The Innovation (Nov 2021)

Energy constrains to increasing complexity in the biosphere

  • Gengyuan Liu,
  • Zhifeng Yang,
  • Biagio F. Giannetti,
  • Marco Casazza,
  • Feni Agostinho,
  • Jiamin Pan,
  • Ningyu Yan,
  • Yan Hao,
  • Lixiao Zhang,
  • Cecilia M.V.B. Almeida,
  • Francesco Gonella,
  • Sergio Ulgiati,
  • Mark T. Brown

Journal volume & issue
Vol. 2, no. 4
p. 100169

Abstract

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Thirty years ago, the systems ecologist Howard T. Odum introduced the concept of transformity, which is a thermodynamic measure of quality within the trial and error evolutionary dynamics of ecosystems, namely an indicator of rank in the hierarchical system structure of the biosphere. Based on a global database of individual processes and whole economies, this paper extends, refines, and updates Odum's idea, demonstrating the strength of the postulated relation. In particular, an inverse linear logarithmic relationship is shown to hold between resource quantity (exergy) and quality (emergy), which is the result of an overall energetic efficiency characteristic of energy transformation processes of the biosphere. This relation extends from natural renewable energy sources to human information (including global internet data flows) and know-how embedded in national economies, thus identifying a consistent theory of hierarchical organization of the biosphere grounded in energetics and ultimately setting constraints to illusions of unlimited growth.

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