Lévy patterns in seabirds are multifaceted describing both spatial and temporal patterning

Background: The flight patterns of albatrosses and shearwaters have become a touchstone for much of Lévy flight research, spawning an extensive field of enquiry. There is now compelling evidence that the flight patterns of these seabirds would have been appreciated by Paul Lévy, the mathematician af...

Full description

Bibliographic Details
Published in:Frontiers in Zoology
Main Authors: Reynolds, Andrew M., Paiva, Vitor H., Cecere, Jacopo G., Focardi, Stefano
Format: Article in Journal/Newspaper
Language:English
Published: Springer Nature 2016
Subjects:
Foraging
Lévy statistics
Power-laws
Procellariiformes
Shearwaters
North Atlantic
Online Access:http://hdl.handle.net/10316/108620
https://doi.org/10.1186/s12983-016-0160-2
Description
Summary:Background: The flight patterns of albatrosses and shearwaters have become a touchstone for much of Lévy flight research, spawning an extensive field of enquiry. There is now compelling evidence that the flight patterns of these seabirds would have been appreciated by Paul Lévy, the mathematician after whom Lévy flights are named. Here we show that Lévy patterns (here taken to mean spatial or temporal patterns characterized by distributions with power-law tails) are, in fact, multifaceted in shearwaters being evident in both spatial and temporal patterns of activity. Results: We tested for Lévy patterns in the at-sea behaviours of two species of shearwater breeding in the North Atlantic Ocean (Calonectris borealis) and the Mediterranean sea (C. diomedea) during their incubating and chick-provisioning periods. We found that distributions of flight durations, on/in water durations and inter-dive time-intervals have power-law tails and so bear the hallmarks of Lévy patterns. Conclusions: The occurrence of these statistical laws is remarkable given that bird behaviours are strongly shaped by an individual’s motivational state and by complex environmental interactions. Our observations could take Lévy patterns as models of animal behaviour to a new level by going beyond the characterisation of spatial movements to characterise how different behaviours are interwoven throughout daily animal life.

Similar Items