The composition of the atmosphere, especially the abundance of greenhouse gases, influences Earth's climate. Researchers at Purdue University, led by Stephanie Olson, assistant professor of earth, atmospheric, and planetary sciences, have recently found that the presence of salt in seawater can also have a major impact on the habitability of Earth and other planets. The team used a climate model to investigate the climates of worlds with different amounts of salt dissolved in seawater to predict that saltier oceans tend to result in warmer climates and, therefore, can aid in a planet's ability to host life.
Stephanie Olson, Purdue assistant professor of earth, atmospheric, and planetary sciences, studies the co-evolution of life and Earth's environment to guide the search for life elsewhere in the universe.
Her work was recently published in Geophysical Research Letters and is available online.
This study focused specifically on how the amount of salt dissolved in seawater affects planetary climate. The team's findings were that saltier oceans tended to result in warmer climates. This salt may be the key ingredient for early Earth habitability in the distant past when the sun was less bright. This finding may apply to the habitability of other planets as well, potentially allowing life beyond our solar system to exist further from its host star than previously thought.
The study was funded by NASA Habitable Worlds and NASA Interdisciplinary Consortia for Astrobiology Research (ICAR). The work further benefitted from participation in the NASA Nexus for Exoplanet System Science (NExSS) and Network for Ocean Worlds (NOW).
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