 3 4 5 
    F.  Comments:  None
    

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    27-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    27-JUL-2005 03:00 - 06:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    27-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    27-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    28-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    28-JUL-2005 03:00 - 06:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 28, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was moderate infrasonic harmonic resonant activity below 2 Hz on Thursday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.28 Hz (-67.89 dBv). The ULF and MT activity level was low to moderate during the past 24 hours. The inferred mean average unclamping level was increased. The ULF mean average was unchanged. The MT peak reading measured 8.4 units of regional lithospheric stress. The MT mean average measured 7.5 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. There were no periods with detected geomagnetic oscillation.

    M3.4 2005/07/28 21:12:02 32.000 -115.670 3.7 62 km ( 38 mi) WSW of Guadalupe Victoria, Mexico

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    There was a long duration increase in ULF activity which was associated with a micro quake swarm epicentered at the Salton Sea near Obsidian Butte, CA. The upper level infrasonic harmonic activity at 5 Hz continues to stay active in the ECSZ / Mojave Desert block.

    Solar & Geophysical Activity Summary

    Joint USAF/NOAA Solar and Geophysical Activity Summary
    SGAS Number 210 Issued at 0245Z on 29 Jul 2005
    This report is compiled from data received at SWO on 28 Jul
    A.  Energetic Events
    Begin  Max  End  Rgn   Loc   Xray  Op 245MHz 10cm   Sweep
    B.  Proton Events:  A greater than 10 MeV proton event began at
    27/2300 UTC and continues in progress. Maximum flux so far was 32
    PFU at 28/1300 UTC.
    C.  Geomagnetic Activity Summary:  The geomagnetic field ranged from
    unsettled to minor storm levels.
    D.  Stratwarm:  Not Available
    E.  Daily Indices: (real-time preliminary/estimated values)
    10 cm 096  SSN 029  Afr/Ap 016/028   X-ray Background B1.8
    Daily Proton Fluence (flux accumulation over 24 hrs)
    GT 1 MeV 1.2e+07   GT 10 MeV 2.2e+06 p/(cm2-ster-day)
    (GOES-11 satellite synchronous orbit W114 degrees)
    Daily Electron Fluence
    GT 2 MeV 2.40e+06 e/(cm2-ster-day)
    (GOES-12 satellite synchronous orbit W76 degrees)
    3 Hour K-indices:
    Boulder 3 5 4 3 4 3 2 4 Planetary 3 5 4 4 5 3 3 4 
    F.  Comments:  None
    

    Popo Eruption Update

    July 29 04:00 h (09:00 GMT):
    
    At 3:13 h (8:13 GMT) a moderate exhalation with explosive component occurred, throwing incandescent fragments 
    on the east side of the cone, reaching a distance of about 1 km (see image). The average duration of the 
    intense phase was 1 minute, which was preceded by high frequency tremor; the same signal was observed during 
    15 minutes after the explosion. After this, the previous level of activity was recovered. The height of the 
    steam, gas and ash plume is estimated in 2 km. There are no reports mentioning ash fall up to this moment. 
    This kind of activity has been considered as part of the possible scenarios, which include low level 
    explosions and the emission of incandescent fragments within short distances. 
    The traffic light of volcanic alert is in YELLOW-1. Access is restricted in a radius of 12 km from the crater. 
    The road between Santiago Xalitzintla (Puebla) and San Pedro Nexapa (Mexico State), including Paso de Cortes, 
    is open to controlled traffic. However, it is not permitted to remain within the 12 Km restricted area. 
    Recommendations:
    Recommendations to the public: to be aware of the official information emited.
    To the Authorities of the Federal District, Morelos, Puebla and Tlaxcala states: to go on with their own 
    operative plans. 
    

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    28-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    28-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    28-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    29-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 29, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was moderate infrasonic harmonic resonant activity below 2 Hz on Friday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.22 Hz (-68.37 dBv). The ULF and MT activity level was moderate during the past 24 hours. The inferred mean average unclamping level was increased. The ULF mean average was unchanged. The MT peak reading measured 8.5 units of regional lithospheric stress. The MT mean average measured 7.4 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. There were no periods with detected geomagnetic oscillation.

    M3.9 2005/07/29 17:29:38 31.848 -115.761 6.0 49 km ( 30 mi) N of Lázaro Cárdenas, Mexico

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    There was a detected strong ULF pulsation associated with a micro quake epicentered south of Joshua Tree, CA. Within an hour, there was a M3.9 earthquake epicentered in Northern Baja California, Mwxico followed by increased micro seismic activity along the San Jacinto fault zone near Redlands, CA. The upper level infrasonic harmonic activity at 5 Hz continues to stay active in the ECSZ / Mojave Desert block. Infrasonic resonant activity is in a rising trend that continued through most of the past week. According to officials with the CA State Dept. of Water Resources, the water level of Lake Perris will be lowered so that the dam can be repaired to withstand the next strong earthquake epicentered on the nearby San Jacinto fault Zone.

