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Commun Integr Biol


Title:Arrhenius-kinetics evidence for quantum tunneling in microbial 'social' decision rates
Author(s):Clark KB;
Address:"Portland, OR USA"
Journal Title:Commun Integr Biol
Year:2010
Volume:20101101
Issue:6
Page Number:540 - 544
DOI: 10.4161/cib.3.6.12842
ISSN/ISBN:1942-0889 (Electronic) 1942-0889 (Linking)
Abstract:"Social-like bacteria, fungi and protozoa communicate chemical and behavioral signals to coordinate their specializations into an ordered group of individuals capable of fitter ecological performance. Examples of microbial 'social' behaviors include sporulation and dispersion, kin recognition and nonclonal or paired reproduction. Paired reproduction by ciliates is believed to involve intra- and intermate selection through pheromone-stimulated 'courting' rituals. Such social maneuvering minimizes survival-reproduction tradeoffs while sorting superior mates from inferior ones, lowering the vertical spread of deleterious genes in geographically constricted populations and possibly promoting advantageous genetic innovations. In a previous article, I reported findings that the heterotrich Spirostomum ambiguum can out-complete mating rivals in simulated social trials by learning behavioral heuristics which it then employs to store and select sets of altruistic and deceptive signaling strategies. Frequencies of strategy use typically follow Maxwell-Boltzmann (MB), Fermi-Dirac (FD) or Bose-Einstein (BE) statistical distributions. For ciliates most adept at social decision making, a brief classical MB computational phase drives signaling behavior into a later quantum BE computational phase that condenses or favors the selection of a single fittest strategy. Appearance of the network analogue of BE condensation coincides with Hebbian-like trial-and-error learning and is consistent with the idea that cells behave as heat engines, where loss of energy associated with specific cellular machinery critical for mating decisions effectively reduces the temperature of intracellular enzymes cohering into weak Frohlich superposition. I extend these findings by showing the rates at which ciliates switch serial behavioral strategies agree with principles of chemical reactions exhibiting linear and nonlinear Arrhenius kinetics during respective classical and quantum computations. Nonlinear Arrhenius kinetics in ciliate decision making suggest transitions from one signaling strategy to another result from a computational analogue of quantum tunneling in social information processing"
Keywords:chemical reaction classical and quantum information decision making extreme biology infectious disease learning and memory mate selection primitive intelligences protozoa quantum biology signaling games social heuristics soft matter physics;
Notes:"PubMed-not-MEDLINEClark, Kevin B eng 2011/02/19 Commun Integr Biol. 2010 Nov; 3(6):540-4. doi: 10.4161/cib.3.6.12842. Epub 2010 Nov 1"

 
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