新的火星合成:红色星球上过去存在盖亚的间接证据

J. E. Brandenburg
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摘要

基于大规模的综合数据,火星可以被理解为过去是一个拥有繁荣的盖亚式生物圈的星球,在那里,生命从早期就改变了它的环境,使它成为一个巨大的类地生物圈的家园,在一次反常的大规模灭绝事件之前,它减少到现在的状态,只有一个微弱的残余生物圈。从各种来源收集的间接证据有力地证明了这种可能性。火星的陨石坑率比月球高得多,导致北半球的平均表面年龄大约为5亿年或更少。较年轻的火星陨石Nakhlites和Shergottites的平均年龄不到10亿年,证明了这一点。年轻的表面年龄使得火星上液态水的迹象更近,并表明火星上的液态水时代持续了火星地质历史的大部分时间。这需要一个高压的二氧化碳温室,在大量的硅酸铁存在的情况下,反过来,需要一个高氧水平的大气来提供地球化学稳定性。由于土壤中有大量的赤铁矿和很少的碳酸盐,这导致火星呈红色。反过来,这种含氧大气需要大量的光合作用,就像在地球上发生的那样,因为水的紫外线光解作用是自我限制的,而光合作用是通过形成臭氧层来自我放大的,以保护植物的生命。因此,火星的环境变得非常像地球,高压富氧大气产生了二氧化碳和甲烷的混合温室,直到一场大灾难结束了一切,只留下了现存的生物圈。
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The New Mars Synthesis: Circumstantial Evidence of a Past Persistent Gaia on the Red Planet
Based on a large scale synthesis of data, Mars can be understood to be a planet with a flourishing, Gaia-type, biosphere in the past, where life modified its environment from an early epoch so that it became the home of a massive Earth-like biosphere, before an anomalous mass extinction event, reduced it to its present state with only a weak, residual biosphere. Such a possibility is strongly suggested by circumstantial evidence gathered form a variety of sources. The Mars cratering rate, is shown to be much higher than Lunar leading to the average surface age in the Northern Hemisphere to be approximately1/2 billion years or less. This is proven by the average age of younger Mars meteorites, the Nakhlites and Shergottites, of less than 1 Billion years. The young surface ages make signs of liquid water on Mars more recent and indicate that the liquid water epoch on Mars lasted for most of Mars geologic history. This requires a high pressure CO2greenhouse in the presence of large amounts of ferrous silicates, requiring, in turn, a high oxygen level atmosphere to provide geochemical stability. This results in a red Mars due to large amounts of Hematite in the soil and few carbonates. This oxygenated atmosphere, in turn, requires massive photosynthesis, as occurs on Earth, since UV photolysis of water is self-limiting whereas photosynthesis is self-amplifying by formation of an ozone layer to protect plant life. Mars thus became very Earthlike in environment, with a mixed CO2and CH4greenhouse produced by a high pressure oxygen rich atmosphere, until some cataclysm ended all but a present residual biosphere.
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