Natural Selection and Scale Invariance

Tuck, A. F.

doi:10.3390/life13040917

Life

2023

DOI: 10.3390/life13040917

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Natural Selection and Scale Invariance

A. F. Tuck

Abstract: This review points out that three of the essential features of natural selection—competition for a finite resource, variation, and transmission of memory—occur in an extremely simple, thermalized molecular population, one of colliding “billiard balls” subject to an anisotropy, a directional flux of energetic molecules. The emergence of scaling behavior, scale invariance, in such systems is considered in the context of the emergence of complexity driven by Gibbs free energy, the origins of life, and known chemi… Show more

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2024

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Cited by 1 publication

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Universality of ecological memory for local and global net ecosystem exchange, atmospheric CO2, and sea surface temperature

Elnar,

Bernido

2024

Sci Rep

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Modeling global net ecosystem exchange is essential to understanding and quantifying the complex interactions between the Earth’s terrestrial ecosystems and the atmosphere. Emphasizing the inter-relatedness between the global net ecosystem exchange, global sea surface temperature, and atmospheric $${\text {CO}}_{2}$$ CO 2 levels, intuitively suggests that all three systems may exhibit collective environmental memory. Motivated by this, we explicitly identified a collective memory function and showed a similar non-Markovian stochastic behavior for these systems exhibiting superdiffusive behavior in short time intervals. We obtained the values of the memory parameter, $$\mu$$ μ , and the characteristic frequencies, $$\nu$$ ν , for global net ecosystem exchange (GNEE) ($$\mu = 0.94\pm 0.03, \nu = 0.67\pm 0.08/mo.$$ μ = 0.94 ± 0.03 , ν = 0.67 ± 0.08 / m o . ), global sea surface temperature (GSST) ($$\mu = 0.68\pm 0.11, \nu = 0.30\pm 0.18/mo.$$ μ = 0.68 ± 0.11 , ν = 0.30 ± 0.18 / m o . ), and atmospheric $${\text {CO}}_{2}$$ CO 2 ($$\mu = 0.78\pm 0.08, \nu =0.66\pm 0.13/wk.$$ μ = 0.78 ± 0.08 , ν = 0.66 ± 0.13 / w k . ). The values of the memory parameter are within the range, $$0< \mu < 1$$ 0 < μ < 1 , and thus all three systems are in the superdiffusive regime. We emphasize, further, that these results were consistent with our previous analyses at the ecosystem level (i.e. Great Barrier Reef) suggesting scale invariance for these phenomena. Thus, the observed superdiffusive behavior operating at different scales suggests universality of the collective memory function for these systems.

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Universality of ecological memory for local and global net ecosystem exchange, atmospheric CO2, and sea surface temperature

Elnar,

Bernido

2024

Sci Rep

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Natural Selection and Scale Invariance

Cited by 1 publication

References 123 publications

Universality of ecological memory for local and global net ecosystem exchange, atmospheric CO2, and sea surface temperature

Universality of ecological memory for local and global net ecosystem exchange, atmospheric CO2, and sea surface temperature

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