    Perris Dam Fact Sheet


    Solar & Geophysical Activity Summary

    Joint USAF/NOAA Solar and Geophysical Activity Summary
    SGAS Number 211 Issued at 0245Z on 30 Jul 2005
    This report is compiled from data received at SWO on 29 Jul
    A.  Energetic Events
    Begin  Max  End  Rgn   Loc   Xray  Op 245MHz 10cm   Sweep
    None
    B.  Proton Events:  The greater than 10 MeV proton event that began
    at 27/2300 UTC continues in progress. The maximum flux observed so
    far was 41 PFU at 29/1715 UTC.
    C.  Geomagnetic Activity Summary:  The geomagnetic field was
    predominantly unsettled to active
    D.  Stratwarm:  Not Available
    E.  Daily Indices: (real-time preliminary/estimated values)
    10 cm 104  SSN 069  Afr/Ap 017/019   X-ray Background B1.8
    Daily Proton Fluence (flux accumulation over 24 hrs)
    GT 1 MeV 2.6e+07   GT 10 MeV 2.8e+06 p/(cm2-ster-day)
    (GOES-11 satellite synchronous orbit W114 degrees)
    Daily Electron Fluence
    GT 2 MeV 1.40e+07 e/(cm2-ster-day)
    (GOES-12 satellite synchronous orbit W76 degrees)
    3 Hour K-indices:
    Boulder 3 4 3 4 4 4 3 2 Planetary 3 4 3 4 3 4 3 3 
    F.  Comments:  None
    

    Popo Eruption Update

    July 29 06:50 h (11:50 GMT):
    
    At 6:14 h (11:14 GMT) a new exhalation with explosive component occurred producing an ash column of 
    aproximately 2.5 km above the crater. The winds directed the plume to North-west (see image), (see animation). 
    The duration of the intense phase was 30 seconds followed by high frequency tremor (4 minutes). At this moment 
    we received reports of ashfall in Milpa Alta area (sout-east of Mexico City) 
    
    July 29 11:00 h (16:00 GMT):
    
    In the last 24 hours the monitoring system of Popocatepetl volcano recorded 50 exhalation of low to moderate 
    intensity accompanied by steam and gas, and some times small amounts of ahs. As reported previoulsy, 2 
    explosive events ocurred today and produced ashfall in the Northwest sector of the volcano, including some 
    areas in Mexico City. After this activity the volcano remains stable only with some small exhalations. 
    At the moment of this report we have good visibility to the volcano and we can observe low fumarolic activity 
    (see image). This morning in a close up we could observe some ash at the top of the volcano due to the 
    explosions (see image). 
    
    As previously reported, from high to low probability, the expected activity scenarios in the next hours, days 
    or weeks are: small exhalations, some with light ash emissions, occasionally mild incandescence during nights 
    and sporadic low level explosions with low probabilities of incandescent fragment at short distance to the 
    crater. 
    
    The traffic light of volcanic alert is in YELLOW-1. Access is restricted in a radius of 12 km from the crater. 
    The road between Santiago Xalitzintla (Puebla) and San Pedro Nexapa (Mexico State), including Paso de Cortes, 
    is open to controlled traffic. However, it is not permitted to remain within the 12 Km restricted area. 
    
    Recommendations:
    Recommendations to the public: to be aware of the official information emited.
    To the Authorities of the Federal District, Morelos, Puebla and Tlaxcala states: to go on with their own 
    operative plans. 
    

    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    29-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    29-JUL-2005 03:00 - 06:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    29-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    29-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    30-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 30, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was strong infrasonic harmonic resonant activity below 2 Hz on Saturday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.22 Hz (-68.37 dBv). The ULF and MT activity level was moderate during the past 24 hours. The inferred mean average unclamping level was increased. The ULF mean average was unchanged. The MT peak reading measured 8.3 units of regional lithospheric stress. The MT mean average measured 7.6 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. There were no periods with detected geomagnetic oscillation.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    Strong ULF activity was associated with a micro quake epicentered near Anza, CA. The upper level infrasonic harmonic activity at 5 Hz continues to stay active in the ECSZ / Mojave Desert block.

