Wissenschaftler berichteten, dass im Erdkern bis zu 45 Ozeane Wasserstoff vorhanden sein könnten, was darauf hindeutet, dass der größte Teil des Wassers der Erde während der Entstehung des Planeten gewonnen wurde

Picture all of Earth’s oceans, which cover about 70% of the planet and are mostly made of hydrogen. Now multiply that by nine. That may be the amount of [hydrogen in Earth’s core](https://www.cnn.com/2026/02/10/science/hydrogen-oceans-earth-core?utm_medium=social&utm_campaign=missions&utm_source=reddit), possibly making it the planet’s largest hydrogen reservoir, researchers recently estimated.

And nine hydrogen “oceans” is the low end of their calculation; there could be as much as 45 oceans’ worth of hydrogen locked in the core. Put another way, hydrogen may make up roughly 0.36% to 0.7% of Earth’s total core weight, scientists reported Tuesday in the journal [Nature Communications](https://www.nature.com/articles/s41467-026-68821-6). This suggests that Earth acquired most of its water — the planet’s main source of hydrogen — as the planet formed, rather than later through comet impacts that would have left water on the planet’s surface as some scientists have suggested, said lead study author Dongyang Huang, an assistant professor in the School of Earth and Space Sciences at Peking University.

“Earth’s core would store most of the water in the first million years of Earth’s history,” Huang told CNN in an email. Next in water abundance is the mantle and crust. “The surface — where life resides — contains the least,” he said.

More than 4.6 billion years ago, rocks, gas and dust around our sun collided to form a young planet. Over time, these collisions shaped Earth’s core, mantle and crust. In Earth’s deep interior and under enormous pressure, a dense, hot and fluid metal core began to churn. Made mostly of iron and nickel, it powers Earth’s protective magnetic field.

“Hydrogen can only enter the core-forming metallic liquid if it was available during Earth’s main growth phases and participated in core formation,” said Rajdeep Dasgupta, a professor of Earth systems science in the department of Earth, Environmental and Planetary Sciences at Rice University in Texas. Dasgupta was not involved in the new research.

Studying the origin and distribution of hydrogen is key to understanding planetary formation and the evolution of life on Earth. Scientists have long wondered how much hydrogen might be buried in Earth’s molten metal engine, and have analyzed chemical interactions in iron to try to estimate the metallic core’s hydrogen reservoir. But the core is too deep for direct observation, and its high-pressure conditions are challenging to replicate in a lab.

> Picture all of Earth’s oceans, which cover about 70% of the planet and are *mostly* made of hydrogen.

Hydrogen being roughly 1/8 of the mass in water (the remaining 7/8 being oxygen) makes me question the use of „mostly“ and the metaphor with the oceans.

Plus the fact that oceans are minuscule, which makes the article more of an indication that hydrogen is very rare in the core.

> Put another way, hydrogen may make up roughly 0.36% to 0.7% of Earth’s total core weight

Considering the oceans are barely a puddle on the planet’s surface, this isn’t really blowing my mind