“Dead Zones” of the Universe

Dwarf_galaxy New findings from diverse fields are are being brought to bear of the central question of the 21st century: How common is life in the universe? Where can it survive, Will it leave a fossil record, How complex us it. The list below moves several key features of the Universe off the chart of likely places to search for life.

In our recent post "Cruising the Goldilocks Zone -The Search for Super Earths" we described the hot zones and habitats with highest probability of supporting complex life.



In stark contrast, the zones and regions of the known universe listed below are the ones that astrobiologists have concluded have little or zero chance of supporting life as we know it. The listing of "dead zones" was compliled for Rare Earth -Why Complex Life is Uncommon in the Universe by Uinversity of Washington scientists Peter D. Ward (Professor of Geological Sciences and Curator of Paleontology) and Donald Brownlee (Professor of Astronomy and member of the National Academy of Sciences).

Early Universe: The most distanct known galaxies are too young to have enough metals for formation of Earth-size inner planets. Hazards include energetic quasar-like activity and frequent super-nova explosions.

Elliptical Galaxies: Stars are too metal-poor. Solar mass stars have eveloved into giants that are too hot for life o inner planets.

Globular Clusters: Although they contain milllions of stars, the stars are too metal poor nor have inner planets as large as`earth. Solar mass stars have evolved to gaints that are too hot for life on inner planets.

Small Galaxies: Most of the stars are too metal deficient.

Centers of Galaxies: Energetic star building and black-hole processes prevent development of complex life.

Edges of Galaxies: Most stars are too metal poor.

Planetary Systems with "Hot Jupiters": Inward spiral of the giant planets drives the inner planets into the central star.

Planetary Systems with Giant Planets in Eccentric Orbits: Unstable environments. Some planets lost to space.

Future Stars: Uranium, potassium, and thorium too rare to provide sufficent heat to drive plate tectonics.

Casey Kazan

https://dailygalaxy.com/2007/05/goldilocks_plan.html

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