![]() ![]() The research provides astrobiologists with another important parameter to consider in their ongoing mission to identify life on another planet. But they can accumulate only a limited amount of oxygen." "The only source of oxygen was aquatic photosynthesis performed by UV-tolerant cyanobacteria and algae. “Because of the absence of a protective ozone layer, the first life had to live under UV protection," says Shapiro, such as that created by different bodies of waters, shadowing from rocks and the formation of pigment among various life forms. The second explains why it is likely the first life to emerge on Earth was limited to the ocean and sheltered areas on the Earth’s surface. Read More: Tools to Understand the Cosmos Are Right Under Our Feet "But it is rather difficult to say whether it was more common or not because there are other criteria that could affect habitability." “Our study shows that early life in the early universe experienced less radiative stress," sayss Shapiro. Life In the Cosmosįor starters, the study authors think that life which emerged early in the universe may have faced less radioactive stress than life that emerged later, as stars that formed in the early universe were more metal-poor. The new research raises two intriguing possibilities - both of which have their own set of implications for the distribution of life in the cosmos, as well as the evolution of life on Earth. What Do Metallic Stars Have to Do With Life? Read More: Ancient Humans and Their Early Depictions of the Cosmos “With, time supernovae enrich the universe with heavy elements,” adds Shapiro. And, as such, the distribution of elements in the universe has gotten greater, with metals becoming a regular ingredient in the composition of stars today. This cycle has been repeating since the first stars emerged in the early universe. The temperatures and pressure inside these stars weren’t enough to sustain the fusion of iron, causing the star to supernova, scattering heavy elements into their galactic neighborhoods. They survived by fusing hydrogen together, emitting vast amounts of energy simultaneously.Īs these primordial stars aged, they needed to start fusing heavier and heavier elements together until the elements in their cores created iron. The first stars in the universe were composed (almost entirely) of hydrogen and helium. Read More: How Many Ways Can the Sun Kill Us? "This ratio decreases with metallicity," adds Shapiro, meaning that the ratio is higher for metal-poor stars than for metal-rich stars. The thickness of ozone layers in planets with oxygenated atmospheres, for example, is proportional to the ratio of ozone-producing radiation to ozone-destroying radiation, says Anna Shapiro, a scientist at the Max Planck Institute for Solar System Research who led the study. This is due to the distribution of different types of UV radiation that metal-rich and metal-poor stars emit. In the new study, the team found that the metallicity of a star affects the type of UV a star emits.Īnd, paradoxically, even though metal-rich stars emit less UV than their metal-poor cousins, metal-rich stars still expose Earth-like planets in their orbit to more harmful radiation. How much UV a star produces (and therefore how UV planets are exposed to) depends on the temperature of said star, or so scientists thought. How Much UV Radiation Does a Star Produce? Read More: Earth-Like Exoplanets Must Have Water, Paper Says The Earth’s ozone layer provides a crucial barrier to the harmful ultraviolet radiation (UV) emitted by the Sun, without which, multicellular life might not have come to dominate the surface of our rocky, watery world. Our oxygen rich atmosphere, which is in part the result of the activity of life on the surface of our planet, is responsible for the formation of our ozone layer. ![]() Life - at least, the complex, multicellular life we are familiar with - requires oxygen. What Conditions Sustain Life in the Universe? ![]()
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