Publikation: Nutritional state and collective motion : from individuals to mass migration
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2011
Autor:innen
Bazazi, Sepideh
Romanczuk, Pawel
Thomas, Sian
Schimansky-Geier, Lutz
Hale, Joseph J.
Miller, Gabriel A.
Simpson, Stephen J.
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Proceedings of the Royal Society / B: Biological Sciences. 2011, 278(1704), pp. 356-363. ISSN 0962-8452. eISSN 1471-2954. Available under: doi: 10.1098/rspb.2010.1447
Zusammenfassung
In order to move effectively in unpredictable or heterogeneous environments animals must make appropriate decisions in response to internal and external cues. Identifying the link between these components remains a challenge for movement ecology and is important in understanding the mechanisms driving both individual and collective motion. One accessible way of examining how internal state influences an individual's motion is to consider the nutritional state of an animal. Our experimental results reveal that nutritional state exerts a relatively minor influence on the motion of isolated individuals, but large group-level differences emerge from diet affecting inter-individual interactions. This supports the idea that mass movement in locusts may be driven by cannibalism. To estimate how these findings are likely to impact collective migration of locust hopper bands, we create an experimentally parametrized model of locust interactions and motion. Our model supports our hypothesis that nutrient-dependent social interactions can lead to the collective motion seen in our experiments and predicts a transition in the mean speed and the degree of coordination of bands with increasing insect density. Furthermore, increasing the interaction strength (representing greater protein deprivation) dramatically reduces the critical density at which this transition occurs, demonstrating that individuals' nutritional state could have a major impact on large-scale migration.
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570 Biowissenschaften, Biologie
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BAZAZI, Sepideh, Pawel ROMANCZUK, Sian THOMAS, Lutz SCHIMANSKY-GEIER, Joseph J. HALE, Gabriel A. MILLER, Gregory A. SWORD, Stephen J. SIMPSON, Iain D. COUZIN, 2011. Nutritional state and collective motion : from individuals to mass migration. In: Proceedings of the Royal Society / B: Biological Sciences. 2011, 278(1704), pp. 356-363. ISSN 0962-8452. eISSN 1471-2954. Available under: doi: 10.1098/rspb.2010.1447BibTex
@article{Bazazi2011-02-07Nutri-37347,
year={2011},
doi={10.1098/rspb.2010.1447},
title={Nutritional state and collective motion : from individuals to mass migration},
number={1704},
volume={278},
issn={0962-8452},
journal={Proceedings of the Royal Society / B: Biological Sciences},
pages={356--363},
author={Bazazi, Sepideh and Romanczuk, Pawel and Thomas, Sian and Schimansky-Geier, Lutz and Hale, Joseph J. and Miller, Gabriel A. and Sword, Gregory A. and Simpson, Stephen J. and Couzin, Iain D.}
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<dcterms:abstract xml:lang="eng">In order to move effectively in unpredictable or heterogeneous environments animals must make appropriate decisions in response to internal and external cues. Identifying the link between these components remains a challenge for movement ecology and is important in understanding the mechanisms driving both individual and collective motion. One accessible way of examining how internal state influences an individual's motion is to consider the nutritional state of an animal. Our experimental results reveal that nutritional state exerts a relatively minor influence on the motion of isolated individuals, but large group-level differences emerge from diet affecting inter-individual interactions. This supports the idea that mass movement in locusts may be driven by cannibalism. To estimate how these findings are likely to impact collective migration of locust hopper bands, we create an experimentally parametrized model of locust interactions and motion. Our model supports our hypothesis that nutrient-dependent social interactions can lead to the collective motion seen in our experiments and predicts a transition in the mean speed and the degree of coordination of bands with increasing insect density. Furthermore, increasing the interaction strength (representing greater protein deprivation) dramatically reduces the critical density at which this transition occurs, demonstrating that individuals' nutritional state could have a major impact on large-scale migration.</dcterms:abstract>
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