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Unravelling the origins of anomalous diffusion: from molecules to migrating storks

Anomalous diffusion or, more generally, anomalous transport, with nonlinear dependence of the mean-squared displacement on the measurement time, is ubiquitous in nature. It has been observed in processes ranging from microscopic movement of molecules to macroscopic, large-scale paths of migrating birds. Using data from multiple empirical systems, spanning 12 orders of magnitude in length and 8 orders of magnitude in time, we employ a method to detect the individual underlying origins of anomalous diffusion and transport in the data. This method decomposes anomalous transport into three primary effects: long-range correlations ("Joseph effect"), fat-tailed probability density of increments ("Noah effect"), and non-stationarity ("Moses effect"). We show that such a decomposition of real-life data allows to infer nontrivial behavioral predictions, and to resolve open questions in the fields of single particle tracking in living cells and movement ecology.

preprint2022arXivOpen access
Ohad VilkErez AghionTal AvgarCarsten BetaOliver NagelAdal SabriRaphael SarfatiDaniel K. SchwartzMatthias WeissDiego KrapfRan NathanRalf MetzlerMichael Assaf
cond-mat.stat-mechphysics.data-anQuantitative Methods
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Open access13 authors3 topics
Imported metadata coverageMissing code, dataset, citation and institution fields are tracked without dominating the paper.Details
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Ohad VilkErez AghionTal AvgarCarsten BetaOliver NagelAdal SabriRaphael SarfatiDaniel K. SchwartzMatthias WeissDiego KrapfRan NathanRalf MetzlerMichael Assaf

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