Chemical Goldilocks Zone Why Only a Small Number of Planets are Suitable for Life
Source:
ETH Zurich
4 min Reading Time
Researchers from ETH Zurich have demonstrated why only a small number of planets have the chemical requirements for life — and why the Earth is so fortunate. Their findings may have consequences for the search for life elsewhere in the universe.
A young star surrounded by a disk of gas and dust. New planets can form from this material. Whether they have the chemical conditions necessary for life depends on the correct oxygen content during core formation.
(Source: Nasa-JPL)
For life to develop on a planet, certain chemical elements are needed in sufficient quantities. Phosphorus and nitrogen are essential. Phosphorus is vital for the formation of DNA and RNA, which store and transmit genetic information, and for the energy balance of cells. Nitrogen is an essential component of proteins, which are needed for the formation, structure and function of cells. Without these two elements, no life can develop out of lifeless matter.
A study led by Craig Walton, postdoc at the Centre for Origin and Prevalence of Life at ETH Zurich, and ETH professor Maria Schönbächler has now shown that there must be sufficient phosphorus and nitrogen present when a planet’s core is formed. “During the formation of a planet’s core, there needs to be exactly the right amount of oxygen present so that phosphorus and nitrogen can remain on the surface of the planet,” explains Walton, lead author of the study. This was exactly the case with the Earth around 4.6 billion years ago — a stroke of chemical good fortune in the universe. This finding may affect how scientists search for life elsewhere in the universe.
Chemical Goldilocks Zone – At a Glance
Researchers from ETH Zurich show that life is only possible on planets where phosphorus and nitrogen remain available at the surface during early planet formation.
This depends on oxygen levels during core formation. Only a very narrow, medium-oxygen range allows both elements to stay in the mantle.
Around 4.6 billion years ago, Earth formed under precisely these conditions – a rare case of “chemical good fortune.”
Too Little vs. Too Much Oxygen:
Too little oxygen → phosphorus sinks into the core. Too much oxygen → nitrogen escapes into the atmosphere.
Implications for Mars: Mars formed outside this zone, leaving it with imbalanced phosphorus and nitrogen levels that are unfavorable for life as we know it. Impact on the search for life: Water alone is not enough. Scientists should also consider stellar chemistry and oxygen conditions during planet formation. Where to look next: Solar systems with stars chemically similar to the Sun are the most promising candidates for life.
Core Formation as a Form of Cosmic Roulette
When planets form, they initially develop out of molten rock. A sorting process occurs during this time: heavy metals such as iron sink down and form the core, while lighter metals form the mantel and, later, the crust.
If there is too little oxygen present during the formation of the core, phosphorus will fuse with heavy metals such as iron and move to the core. This element is then no longer available for the development of life. On the other hand, too much oxygen present during core formation leads to phosphorus remaining in the mantle and nitrogen being more likely to escape into the atmosphere, ultimately being lost.
Walton and his co-authors demonstrated through numerous modellings that only in an exceptionally narrow range of medium-level oxygen conditions — known as a chemical Goldilocks zone — will both phosphorus and nitrogen remain in the mantle in sufficient quantities.
“Our models clearly show that the Earth is precisely within this range. If we had had just a little more or a little less oxygen during core formation, there would not have been enough phosphorus or nitrogen for the development of life,” says Walton.
The researchers also demonstrate that, during the formation of other planets such as Mars, oxygen levels were outside this Goldilocks zone. On Mars, this had the result of there being more phosphorus in the mantle than on Earth, but less nitrogen, creating challenging conditions for life as we know it.*
The new findings could change how scientists look for life elsewhere in the universe. Until now, the focus was predominantly on whether a planet possessed water. According to Walton and Schönbächler, this falls some way short.
The amount of oxygen available during the formation of a planet can mean that many planets are chemically unsuitable for life from the very beginning, even if there is water present and they otherwise appear to have the right conditions for life.
The Search for Similar Solar Systems in the Universe
These chemical prerequisites for life can be measured indirectly by astronomers by observing other solar systems using large telescopes. The amount of oxygen present in a solar system for the formation of planets depends on the chemical composition of the host star. The star’s chemical structure shapes the entire planetary system around it, as planets are primarily composed of the same material as their host star.
Date: 08.12.2025
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Solar systems that differ significantly from our own in terms of their chemical composition are therefore not good places to look for life elsewhere in the universe. “This makes searching for life on other planets a lot more specific. We should look for solar systems with stars that resemble our own Sun,” says Walton.
Reference: Walton CR, Rogers LK, Bonsor A, Spaargaren R, Shorttle O, Schönbächler M: The chemical habitability of Earth and rocky planets prescribed by core formation, Nature Astronomy, 9 February 2026, DOI: external page10.1038/s41550-026-02775-z
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