Origin & Evolution of Life

Can The Timing Of The Origin Of Life Be Inferred From Trends In The Growth Of Organismal Complexity?

By Keith Cowing

Status Report

Life via PubMed

February 9, 2026

Filed under biochemistry, DNA, evolution, genomics, LIFE via PubMed, oganic chemistry, origin of life, panspermia, prebiotic chemistry, RNA

Can The Timing Of The Origin Of Life Be Inferred From Trends In The Growth Of Organismal Complexity? — Alignment of complexity slope intercepts with star formation in the universe. (a) Lines were generated with the slopes and intercepts at early features from Table 4. All intercepts are placed at the “Early Feature Complexity” level of the figure. The mean line was generated from the mean slopes and mean intercepts of Table 4. (b) Star formation data points were generated as described in the text and in the Supplementary Information. The vertical blue line represents the approximate time of Earth formation. — Life

The origin of life embodies two fundamental questions: how and when did life begin? It is commonly conjectured that life began on Earth around 4 billion years ago.

This requires that the complex organization of RNA, DNA, triplet codon, protein, and lipid membrane (RDTPM) architecture was easy to establish between the time the Earth cooled enough for liquid water and the time when early microorganisms appeared. These bracketing events create a narrow window of time to construct a completely operational self-replicating organic system of very high complexity.

Another conjecture is that life did not begin on Earth but was seeded from life-bearing space objects (e.g., asteroids, comets, space dust), commonly referred to as panspermia. The second conjecture implies that life formed somewhere else and was part of the solar nebula, originating from an earlier generation star where there was more time available for the development of life. In this paper, the goal is to provide a hypothetical perspective related to the timing for the origin of pre-biotic chemistry and life itself.

Using a form of complexity growth, biological features spanning from the present day back to early life on Earth were examined for trends across time. Genome sizes, gene number, protein–protein binding sites, energy for cell construction, mass of individual cells, the rate of cell mass growth, and a molecular complexity measure all yield highly significant regressions of linearly increasing complexity when plotted over the last 4 Gyr (billion years).

When extrapolated back in time, intersections with simple complexities associated with each variable yield a mean value of 8.6 Gyr before the present time. This era coincides with the peak of star and planet formation in the universe. This speculative analysis is consistent with the second conjecture for the origin of life. The major assumptions of such an analysis are presented and discussed.

Can the Timing of the Origin of Life Be Inferred from Trends in the Growth of Organismal Complexity?, Life via PubMed (open access)
Can the Timing of the Origin of Life Be Inferred from Trends in the Growth of Organismal Complexity?, Life (open access)

Astrobiology,

Keith Cowing

Explorers Club Fellow, ex-NASA Space Station Payload manager/space biologist, Away Teams, Journalist, Lapsed climber, Synaesthete, Na’Vi-Jedi-Freman-Buddhist-mix, ASL, Devon Island and Everest Base Camp veteran, (he/him) 🖖🏻

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