Lévy Flights and Self-Similar Exploratory Behaviour of Termite Workers: Beyond Model Fitting

Miramontes, Octavio; DeSouza, Og; Paiva, Leticia R.; Marins, Alessandra; Orozco, Sirio

doi:10.1371/journal.pone.0111183

Cited by 34 publications

(41 citation statements)

References 33 publications

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“…Notoriously, the stationary distribution of the particle positions shows an accumulation of particles around the boundaries of con-Typeset by REVT E X finement (see, for instance, Ref. [26] for trajectories of worker termites in a circular arena, Ref. [27] for confined colloidal rollers in a circular disk, or Ref.…”

Section: Introductionmentioning

confidence: 99%

Stationary superstatistics distributions of trapped run-and-tumble particles

2019

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We present an analysis of the stationary distributions of run-and-tumble particles trapped in external potentials in terms of a thermophoretic potential, that emerges when trapped active motion is mapped to trapped passive Brownian motion in a fictitious inhomogeneous thermal bath. We elaborate on the meaning of the non-Boltzmann-Gibbs stationary distributions that emerge as a consequence of the persistent motion of active particles. These stationary distributions are interpreted as a class of distributions in nonequilibrium statistical mechanics known as superstatistics. Our analysis provides an original insight on the link between the intrinsic nonequilibrium nature of active motion and the well-known concept of local equilibrium used in nonequilibrium statistical mechanics, and contributes to the understanding of the validity of the concept of effective temperature. Particular cases of interest, regarding specific trapping potentials used in other theoretical or experimental studies, are discussed. We point out as an unprecedented effect, the emergence of new modes of the stationary distribution as a consequence of the coupling of persistent motion in a trapping potential that varies highly enough with position.

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Section: Introductionmentioning

confidence: 99%

Stationary superstatistics distributions of trapped run-and-tumble particles

2019

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“…strategies maximising the capture rate η = lim t→∞ n t /t with respect to α, where n t is the mean number of targets detected at time t) are studied. (a) In the first case of "revisitable targets", meaning that, as soon as detected, a target reappears and stays immobile at the same location, the authors claim that in the small density limit the encounter rate is optimized for a Lévy exponent α → 1 , the so called inverse square Lévy walk, and independently of the small scale characteristics of p(l) or space dimension d. (b) In the second case of "destructive search" where each target can be found only once, the optimal strategy is not of Lévy type, but reduces to a simple lin-ear ballistic motion for all d.The optimality of inverse square Lévy walks claimed in [7] is at the core of the Lévy hypothesis, which has been the reference theoretical framework for the analysis of trajectories of broad classes of living systems, from molecular motors [8] to cells [9] and foraging animals [6,7,[10][11][12][13] ; many studies have indeed interpreted field data as Lévy walks, thereby concluding that their observation was the result of a selection process based on the optimality claimed in [7]. In fact, since then the relevance to field data of the condition (a) of revisitable targets has been questioned [14][15][16][17], and the identification of Lévy patterns from real data has been debated [18,19].…”

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confidence: 99%

Inverse Square Lévy Walks are not Optimal Search Strategies for d≥2

et al. 2020

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The Lévy hypothesis states that inverse square Lévy walks are optimal search strategies because they maximise the encounter rate with sparse, randomly distributed, replenishable targets. It has served as a theoretical basis to interpret a wealth of experimental data at various scales, from molecular motors to animals looking for resources, putting forward the conclusion that many living organisms perform Lévy walks to explore space because of their optimal efficiency. Here we provide analytically the dependence on target density of the encounter rate of Lévy walks for any space dimension d ; in particular, this scaling is shown to be independent of the Lévy exponent α for the biologically relevant case d ≥ 2, which proves that the founding result of the Lévy hypothesis is incorrect. As a consequence, we show that optimizing the encounter rate with respect to α is irrelevant : it does not change the scaling with density and can lead virtually to any optimal value of α depending on system dependent modeling choices. The conclusion that observed inverse square Lévy patterns are the result of a common selection process based purely on the kinetics of the search behaviour is therefore unfounded.Lévy walks [1] were introduced as a minimal random walk model that displays a superdiffusive scaling, while preserving a finite speed, and were originally motivated by various physical processes such as phase diffusion in Josephson junctions [2,3] or passive diffusion in turbulent flow fields [4]. Shlesinger and Klafter [5] were the first to report that, due to their weak oversampling properties, Lévy walks provide a more efficient way to explore space than normal random walks. This observation led Viswanathan et al. [6,7] to propose the following Lévy search model ( Fig.1): they consider a searcher that performs ballistic flights of uniformly distributed random directions and constant speed, whose lengths l are drawn from a distribution with power law tails p(l) ∼ Cs α /l 1+α (l → ∞) characterised by the Lévy exponent α ∈ [0, 2], where s is a scale parameter and C a dimensionless normalisation constant. The authors of [7] consider an infinite space of dimension d with Poisson distributed (ie with uniform density) immobile targets of density ρ, which are captured as soon as within a detection distance a from the searcher. Two alternative hypotheses that lead to two very different optimal strategies (i.e. strategies maximising the capture rate η = lim t→∞ n t /t with respect to α, where n t is the mean number of targets detected at time t) are studied. (a) In the first case of "revisitable targets", meaning that, as soon as detected, a target reappears and stays immobile at the same location, the authors claim that in the small density limit the encounter rate is optimized for a Lévy exponent α → 1 , the so called inverse square Lévy walk, and independently of the small scale characteristics of p(l) or space dimension d. (b) In the second case of "destructive search" where each target can be found only once, the optimal strategy...

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“…Being easily captured from conspicuous and populous nests, this species large individuals allow video recording without macro lenses, and are hence an obvious choice for lab bioassays footage. Miramontes et al (2014), for instance, studying patterns of spatial exploratory behavior in individual termites, video-recorded the movement of C. cumulans workers continuously for 5-6 hours. In order to accurately track every termite cartesian location during the assay, the arena was constantly illuminated by a cold white fluorescent lamp.…”

Section: Introductionmentioning

confidence: 99%

Suitable Light Regimes for Filming Termites in Laboratory Bioassays

et al. 2018

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Laboratory bioassays require strategies to minimize stress and keep animals alive as long as the test demands. Sometimes, however, experimental procedures seem notoriously stressful as, for instance, when exposing termites to the illumination needed for video recordings. Being a condition opposed to what termites naturally experience, light might easily stress such insects or might not affect them at all, as they are blind. Here we check for the effects of distinct light regimes on the survival of termites confined in a typical bioassay setup involving footage. The survival of Cornitermes cumulans (Termitidae: Syntermitinae) workers kept in the dark, or subjected to infrared or to cold white light was compared, finding no statistical difference in their survival in these three treatments. While pointing directions for further research on the reasons for such results, we conclude that video recordings of C. cumulans termite workers can be conducted under infrared or cold white LEDs, as these light regimes do not affect the survival of tested individuals.

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Lévy Flights and Self-Similar Exploratory Behaviour of Termite Workers: Beyond Model Fitting

Cited by 34 publications

References 33 publications

Stationary superstatistics distributions of trapped run-and-tumble particles

Stationary superstatistics distributions of trapped run-and-tumble particles

Inverse Square Lévy Walks are not Optimal Search Strategies for d≥2

Suitable Light Regimes for Filming Termites in Laboratory Bioassays

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