Abstract
The origin of life is still an unsolved mystery in science. Hypothetically, prebiotic chemistry and the formation of protocells may have evolved in the hydrothermal environment of tectonic fault zones in the upper continental crust, an environment where sensitive molecules are protected against degradation induced e.g. by UV radiation. The composition of fluid inclusions in minerals such as quartz crystals which have grown in this environment during the Archean period might provide important information about the first organic molecules formed by hydrothermal synthesis. Here we present evidence for organic compounds which were preserved in fluid inclusions of Archean quartz minerals from Western Australia. We found a variety of organic compounds such as alkanes, halocarbons, alcohols and aldehydes which unambiguously show that simple and even more complex prebiotic organic molecules have been formed by hydrothermal processes. Stable-isotope analysis confirms that the methane found in the inclusions has most likely been formed from abiotic sources by hydrothermal chemistry. Obviously, the liquid phase in the continental Archean crust provided an interesting choice of functional organic molecules. We conclude that organic substances such as these could have made an important contribution to prebiotic chemistry which might eventually have led to the formation of living cells.
Highlights
One of the still unsolved mysteries in Science is the formation of prebiotic organic compounds on the prebiotic Earth
Several hypotheses are established on how organic compounds such as these have been formed and how they started to be integrated in processes leading to a living cell [3,4,5,6,7,8]
Quartz crystals which have grown in this environment should have entrapped small amounts of the fluid phase containing freshly formed organic compounds
Summary
Quartz crystals which have grown in this environment (an example of a hydrothermal quartz dyke is shown in Fig 1) should have entrapped small amounts of the fluid phase containing freshly formed organic compounds. Even though this fluid phase may have been formed at a point of time after the first living organisms already existed in other locations of the planet, it still would represent the original composition of the prebiotic stage provided that its origin is clearly abiotic. An additional analysis using stable-isotope-ratio mass spectrometry was applied in order to prove the abiotic origin of the sample (see Text C in S1 File)
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