    Solar & Geophysical Activity Summary

    Joint USAF/NOAA Solar and Geophysical Activity Summary
    SGAS Number 212 Issued at 0245Z on 31 Jul 2005
    This report is compiled from data received at SWO on 30 Jul
    A.  Energetic Events
    Begin  Max  End  Rgn   Loc   Xray  Op 245MHz 10cm   Sweep
    B.  Proton Events:  The greater than 10 MeV proton event that began
    at 27/2300 UTC continues in progress. The maximum flux so far was 41
    PFU at 29/1715 UTC.
    C.  Geomagnetic Activity Summary:  The geomagnetic field ranged from
    quiet to active levels.
    D.  Stratwarm:  Not Available
    E.  Daily Indices: (real-time preliminary/estimated values)
    10 cm 105  SSN 062  Afr/Ap 015/016   X-ray Background B2.6
    Daily Proton Fluence (flux accumulation over 24 hrs)
    GT 1 MeV 2.9e+07   GT 10 MeV 2.3e+06 p/(cm2-ster-day)
    (GOES-11 satellite synchronous orbit W114 degrees)
    Daily Electron Fluence
    GT 2 MeV 7.20e+07 e/(cm2-ster-day)
    (GOES-12 satellite synchronous orbit W76 degrees)
    3 Hour K-indices:
    Boulder 4 4 5 4 2 2 2 2 Planetary 4 4 4 3 1 1 2 2 
    F.  Comments:  None
    


    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    30-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    30-JUL-2005 03:00 - 06:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    30-JUL-2005 185:00 - 18:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    30-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    30-JUL-2005 21:00 - 24:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    31-JUL-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    31-JUL-2005 03:00 - 06:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    MT ULF UPDATE: July 31, 2005

    Note: The San Jacinto Fault Alert along with Inland Empire advisory continues to stay in effect. There was moderate infrasonic harmonic resonant activity below 2 Hz on Sunday. The Peak (Crustal) Infrasonic Harmonic Resonant Frequency was measured at 0.94 Hz (-73.86 dBv). The ULF and MT activity level was moderate to high during the past 24 hours. The inferred mean average unclamping level was increased. The ULF mean average was increased (positive). The MT peak reading measured 8.5 units of regional lithospheric stress. The MT mean average measured 7.6 units. There were no detected ULF suppression incidents. There were no periods with severe unclamping (dilatancy). There was upper level infrasonic resonant harmonic activity at 5 Hz observed on the electronic tracking filter. There were no periods with detected geomagnetic oscillation.

    All daily charts were updated to reflect the latest analysis.

    General Discussion:
    There was strong ULF signal burst activity associated with micro quakes epicentered near Palomar Mountain, Ludlow and Niland, CA. Late in the period the increased levels were associated with a triple scalar energy pulsation which was accompanied by a high frequency ULF signal burst. Many similar bursts in the past were followed within a short period of time by an earthquake.

    Solar & Geophysical Activity Summary

    Joint USAF/NOAA Solar and Geophysical Activity Summary
    SGAS Number 213 Issued at 0245Z on 01 Aug 2005
    This report is compiled from data received at SWO on 31 Jul
    A.  Energetic Events
    Begin  Max  End  Rgn   Loc   Xray  Op 245MHz 10cm   Sweep
    B.  Proton Events:  The greater than 10 MeV proton event that began
    at 27/2300 UTC continues in progress. The maximum flux so far was 41
    PFU at 29/1715 UTC.
    C.  Geomagnetic Activity Summary:  The geomagnetic field was quiet to
    unsettled.
    D.  Stratwarm:  Not Available
    E.  Daily Indices: (real-time preliminary/estimated values)
    10 cm 110  SSN 110  Afr/Ap 007/009   X-ray Background B2.2
    Daily Proton Fluence (flux accumulation over 24 hrs)
    GT 1 MeV 2.4e+07   GT 10 MeV 1.5e+06 p/(cm2-ster-day)
    (GOES-11 satellite synchronous orbit W114 degrees)
    Daily Electron Fluence
    GT 2 MeV 8.40e+07 e/(cm2-ster-day)
    (GOES-12 satellite synchronous orbit W76 degrees)
    3 Hour K-indices:
    Boulder 2 3 2 1 2 2 2 3 Planetary 2 3 2 1 3 2 2 3 
    F.  Comments:  None
    


