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Collective motion of birds and locusts

Collective motion of birds and locusts. David J. T. Sumpter Department of Mathematics Uppsala University. Are there simple behavioural rules which explain all these very different outcomes?. How the two birds x and y change position:. β=1. β=0.98.

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Collective motion of birds and locusts

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  1. Collective motion of birds and locusts David J. T. Sumpter Department of Mathematics Uppsala University

  2. Are there simple behavioural rules which explain all these very different outcomes?

  3. How the two birds x and y change position:

  4. β=1 β=0.98

  5. Does distance between established routes explain these very different outcomes?

  6. a b W 1 G 12 G 5 W 2 G 2 W 5 W 6 G 6 W 3 G 7 W 4 G 9 c C 2 G 3 G 8 C 3 G 11 G 10 C 4 G 1 G 4 C 1 Dominance Hierarchy

  7. d c Proportion improvement in paired flight by singly less efficient bird Proportion improvement in paired flight by singly more efficient bird

  8. 1D self-propelled particles Position: Velocity: Czirok, Vicsek et al. (1999)

  9. 1D self-propelled particles Time Average direction Space Time Position: Velocity:

  10. 1D self-propelled particles Time Average direction Space Time Position: Velocity:

  11. 1D self-propelled particles Time Average direction Space Time Position: Velocity:

  12. 1D self-propelled particles Average Direction Particle Density

  13. Model vs data

  14. Model vs data

  15. Collective vs individual motion Treatment 0 – 60 minutes 60 – 180 minutes Control

  16. High density treatment

  17. Control experiments

  18. Alignment Activity (movinglocusts)

  19. Activity vs Alignment

  20. Some conclusions • Activity is the key parameter in predicting alignment in locusts. • Degree of conflict is the key parameter in predicting compromise in pigeons. • In both cases there is a sharp transition from one type of behaviour as this parameter is changed.

  21. Collective Animal Behaviour www.collective-behavior.com

  22. Collective Animal Behaviour www.collective-behavior.com

  23. Collective Animal Behaviour www.collective-behavior.com

  24. Collective Animal Behaviour www.collective-behavior.com

  25. Collective Animal Behaviour www.collective-behavior.com

  26. References Biro, D., Sumpter, D. J. T., Meade, J. & Guildford, T. (2006) From compromise to leadership in pigeon homing, Current Biology, 2006 16: 2123-2128. Buhl, J., Sumpter, D. J. T., Couzin, I. D., Hale, J. J., Despland, E., Miller, E. & Simpson, S. J. (2006) From disorder to order in locust marching, Science, 312, 1402 - 1406. . Yates, C., Erban, R., Escudero, C., Couzin, I. D. ,Buhl, J., Kevrekedis, I.,Maini, P. K., Sumpter, D. J. T. (2009)Inherent noise can facilitate coherence in collective swarm motion, Proceedings of the National Academy of Sciences, almost accepted. Hale, J. J. (2008) Automated tracking of locusts and humans, DPhil thesis, University of Oxford. Sumpter, D. J. T., Krause, J. James, R., Couzin, I. D. and Ward A. J. W (2008) Consensus decision-making by fish, Current Biology, 18, 1773–1777. Ward, A. J. W., Sumpter, D. J. T., Couzin, I. D., Hart, P. J. B. and Krause, J. (2008) Quorum decision-making facilitates information transfer in fish shoals Proceedings of the National Academy of Sciences, 105, 6948-6953. Sumpter, D. J. T. (2006) The principles of collective animal behaviour, Philosophical Transactions of the Royal Society of London: Series B, 361, 5-22. Webpage: http://www.math.uu.se/~david/web/

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