How are the planetary winds helpful to the survival of life in the earth?
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Habitability indicators and biosignatures must be interpreted within a planetary and environmental context.[2] Whether a planet will emerge as habitable depends on the sequence of events that led to its formation, which could include the production of organic molecules in molecular clouds and protoplanetary disks, delivery of materials during and after planetary accretion, and the orbital location in the planetary system.[2] The chief assumption about habitable planets is that they are terrestrial. Such planets, roughly within one order of magnitude of Earth mass, are primarily composed of silicate rocks, and have not accreted the gaseous outer layers of hydrogen and helium found on gas giants. The possibility that life could evolve in the cloud tops of giant planets has not been decisively ruled out,[c] though it is considered unlikely, as they have no surface and their gravity is enormous.[42] The natural satellites of giant planets, meanwhile, remain valid candidates for hosting life.[39]
In February 2011 the Kepler Space Observatory Mission team released a list of 1235 extrasolar planet candidates, including 54 that may be in the habitable zone.[43][44] Six of the candidates in this zone are smaller than twice the size of Earth.[43] A more recent study found that one of these candidates (KOI 326.01) is much larger and hotter than first reported.[45] Based on the findings, the Kepler team estimated there to be "at least 50 billion planets in the Milky Way" of which "at least 500 million" are in the habitable zone.[46]
In analyzing which environments are likely to support life, a distinction is usually made between simple, unicellular organisms such as bacteria and archaea and complex metazoans (animals). Unicellularity necessarily precedes multicellularity in any hypothetical tree of life, and where single-celled organisms do emerge there is no assurance that greater complexity will then develop.[d] The planetary characteristics listed below are considered crucial for life generally, but in every case multicellular organisms are more picky than unicellular life.