November 11 – December 28, 2025
Phase I — Extended Observation Period
47-day window initiated by X5.1 solar flare detection and sustained Schumann resonance anomalies. Three M7-class seismic events observed with electromagnetic precursor correlation.
2025
November 11, 2025
X5.1 Solar Flare — Observation Period Initiated
Most powerful solar flare in years detected. Schumann resonance power elevated to approximately 185 (HeartMath GCI confirmed). This event initiated long-term electromagnetic stress accumulation monitored over the following 47 days.
Initiating Event
November 23, 2025
Schumann Resonance Anomaly — 5× Baseline
Schumann resonance power reached 50, representing a five-fold anomaly above baseline. Same-day volcanic eruption at Hayli Gubbi observed. X1.7 solar flare followed on November 25. Telluric frequency readings showed 2.3× baseline elevation. Electromagnetic conditions assessed as indicating elevated seismic probability for the Indo-Pacific region within 3-7 days.
Anomaly Detected
November 27, 2025
Dual M6+ Seismic Events Observed
M6.6 Sinabang, Indonesia — tsunami warning issued, 1.78M population affected.
M6.0 Susitna, Alaska — Pacific Ring of Fire.
Six additional events ranging M4.7–5.0 recorded across Philippines, Greece, and California. Onset occurred 4 days following the November 23 anomaly detection.
M6+ Correlation — 4-Day Lead
November 27 – December 6, 2025
California Seismic Swarm — San Juan Bautista
60+ earthquakes M2.0+ recorded over a 10-day span beginning with M4.0 San Juan Bautista, followed by M3.9, M3.8, and M3.4 events through December 6. Swarm behavior consistent with distributed stress release pattern identified in electromagnetic monitoring.
Swarm Correlation
December 6, 2025
M7.0 Yakutat, Alaska
M7.0 at 10km depth — 91 km north of Yakutat, Pacific Ring of Fire. 1,000 people experienced moderate shaking; 13,000 experienced light shaking.
Electromagnetic correlation: M8.1 solar flare recorded at 20:39 UTC; seismic event recorded at 20:41 UTC — a 2-minute temporal correlation. Event occurred 13 days following the November 23 Schumann anomaly, consistent with delayed-peak release pattern.
M7.0 Correlation — 13-Day Lead + 2-Min Trigger
December 8, 2025
M7.6 Izu Islands, Japan
M7.6 at 495km depth — Izu Islands region, southeast of Honshu. Tsunami advisory issued; felt across the Tokyo metropolitan region.
Electromagnetic correlation: X1.1 solar flare at 05:01 UTC; seismic event at 14:15 UTC — 9-hour temporal correlation.
Independent corroboration: HeartMath Global Coherence Initiative recorded power level 250 (highest in two-month period) across multiple stations — Lithuania (250), Saudi Arabia (125), California (180). HeartMath Institute operates independently with 300+ peer-reviewed publications.
M7.6 Correlation — 9-Hour Trigger — Independent Data
December 28, 2025
M6.6 Taiwan Region
M6.6 near Hualien — Pacific Ring of Fire. M5.1 solar flare recorded December 26 at 08:01 UTC; seismic event followed 2 days later, consistent with rapid-release correlation pattern.
M6.6 Correlation — 2-Day Lead
January 1 – January 26, 2026
Phase II — G4 Geomagnetic Storm Correlation
26-day observation period centered on a G4 Severe geomagnetic storm (Kp=8), documenting three M6+ seismic events within 72 hours of storm peak.
2026
January 18, 2026
Pre-Storm Seismic Activity Elevated
M5.3 Bluff, New Zealand (depth 19km) and M5.3 Tonga (depth 10km) recorded. Geomagnetic indicators showed building stress conditions ahead of approaching G4 storm system.
Pre-Storm Stress Indicators
January 19, 2026
G4 Severe Geomagnetic Storm Onset + M6.0
NOAA G4 Severe Storm — Kp index reached 8, solar wind speeds exceeded 500 km/s, IMF Bz strongly negative (-10 to -15 nT).
M6.0 Tadine, New Caledonia (13:02 UTC, 10km depth — shallow). Same-day seismic release coinciding with storm onset. Five additional M5+ events recorded: Pakistan (M5.6), New Zealand (M5.3), Tonga (M5.3), China (M5.2).
G4 Storm + M6.0 Same-Day
January 20, 2026
Post-Storm Distributed Release
M5.9 Papua New Guinea (depth 90km), M5.4 Tanzania (10km), M5.3 New Caledonia (10km), M5.3 Philippines (10km). Post-G4 stress release observed across multiple tectonic boundaries — Pacific, East African Rift, and Indo-Australian Plate regions.
Post-Storm Release
January 21, 2026
M6.1 Volcano Islands, Japan
M6.1 at 25km depth — Pacific Plate subducting beneath Philippine Sea Plate. Event occurred 1–2 days following G4 storm peak, consistent with rapid-release correlation pattern. Accompanied by M5.4 Philippines, M5.3 Japan, M5.3 Yemen, M5.2 South Sandwich Islands.
M6.1 Correlation — 1-2 Day Post-Storm
January 22, 2026
M6.2 Kamchatka, Russia
M6.2 Vilyuchinsk at 52km depth — Kuril-Kamchatka subduction zone, Pacific Ring of Fire. Event occurred 2–3 days following G4 storm peak, consistent with delayed-peak release pattern. Accompanied by M5.3 Yokohama, Japan and M5.2 Sand Point, Alaska.
M6.2 Correlation — 2-3 Day Post-Storm
January 24–26, 2026
Continued Elevated Activity
M5.8 Mid-Atlantic Ridge, M5.7 Macquarie Island, M5.6 Papua New Guinea, M5.5 China (USGS Yellow Alert), M5.4 Kermadec Islands, M5.4 Tonga, M5.3 Adak, Alaska (tsunami warning issued). Sustained global Ring of Fire activity elevated 4–7 days post-storm.
Extended Post-Storm Activity
Methodology & Disclosure
Correlations documented in this log are based on temporal proximity between electromagnetic events (solar flares, geomagnetic storms, Schumann resonance anomalies) and significant seismic activity. All seismic data sourced from USGS Earthquake Hazards Program. Solar and geomagnetic data sourced from NOAA Space Weather Prediction Center, GFZ Potsdam, and Kyoto WDC.
Schumann resonance monitoring includes data from HeartMath Global Coherence Initiative (independent third-party), Tomsk SOS-70 observatory, and Cumiana VLF station. HeartMath Institute is an established research organization with 300+ peer-reviewed publications.
This research is in active development. Correlation does not establish causation. Formal independent validation and peer review are among the primary objectives of the ongoing research program. The underlying detection methodology is protected under pending U.S. patent applications.
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