    Statement Summary:
    It's inferred that recently detected strong infrasonic resonant harmonics are related to a general rise in deep crustal resonant energy coming from along the Pacific & North American Plate Boundary in Baja, and Southern California. The current infrasonic harmonics are associated with high a lithospheric stress level along the San Andreas fault zone( Mojave Desert Block/ECSZ) from Southern to South-Central California, which affects the Walker Lane/ Owens Valley region as it nucleates into Northern California. It then nucleates westward at the southern edge of the Cascades Range near Burney, CA (5.10.2005/M4.4) and into the offshore Mendocino-Triple-Junction Subduction zone to the west of Crescent City and Petrolia, CA(6.14.2005/M7.2, 6.16.2005/M6.7 respectively). The same crustal stress also nucleates westward along the Garlock fault zone and the border between the Southern Sierras batholith / Mojave Desert Block near Tehachapi/Arvin/Keene, CA(9.29.2004/M5.0) where it crosses the Plate boundary at the Grapevine, near Mettler (4.16.2005/M5.2), and Frazier Park, CA (4.15.2005/M3.1) at the western end of the big bend along the San Andreas fault and Pine Mountain-Big Pine-Hosgri fault system, which ultimately affects the crustal stress level at the Central California Coast near San Simeon/Cayucos and Paso Robles, CA(12.22.2003/Mw6.5).It may also be the source of the stress trigger for the long predicted Parkfield Experiment M6.0 earthquake on September 28, 2004. It also affects the lithospheric stress level along major faults in the Inland Empire of Southern California, where there was a recent fifty mile distant pairing of moderate earthquakes near both the Anza Seismic Gap(6.12.2005/M5.2) , and at Yucaipa, CA(6.16.2005/M4.9) which are inferred to be related to stress nucleation out of the Salton Sink/Coachella Valley region being driven alternately by the ECSZ and the Gulf of California to the south, along the Southern San Andreas Fault, which hasn't had a strong earthquake within the past 350 years.

    The newly analyzed infrasonics are indicating that the source of this stress (1.04 Hz) is extremely close to Southern California latitudes at the Pacific and North American Plate Boundary (ECSZ), where 34.0 degrees North is inferred to equal 1.0 Hz. We may now potentially be very close in timing to the next strong seismic event epicentered in the Southern California region. We should also proceed to a heightened level of alert whenever solar induced-geomagnetic earth activity appears (6.13.2005/Chile M7.8). The long duration periods with sub-ionospheric ULF wave absorption are an excellent indicator to when the activity begins to surface. However, I must emphasize that not everything is yet known about how this works, and I must warn you to be prepared for an event which is higher in magnitude. Danger also arises if the deep resonant harmonic energy is vectored through a volcanic center, of which the Walker Lane Owens valley region has many in the direction of the energy coming out of the ECSZ and towards the Coso Volcanic Center, Long Valley Caldera, and the Inyo/Mono Basin Craters.


    31-JUL-2005: 24 Hour Geomagnetic and Magneto-Telluric Graph


    31-JUL-2005 15:00 - 18:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    31-JUL-2005 18:00 - 21:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    01-AUG-2005 00:00 - 03:00 UTC
    ECSZ Mojave Desert Block: Infrasonic Spectrogram


    Scientific Earthquake Prediction is by no means an exact science, and much more work still needs completion before it's out of the experimental stages of development. You can compare this with looking at the Moon through a telescope, and arriving in a spaceship at Trinity Base. We are still looking at it through a focused lens and just beginning to take the step into outer space via satellite detection. My goal is to fill in the gaps down here at earth level. the Mojave segment along the San Andreas fault, the Garlock fault, the San Jacinto fault, and the Mojave Desert Block are my favorite subjects. From the Gulf of California to Parkfield in Central California is my general zone of exploratory research. Anything outside of this is done for extra credit.

    Remember, your monetary contributions provide the necessary resources which allow the graphics, informational updates & narratives provided here to be published in such a timely manner.

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    NORTH AMERICAN VOLCANIC UNREST and ERUPTION UPDATES


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  • Latest Colima Volcano Update

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  • Alaska Volcano Observatory

    Activity Level of all Monitored Alaskan & Kamchatkan Volcanoes

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    Latest Korovin Volcano Update

    Cook Inlet:

    Latest Mount Spurr Update

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    Cascades:

    Latest Mount Saint Helens Update
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  • Yellowstone Volcano Observatory



    LUNAR-TIDAL AND SOLAR PERIODICITIES RELATED TO EARTHQUAKES

    Can the Moon Cause Earthquakes?

    (Tidal)Triggering Factor of Strong Earthquakes and Its Prediction Verification

    Tidal Triggering: Caught in the Act


    Tides & Tide Prediction


    Monthly Lunar-Tidal Calendar and
    Narrative for Coastal California


    Cape Mendocino:
    The next New Moon and resulting Spring Tides will be on July 6, 2005 (12:04 UTC); with a predicted differential of 6.81 feet, with a significant lunar-tidal phase angle(transition) between 05:49 UTC (07/06/2005) and 13:21 UTC (07/06/2005) along the coast of Northwestern California.

