Not Everest: Scientists Announce Earth Core Mountains Discovery 100 Times Taller
Nature Publishes: 1,000 Km High Colossal Masses Beneath Africa And The Pacific Are Fundamentally Changing The Understanding Of The Planet’s Interior
UTRECHT / GIZA – Scientists have detected massive structures deep within the Earth. This groundbreaking discovery could fundamentally change accepted knowledge about the planet’s geological structure. New research shows that these colossal masses, located beneath Africa and the Central Pacific Ocean, dwarf all known mountains. In fact, they reach heights about 100 times taller than Mount Everest (roughly 1,000 kilometers high). The Earth Core Mountains Discovery was published in the journal Nature.
📝 Section 1: The Anatomy Of These Colossal Structures
These masses do not consist of silicate rocks like ordinary mountains. Researchers define these anomalies, which rise from the core–mantle boundary, as “the largest thermochemical formations inside the planet.”
- Height and Density: These structures are known as LLSVP (Large Low Shear Velocity Provinces). Researchers describe them as high-density structures. They have a unique chemical composition that separates them from the rest of the mantle.
- Ancient Origin: Scientists confirm that these regions preserve chemical traces from the Earth’s early epoch. Furthermore, they have maintained their existence for billions of years. This implies the planet’s interior structure is far more complex than we previously imagined.
🔬 Section 2: New Seismic Technique Solves The Mystery
Researchers from Utrecht University used a new seismic technique. Notably, this technique made detecting these massive structures possible for the first time.
- 3D Mapping: The team monitored how seismic waves, released after major earthquakes, behaved deep inside the planet. They created a three-dimensional structural map. The new method measures the attenuation rate of radioactive shear waves. Therefore, it clearly revealed low-velocity zones that were previously undetectable.
🌊 Section 3: Impact On Surface Geology
The Earth Core Mountains Discovery does more than just study the mantle. It fundamentally forces scientists to re-explain geological activities on the planet’s surface.
- Hotspot Source: These colossal masses may fuel volcanic regions known as hotspots, such as those seen in Hawaii and Iceland. Consequently, these structures might be the deep source of warm material plumes that rise to the surface.
- Continental Anchor: In addition, these structures remain stationary. They act as a planetary “anchor,” directing mantle currents and directly influencing continental movement. Thus, they control cycles of supercontinent formation.
💡 Section 4: Geochemical Transformation
The new model proves that these LLSVPs are dense structures due to their unique chemical makeup, not just high temperatures. This finding strongly supports the thesis that mantle movement is driven by chemical density differences, rather than being solely temperature-dependent.
The research team states the discovery “opens a new window for understanding the planet’s history.” In conclusion, these results show that the Earth’s inner layers are more complex than we imagined. These structures likely affect everything from surface climate to biological processes.
