International Journal of Aeronautical and Space Sciences

The Korean Society for Aeronautical and Space Sciences (한국항공우주학회)
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Complexity Analysis of the Viking Labeled Release Experiments

  • Bianciardi, Giorgio (Department of Patologia Umana e Oncologia, Universita degli Studi di Siena) ;
  • Miller, Joseph D. (Department of Cell and Neurobiology, Keck School of Medicine at USC) ;
  • Straat, Patricia Ann (830 Windy Knoll, Sykesville) ;
  • Levin, Gilbert V. (Beyond Center, College of Liberal Arts and Sciences, Arizona State University)
  • Received : 2011.11.19
  • Accepted : 2012.02.21
  • Published : 2012.03.30
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Abstract

The only extraterrestrial life detection experiments ever conducted were the three which were components of the 1976 Viking Mission to Mars. Of these, only the Labeled Release experiment obtained a clearly positive response. In this experiment $^{14}C$ radiolabeled nutrient was added to the Mars soil samples. Active soils exhibited rapid, substantial gas release. The gas was probably $CO_2$ and, possibly, other radiocarbon-containing gases. We have applied complexity analysis to the Viking LR data. Measures of mathematical complexity permit deep analysis of data structure along continua including signal vs. noise, entropy vs.negentropy, periodicity vs. aperiodicity, order vs. disorder etc. We have employed seven complexity variables, all derived from LR data, to show that Viking LR active responses can be distinguished from controls via cluster analysis and other multivariate techniques. Furthermore, Martian LR active response data cluster with known biological time series while the control data cluster with purely physical measures. We conclude that the complexity pattern seen in active experiments strongly suggests biology while the different pattern in the control responses is more likely to be non-biological. Control responses that exhibit relatively low initial order rapidly devolve into near-random noise, while the active experiments exhibit higher initial order which decays only slowly. This suggests a robust biological response. These analyses support the interpretation that the Viking LR experiment did detect extant microbial life on Mars.

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