    The next Full Moon and resulting Spring Tides will be on July 21, 2005 (11:02 UTC); with a predicted maximum differential of 8.72 feet, and a significant lunar-tidal phase angle (transition) between 05:40 UTC (07/21/2005) and 13:10 UTC (07/21/2005) along the coast of Northwestern California.


    Point Bonita:
    The next New Moon and resulting Spring Tides will be on July 6, 2005 (12:04 UTC); with a predicted differential of 7.21 feet, with a significant lunar-tidal phase angle(transition) between 06:00 UTC (07/06/2005) and 13:18 UTC (07/06/2005) along the coast of Northern California.

    The next Full Moon and resulting Spring Tides will be on July 21, 2005 (11:02 UTC); with a predicted maximum differential of 9.12 feet, and a significant lunar-tidal phase angle (transition) between 05:51 UTC (07/21/2005) and 12:59 UTC (07/21/2005) along the coast of Northern California.


    San Simeon:
    The next New Moon and resulting Spring Tides will be on July 6, 2005 (12:04 UTC); with a predicted differential of 6.64 feet, and a significant lunar-tidal phase angle(transition) between 05:02 UTC (07/06/2005) and 12:34 UTC (07/06/2005) along the coast of Central California.

    The next Full Moon and resulting Spring Tides will be on July 21, 2005 (11:02 UTC); with a predicted maximum differential of 8.58 feet, and a significant lunar-tidal phase angle (transition) between 04:52 UTC (07/21/2005) and 08:15 UTC (07/21/2005) along the coast of Central California.


    Newport Beach:
    The next New Moon and resulting Spring Tides will be on July 6, 2005 (12:04 UTC); with a predicted differential of 6.57 feet, with a significant lunar-tidal phase angle(transition) between 03:57 UTC (07/06/2005) and 11:56 UTC (07/06/2005) along the coast of Southern California.

    The next Full Moon and resulting Spring Tides will be on July 21, 2005 (11:02 UTC); with a predicted maximum differential of 8.50 feet, and a significant lunar-tidal phase angle (transition) between 03:49 UTC (07/21/2005) and 11:20 UTC (07/21/2005) along the coast of Southern California.


    Cape Mendocino, California
    5 July 2005 - 7 July 2005
    40.4333° N, 124.4166° W
    
    2005-07-05  03:03 UTC   Moonset
    2005-07-05  03:51 UTC   Sunset
    2005-07-05  05:11 UTC   6.08 feet  High Tide
    2005-07-05  11:45 UTC   Moonrise
    2005-07-05  12:53 UTC   Sunrise
    2005-07-05  12:54 UTC  -0.81 feet  Low Tide
    2005-07-05  19:52 UTC   4.50 feet  High Tide
    2005-07-06  00:24 UTC   3.23 feet  Low Tide
    2005-07-06  03:50 UTC   Sunset
    2005-07-06  03:54 UTC   Moonset
    2005-07-06  05:49 UTC   6.02 feet  High Tide
    2005-07-06  12:04 UTC   New Moon
    2005-07-06  12:40 UTC   Moonrise
    2005-07-06  12:54 UTC   Sunrise
    2005-07-06  13:29 UTC  -0.79 feet  Low Tide
    2005-07-06  20:30 UTC   4.53 feet  High Tide
    2005-07-07  01:07 UTC   3.24 feet  Low Tide
    2005-07-07  03:50 UTC   Sunset
    2005-07-07  04:38 UTC   Moonset
    2005-07-07  06:27 UTC   5.94 feet  High Tide
    2005-07-07  12:54 UTC   Sunrise
    2005-07-07  13:41 UTC   Moonrise
    2005-07-07  14:03 UTC  -0.72 feet  Low Tide
    2005-07-07  21:05 UTC   4.54 feet  High Tide
    

    Point Bonita, Bonita Cove
    5 July 2005 - 7 July 2005
    37.8167° N, 122.5333° W
    
