Paradoxical Survival: Examining the Parrondo Effect across Biology

Parrondo's paradox, in which losing strategies can be combined to produce winning outcomes, has received much attention in mathematics and the physical sciences; a plethora of exciting applications has also been found in biology at an astounding pace. In this review paper, the authors examine a...

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Veröffentlicht in:	BioEssays 2019-06, Vol.41 (6), p.e1900027-n/a
Hauptverfasser:	Cheong, Kang Hao, Koh, Jin Ming, Jones, Michael C.
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Sprache:	eng
Schlagworte:	Aging Biodiversity Biological effects Biological evolution Biology Biosphere Carcinogenesis Competitive Behavior ecology evolution Evolution, Molecular Female Game Theory Gene Frequency Gene-Environment Interaction Genetics Genotype Humans Male Markov Chains multiscale recurrence Parrondo's paradox Physical sciences Population Dynamics Selection, Genetic social systems stochastic processes
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description	Parrondo's paradox, in which losing strategies can be combined to produce winning outcomes, has received much attention in mathematics and the physical sciences; a plethora of exciting applications has also been found in biology at an astounding pace. In this review paper, the authors examine a large range of recent developments of Parrondo's paradox in biology, across ecology and evolution, genetics, social and behavioral systems, cellular processes, and disease. Intriguing connections between numerous works are identified and analyzed, culminating in an emergent pattern of nested recurrent mechanics that appear to span the entire biological gamut, from the smallest of spatial and temporal scales to the largest—from the subcellular to the complete biosphere. In analyzing the macro perspective, the pivotal role that the paradox plays in the shaping of biological life becomes apparent, and its identity as a potential universal principle underlying biological diversity and persistence is uncovered. Directions for future research are also discussed in light of this new perspective. A species can survive in a habitat by switching between nomadic and colonial behaviors (densities n1 and n2), even though each behavior alone leads to extinction. Combining losing strategies can lead to winning outcomes in a phenomenon termed the Parrondo's paradox, with a diverse range of counterintuitive results in biology.
doi_str_mv	10.1002/bies.201900027
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subjects	Aging Biodiversity Biological effects Biological evolution Biology Biosphere Carcinogenesis Competitive Behavior ecology evolution Evolution, Molecular Female Game Theory Gene Frequency Gene-Environment Interaction Genetics Genotype Humans Male Markov Chains multiscale recurrence Parrondo's paradox Physical sciences Population Dynamics Selection, Genetic social systems stochastic processes
title	Paradoxical Survival: Examining the Parrondo Effect across Biology
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