Did Gravitational Tides Cause biological catastrophes on Earth through ancient flybys of planetary mass objects that triggered global tsunamis, volcanic eruptions, and severe climate shifts throughout the planet’s history?
Did Gravitational Tides Cause prehistoric resets through massive tidal waves and volcanic activity according to new research. These events explain geological anomalies that meteorite impacts or eruptions alone cannot fully account for.
Professor Daniele Fargion argues that thousands of icy objects in the outer solar system periodically disturb Earth’s environment. Correlation between planetary climate shifts and these flybys supports a new tidal extinction theory.
Discovering How Did Gravitational Tides Cause lethal mass extinctions
Did Gravitational Tides Cause Earth’s mass extinctions by utilizing flybys of planetary-mass objects to trigger global tsunamis and volcanic episodes. These tidal signatures explain complex geological records and biological resets occurring over the last 600 million years.
Flybys are significantly more common than head-on collisions in the inner solar system. These passages leave distinct signatures like giant waves and sea regressions found in our geological record.
Earth likely suffered multiple dangerous encounters with dwarf planets. These events diverted meteorites and shifted sea levels, acting as a joint cause for various historical biological catastrophes.
Planetary flybys and terrestrial anomalies

Anomalies such as the tilt of Uranus and the capture of Triton support the theory of passing planetary mass objects. Fossil corals from the end of the Devonian period show a sudden change in Earth’s rotation, implying a need to determine if did gravitational tides cause the Devonian slowdown.
Evidence in the geological record
Correlating mass extinctions with climate changes and volcanic eruptions reveals a complex history. While the dinosaur extinction had a clear impact cause, investigating whether did gravitational tides cause the Permian/Triassic event remains a priority.
| Extinction Event | Time Ago | Evidence for Flyby |
| End Devonian | ~360 My | sudden Moon distance increase |
| Permian/Triassic | 251 My | No iridium or crater found |
| Cretaceous/Tertiary | 64 My | Iridium anomaly / Chicxulub |
Scientific importance and theories
This theory addresses the Fermi Paradox by suggesting that astrophysical tidal extinctions may frequently reset advanced civilizations to primordial levels. By studying the energy sources of planets like Jupiter, researchers estimate the frequency of historical collisions and flybys involving Earth-mass objects.
Fossil coral data and lunar distance

Daily growth rings in fossil corals indicate that Earth’s rotation slowed abruptly during the Devonian era. Evidence implies that did gravitational tides cause a lunar shift, as only the sustained tidal pull of a passing planetary mass could have increased the distance.
Survival strategies for future flybys
Humanity must perform deep sky inspections to identify faint, distant dwarf planet sources before they enter the inner solar system. Identifying incoming planetary mass objects early allows for preparation against the massive tidal waves that would persist for years.
- Monitor the outer solar system for thousands of unmapped dwarf planets.
- Establish high-altitude refuges in mountain chains for human survival.
- Develop early warning systems for rare but possible dangerous flybys.
- Plan for long-term crustal deformation and tidal heating effects.
Implications and what comes next
Understanding these rare events helps refine models of planetary spin and orbital history. Researchers now seek to accurately estimate the flux of visiting planetesimals throughout solar system development.
Future discoveries of massive objects in the Kuiper belt will complete the puzzle of Earth’s extinctions. Vigilance remains the only tool to prevent future biological reset events.
Conclusion
Planetary flybys provide a compelling explanation for the violent resets observed in our biological history. Recognizing that did gravitational tides cause these catastrophes helps us prepare for future cosmic encounters. Explore more regarding planetary science on our YouTube channel—join NSN Today.



