    2005-07-05  02:44 UTC   Moonset
    2005-07-05  03:35 UTC   Sunset
    2005-07-05  05:22 UTC   6.47 feet  High Tide
    2005-07-05  11:48 UTC   Moonrise
    2005-07-05  12:43 UTC  -0.82 feet  Low Tide
    2005-07-05  12:53 UTC   Sunrise
    2005-07-05  20:03 UTC   4.89 feet  High Tide
    2005-07-06  00:14 UTC   3.22 feet  Low Tide
    2005-07-06  03:35 UTC   Sunset
    2005-07-06  03:36 UTC   Moonset
    2005-07-06  06:00 UTC   6.41 feet  High Tide
    2005-07-06  12:04 UTC   New Moon
    2005-07-06  12:43 UTC   Moonrise
    2005-07-06  12:54 UTC   Sunrise
    2005-07-06  13:18 UTC  -0.80 feet  Low Tide
    2005-07-06  20:41 UTC   4.93 feet  High Tide
    2005-07-07  00:56 UTC   3.23 feet  Low Tide
    2005-07-07  03:35 UTC   Sunset
    2005-07-07  04:20 UTC   Moonset
    2005-07-07  06:38 UTC   6.33 feet  High Tide
    2005-07-07  12:55 UTC   Sunrise
    2005-07-07  13:42 UTC   Moonrise
    2005-07-07  13:52 UTC  -0.73 feet  Low Tide
    2005-07-07  21:16 UTC   4.93 feet  High Tide
    

    San Simeon, California
    5 July 2005 - 7 July 2005
    35.6417° N, 121.1883° W
    
    2005-07-05  02:30 UTC   Moonset
    2005-07-05  03:24 UTC   Sunset
    2005-07-05  04:27 UTC   5.97 feet  High Tide
    2005-07-05  11:51 UTC   Moonrise
    2005-07-05  12:00 UTC  -0.67 feet  Low Tide
    2005-07-05  12:54 UTC   Sunrise
    2005-07-05  18:42 UTC   3.51 feet  High Tide
    2005-07-05  22:45 UTC   2.57 feet  Low Tide
    2005-07-06  03:22 UTC   Moonset
    2005-07-06  03:24 UTC   Sunset
    2005-07-06  05:02 UTC   5.97 feet  High Tide
    2005-07-06  12:04 UTC   New Moon
    2005-07-06  12:34 UTC  -0.67 feet  Low Tide
    2005-07-06  12:45 UTC   Moonrise
    2005-07-06  12:55 UTC   Sunrise
    2005-07-06  19:16 UTC   3.53 feet  High Tide
    2005-07-06  23:21 UTC   2.57 feet  Low Tide
    2005-07-07  03:23 UTC   Sunset
    2005-07-07  04:08 UTC   Moonset
    2005-07-07  05:35 UTC   5.91 feet  High Tide
    2005-07-07  12:55 UTC   Sunrise
    2005-07-07  13:06 UTC  -0.59 feet  Low Tide
    2005-07-07  13:44 UTC   Moonrise
    2005-07-07  19:48 UTC   3.55 feet  High Tide
    2005-07-07  23:56 UTC   2.57 feet  Low Tide
    

    Balboa Pier, Newport Beach, California
    5 July 2005 - 7 July 2005
    33.6000° N, 117.9000° W
    
    2005-07-05  02:10 UTC   Moonset
    2005-07-05  03:05 UTC   Sunset
    2005-07-05  03:22 UTC   5.91 feet  High Tide
    2005-07-05  11:02 UTC  -0.67 feet  Low Tide
    2005-07-05  11:44 UTC   Moonrise
    2005-07-05  12:46 UTC   Sunrise
    2005-07-05  17:37 UTC   3.47 feet  High Tide
    2005-07-05  21:47 UTC   2.54 feet  Low Tide
    2005-07-06  03:02 UTC   Moonset
    2005-07-06  03:05 UTC   Sunset
    2005-07-06  03:57 UTC   5.91 feet  High Tide
    2005-07-06  11:36 UTC  -0.66 feet  Low Tide
    2005-07-06  12:04 UTC   New Moon
    2005-07-06  12:39 UTC   Moonrise
    2005-07-06  12:47 UTC   Sunrise
    2005-07-06  18:11 UTC   3.50 feet  High Tide
    2005-07-06  22:23 UTC   2.54 feet  Low Tide
    2005-07-07  03:05 UTC   Sunset
    2005-07-07  03:47 UTC   Moonset
    2005-07-07  04:30 UTC   5.85 feet  High Tide
    2005-07-07  12:08 UTC  -0.59 feet  Low Tide
    2005-07-07  12:48 UTC   Sunrise
    2005-07-07  13:36 UTC   Moonrise
    2005-07-07  18:43 UTC   3.52 feet  High Tide
    2005-07-07  22:58 UTC   2.54 feet  Low Tide
    

    Cape Mendocino, California
    20 July 2005 - 22 July 2005
    40.4333° N, 124.4166° W
    
