{"id":54482,"date":"2025-10-04T03:59:06","date_gmt":"2025-10-04T03:59:06","guid":{"rendered":"https:\/\/www.newsbeep.com\/il\/54482\/"},"modified":"2025-10-04T03:59:06","modified_gmt":"2025-10-04T03:59:06","slug":"earth-may-not-be-so-special-after-all-new-study-finds","status":"publish","type":"post","link":"https:\/\/www.newsbeep.com\/il\/54482\/","title":{"rendered":"Earth May Not Be So Special After All, New Study Finds"},"content":{"rendered":"

\t\t\"Artist<\/a>Illustration of exoplanet K2-18b. The planet is thought to have a thick gas envelope and no global ocean. Credit: ESA\/Hubble, M. Kornmesser<\/p>\n

New research suggests that planets outside our solar system contain far less surface water than scientists once believed. Contrary to earlier theories that these exoplanets might be covered by deep global oceans, the study shows they lack the thick water layers that were often imagined.<\/p>\n

In April 2025, the discovery of an exoplanet circling a dwarf star 124 light-years away captured worldwide attention. Scientists at the University of Cambridge suggested that this planet, known as K2-18b, might be an ocean-covered world with the potential to support life. A new study, however, challenges that idea, revealing that sub-Neptune planets like K2-18b are unlikely to be dominated by water and are not favorable environments for life.<\/p>\n

\u201cWater on planets is much more limited than previously believed,\u201d notes Caroline Dorn, professor of exoplanets at ETH Zurich.<\/p>\n

The research was led by ETH Zurich in collaboration with the Max Planck Institute for Astronomy in Heidelberg and the University of California in Los Angeles. K2-18b falls into a planetary category larger than Earth but smaller than Neptune, a type absent from our own solar system yet frequently observed across the galaxy. Many of these sub-Neptunes likely formed at great distances from their stars, past the so-called snow line where water turns to ice, before gradually migrating closer in.<\/p>\n

For years, scientists thought such planets might collect vast amounts of water during their formation and later sustain massive global oceans beneath hydrogen-rich atmospheres. These hypothetical worlds have been called Hycean planets, a term derived from \u201chydrogen\u201d and \u201cocean.\u201d<\/p>\n

Factoring in the chemistry<\/p>\n

\u201cOur calculations show that this scenario is not possible,\u201d says Dorn. This is because a fundamental vulnerability of previous studies was that they ignored any chemical coupling between the atmosphere and the interior of the planet. \u201cWe have now factored in the interactions between the planet\u2019s interior and its atmosphere,\u201d explains Aaron Werlen, a researcher on Dorn\u2019s team and lead author of the study, which was published in The Astrophysical Journal Letters.<\/p>\n

The researchers assume that, in an early stage of their formation, the sub-Neptunes went through a phase in which they were covered by a deep, hot magma ocean. A shell of hydrogen gas ensured that this phase was maintained for millions of years.<\/p>\n

\u201cIn our study, we investigated how the chemical interactions between magma oceans and atmospheres affect the water content of young sub-Neptune exoplanets,\u201d says Werlen.<\/p>\n

To do this, the researchers used an existing model that describes planetary evolution over a specific period of time. They combined this with a new model that calculates the chemical processes that take place between the gas in the atmosphere, and the metals and silicates in the magma.<\/p>\n

Water disappearing into the interior<\/p>\n

The researchers calculated the chemical equilibrium state of 26 different components for a total of 248 model planets. The computer simulations showed that the chemical processes destroy most H2O water molecules. Hydrogen (H) and oxygen (O) attach themselves to metallic compounds, and these largely disappear into the planet\u2019s core.<\/p>\n

Even though the accuracy of such calculations has some limitations, the researchers are convinced by the results. \u201cWe focus on the major trends and can clearly see in the simulations that the planets have much less water than they originally accumulated,\u201d explains Werlen. \u201cThe water that actually remains on the surface as H2O is limited to a few per cent at most.\u201d<\/p>\n

In an earlier publication, Dorn\u2019s group was already able to show how most of a planet\u2019s water is hidden in the interior. \u201cIn the current study, we analyzed how much water there is in total on these sub-Neptunes,\u201d explains the researcher, \u201cAccording to the calculations, there are no distant worlds with massive layers of water where water makes up around 50 percent of the planet\u2019s mass, as was previously thought. Hycean worlds with 10-90 percent water are therefore very unlikely.\u201d<\/p>\n

This makes the search for extra-terrestrial life more difficult than hoped for. Conditions conducive to life, with sufficient liquid water on the surface, are likely to exist only on smaller planets, which will probably be observable only with observatories even better than the James Webb Space Telescope.<\/p>\n

Earth not a special case<\/p>\n

Dorn finds the role of our Earth particularly exciting in light of the new calculations which show that most distant planets have similar water content to our planet. \u201cThe Earth may not be as extraordinary as we think. In our study, at least, it appears to be a typical planet,\u201d she says.<\/p>\n

The researchers were also surprised by a seemingly paradoxical difference: the planets with the most water-rich atmospheres are not those that have accumulated the most ice beyond the snow line, but rather planets that formed within the snow line. On these planets, the water did not come from ice crystals, but was produced chemically when hydrogen in the planetary atmosphere reacted with oxygen from the silicates in the magma ocean to form H2O molecules.<\/p>\n

\u201cThese findings challenge the classic link between ice-rich formation and water-rich atmospheres. Instead, they highlight the dominant role of the equilibrium between magma ocean and atmosphere in shaping planetary composition,\u201d concludes Werlen. This will have far-reaching implications for theories of planetary formation and the interpretation of exoplanetary atmospheres in the age of the James Webb Telescope.<\/p>\n

Reference: \u201cSub-Neptunes Are Drier than They Seem: Rethinking the Origins of Water-rich Worlds\u201d by Aaron Werlen, Caroline Dorn, Remo Burn, Hilke E. Schlichting, Simon L. Grimm and Edward D. Young, 18 September 2025, The Astrophysical Journal Letters.
DOI: 10.3847\/2041-8213\/adff73<\/a><\/p>\n

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