Physics – Biological Physics
Scientific paper
2011-06-20
PLoS ONE 6(7): e21946. (2011)
Physics
Biological Physics
13 pages, 6 figures Accepted for publication in PLoS ONE the text have been modified in orden to improve the figure's resoluti
Scientific paper
10.1371/journal.pone.0021946
Some epidemics have been empirically observed to exhibit outbreaks of all possible sizes, i.e., to be scalefree or scale-invariant. Different explanations for this finding have been put forward; among them there is a model for "accidental pathogens" which leads to power-law distributed outbreaks without apparent need of parameter fine tuning. This model has been claimed to be related to self-organized criticality, and its critical properties have been conjectured to be related to directed percolation. Instead, we show that this is a (quasi) neutral model, analogous to those used in Population Genetics and Ecology, with the same critical behavior as the voter-model, i.e. the theory of accidental pathogens is a (quasi)-neutral theory. This analogy allows us to explain all the system phenomenology, including generic scale invariance and the associated scaling exponents, in a parsimonious and simple way.
Munoz Miguel A.
Pinto Oscar A.
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