    2005-07-20  02:53 UTC   Moonrise
    2005-07-20  03:43 UTC   Sunset
    2005-07-20  04:47 UTC   6.86 feet  High Tide
    2005-07-20  11:39 UTC   Moonset
    2005-07-20  12:23 UTC  -1.50 feet  Low Tide
    2005-07-20  13:04 UTC   Sunrise
    2005-07-20  19:21 UTC   4.65 feet  High Tide
    2005-07-20  23:55 UTC   3.08 feet  Low Tide
    2005-07-21  03:43 UTC   Sunset
    2005-07-21  03:50 UTC   Moonrise
    2005-07-21  05:40 UTC   7.04 feet  High Tide
    2005-07-21  11:02 UTC   Full Moon
    2005-07-21  12:59 UTC   Moonset
    2005-07-21  13:05 UTC   Sunrise
    2005-07-21  13:10 UTC  -1.68 feet  Low Tide
    2005-07-21  20:02 UTC   4.87 feet  High Tide
    2005-07-22  00:50 UTC   2.87 feet  Low Tide
    2005-07-22  03:42 UTC   Sunset
    2005-07-22  04:35 UTC   Moonrise
    2005-07-22  06:33 UTC   7.04 feet  High Tide
    2005-07-22  13:06 UTC   Sunrise
    2005-07-22  13:56 UTC  -1.64 feet  Low Tide
    2005-07-22  14:22 UTC   Moonset
    2005-07-22  20:42 UTC   5.08 feet  High Tide
    

    Point Bonita, Bonita Cove
    20 July 2005 - 22 July 2005
    37.8167° N, 122.5333° W
    
    2005-07-20  02:34 UTC   Moonrise
    2005-07-20  03:29 UTC   Sunset
    2005-07-20  04:58 UTC   7.26 feet  High Tide
    2005-07-20  11:42 UTC   Moonset
    2005-07-20  12:12 UTC  -1.51 feet  Low Tide
    2005-07-20  13:04 UTC   Sunrise
    2005-07-20  19:31 UTC   5.04 feet  High Tide
    2005-07-20  23:44 UTC   3.06 feet  Low Tide
    2005-07-21  03:28 UTC   Sunset
    2005-07-21  03:32 UTC   Moonrise
    2005-07-21  05:51 UTC   7.43 feet  High Tide
    2005-07-21  11:02 UTC   Full Moon
    2005-07-21  12:59 UTC  -1.69 feet  Low Tide
    2005-07-21  13:00 UTC   Moonset
    2005-07-21  13:04 UTC   Sunrise
    2005-07-21  20:12 UTC   5.27 feet  High Tide
    2005-07-22  00:39 UTC   2.85 feet  Low Tide
    2005-07-22  03:27 UTC   Sunset
    2005-07-22  04:19 UTC   Moonrise
    2005-07-22  06:44 UTC   7.44 feet  High Tide
    2005-07-22  13:05 UTC   Sunrise
    2005-07-22  13:45 UTC  -1.65 feet  Low Tide
    2005-07-22  14:21 UTC   Moonset
    2005-07-22  20:52 UTC   5.47 feet  High Tide
    

    San Simeon, California
    20 July 2005 - 22 July 2005
    35.6417° N, 121.1883° W
    
    2005-07-20  02:20 UTC   Moonrise
    2005-07-20  03:18 UTC   Sunset
    2005-07-20  04:05 UTC   6.75 feet  High Tide
    2005-07-20  11:35 UTC  -1.39 feet  Low Tide
    2005-07-20  11:44 UTC   Moonset
    2005-07-20  13:04 UTC   Sunrise
    2005-07-20  18:10 UTC   3.88 feet  High Tide
    2005-07-20  22:36 UTC   2.24 feet  Low Tide
    2005-07-21  03:17 UTC   Sunset
    2005-07-21  03:19 UTC   Moonrise
    2005-07-21  04:54 UTC   7.00 feet  High Tide
    2005-07-21  11:02 UTC   Full Moon
    2005-07-21  12:18 UTC  -1.58 feet  Low Tide
    2005-07-21  13:01 UTC   Moonset
    2005-07-21  13:04 UTC   Sunrise
    2005-07-21  18:50 UTC   4.09 feet  High Tide
    2005-07-21  23:28 UTC   2.05 feet  Low Tide
    2005-07-22  03:17 UTC   Sunset
    2005-07-22  04:08 UTC   Moonrise
    2005-07-22  05:43 UTC   7.02 feet  High Tide
    2005-07-22  13:00 UTC  -1.54 feet  Low Tide
    2005-07-22  13:05 UTC   Sunrise
    2005-07-22  14:21 UTC   Moonset
    2005-07-22  19:29 UTC   4.29 feet  High Tide
    

