Entropy Risk Zones – Post-Yellowstone 2066 Detonation
This table shows the projected entropy risk levels of surrounding supervolcanoes and fault regions based on a Yellowstone super eruption scenario peaking in 2066. Risks are determined by Ceasar7 entropy theory and harmonic proximity.
| Location | Distance from Yellowstone (miles) | Entropy Risk Level | Classification |
|---|---|---|---|
| Lake Tahoe Caldera | 550 | 91 | Critical |
| Long Valley Caldera | 610 | 89 | High |
| Mt. Shasta Volcanic Field | 690 | 85 | Medium-High |
| Valles Caldera (New Mexico) | 780 | 78 | Medium |
| Arizona Volcanic Fields | 810 | 74 | Low-Moderate |
Note: Any entropy spike above 90 is in the trigger range for domino effects. Proximity, magma profile, and nuclear/hydrogen residue are compounded in CeasarSeries entropy risk index.
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