    Balboa Pier, Newport Beach, California
    20 July 2005 - 22 July 2005
    33.6000° N, 117.9000° W
    
    2005-07-20  01:59 UTC   Moonrise
    2005-07-20  03:00 UTC   Sunset
    2005-07-20  03:00 UTC   6.68 feet  High Tide
    2005-07-20  10:37 UTC  -1.37 feet  Low Tide
    2005-07-20  11:38 UTC   Moonset
    2005-07-20  12:55 UTC   Sunrise
    2005-07-20  17:05 UTC   3.84 feet  High Tide
    2005-07-20  21:38 UTC   2.22 feet  Low Tide
    2005-07-21  02:59 UTC   Moonrise
    2005-07-21  02:59 UTC   Sunset
    2005-07-21  03:49 UTC   6.93 feet  High Tide
    2005-07-21  11:02 UTC   Full Moon
    2005-07-21  11:20 UTC  -1.57 feet  Low Tide
    2005-07-21  12:54 UTC   Moonset
    2005-07-21  12:56 UTC   Sunrise
    2005-07-21  17:45 UTC   4.05 feet  High Tide
    2005-07-21  22:30 UTC   2.02 feet  Low Tide
    2005-07-22  02:59 UTC   Sunset
    2005-07-22  03:49 UTC   Moonrise
    2005-07-22  04:38 UTC   6.95 feet  High Tide
    2005-07-22  12:02 UTC  -1.53 feet  Low Tide
    2005-07-22  12:57 UTC   Sunrise
    2005-07-22  14:12 UTC   Moonset
    2005-07-22  18:24 UTC   4.25 feet  High Tide
    2005-07-22  23:24 UTC   1.86 feet  Low Tide
    

    NOAA: Near-Real Time Data


    NOAA Tides for California Coastal Regions



    Space Weather Alerts and Warnings Timeline



    Regarding Donations for GeoSeismic Labs

    Donations made by direct contribution are vitally important to keep the lab in operation through the year. An item that needs emphasis is the annual operating cost related to being a public corporation within the state of California; a fee which is Eight Hundred Dollars, and paid for the privilege of being a public entity. Last fiscal year (4/1/04 - 03/31/05), I directly paid to the State Secretary approximately 2 Thousand Dollars in Franchise Tax Fees to keep the lab solvent and fully chartered with the State of California. Your donations will basically cover the cost of keeping the web site operating 24/7. The depth of my research is increasing exponentially as events occur and I focus my research upon them. My 365 days of ground-breaking reports, will keep you informed and prepared for the future.


    IMPORTANT:
    For those who elect to send a personal check or postal money order
    Please send an email request to the address listed on my website for instructions.

    Also, All credit card funded donations using the automatic Paypal donation button will be rejected unless you request easy to follow alternate instructions via email and follow them completely.
    You may also use the Amazon.com donation button placed on various pages of the website. Also, any further questions you may have, should be sent to the email address that is listed within. Thank you,

    Frank Condon -GeoSeismic Labs 2005

    MT ULF Charts and Experimental Forecast

    The Latest Near Real-Time Data from GeoSeismic Labs

    The Southern California Seismic Alert

    The most recent 24 hr. MT peak reading (31-JUL-2005 03:00 UTC) was
    measured at 8.3 units of regional lithospheric stress.


    Graphic: Recent ULF Report

    Graphic: Recent Anomalies Report

    Graphic: Recent Anomalies Report

    Graphic: Recent Anomalies Report

    Graphic: Recent Anomalies Report

    Graphic: Recent Anomalies Report

    Graphic: Recent Anomalies Report

    Graphic: Gulf of CA ULF Precursor

    Graphic: Recent Anomalies Report

    Graphic: Mount Saint Helens Volcano, WA

    Graphic: Piezo Central Creeping Segment SAF

    Graphic: Locked Big Bend ULF Signal Burst SAF

    Graphic: Gulf of CA ULF Precursor

    Graphic: Santa Barbara ULF Precursor

    Graphic: Recent Anomalies Report

    Graphic: Parkfield Piezo Precursor

    Graphic: Gulf of CA MT Precursor





    This information is provided as a public service by GeoSeismic Labs of California, a State Registered "Not for Profit" Corporation Since 2001.

    REMEMBER GEOSEISMIC LABS IS FUNDED BY DONATIONS FROM INDIVIDUALS LIKE YOU... SO PLEASE HELP!