2016
DOI: 10.1098/rspb.2015.2946
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Social behaviour and collective motion in plant-animal worms

Abstract: Social behaviour may enable organisms to occupy ecological niches that would otherwise be unavailable to them. Here, we test this major evolutionary principle by demonstrating self-organizing social behaviour in the plant-animal, Symsagittifera roscoffensis. These marine aceol flat worms rely for all of their nutrition on the algae within their bodies: hence their common name. We show that individual worms interact with one another to coordinate their movements so that even at low densities they begin to swim … Show more

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Cited by 33 publications
(32 citation statements)
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“…In some lineages anterior condensations have been internalized to form a brain, and bundles of longitudinal nerves have been multiplied and internalized to form nerve cords [13,39 ]. These modifications correlate with an elaboration of the behavioral complexity in the Acoela, such as swimming in threedimensional interstitial environment, circadian rhythms, active predation, and swarm behavior [42,43].…”
Section: Evolution and Variation Within Xenacoelomorphamentioning
confidence: 99%
“…In some lineages anterior condensations have been internalized to form a brain, and bundles of longitudinal nerves have been multiplied and internalized to form nerve cords [13,39 ]. These modifications correlate with an elaboration of the behavioral complexity in the Acoela, such as swimming in threedimensional interstitial environment, circadian rhythms, active predation, and swarm behavior [42,43].…”
Section: Evolution and Variation Within Xenacoelomorphamentioning
confidence: 99%
“…The availability of large numbers of animals that can easily be collected in nature, transported, and maintained for weeks to months, make S. roscoffensis amenable for behavioral studies. They exhibit a behavioral repertoire that includes phototaxis, geotaxis, rheotaxis, thermotaxis, responses to mechanical stimulation and vibration, and even social responses influenced by the presence of conspecifics . The majority of experimental evidence was obtained over a century ago, and there is therefore considerable scope for further exploration with modern technologies and novel hypotheses.…”
Section: Symsagittifera Roscoffensis As An Emerging Marine System To mentioning
confidence: 99%
“…In terms of responses to mechanical stimulation and vibration, it is robustly and stereotypically displayed in adults by a body contraction behavior, which remains unchanged even in the absence of the brain (i.e., after decapitation) . Symsagittifera roscoffensis has also been posited as an ideal system to study how individual behaviors can lead, through collective movement, to social assemblages . When placed on a horizontal surface, adults actively interact with their neighbors, leading to a clock‐wise circular milling aggregation behavior that might be related to photoprotection by shading each other .…”
Section: Symsagittifera Roscoffensis As An Emerging Marine System To mentioning
confidence: 99%
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“…Collective motion also emerges through antagonistic contacts between individuals, such as when Mormon crickets ( Anabrus simplex ) or juvenile desert locusts ( Schistocerca gregaria ) chase and avoid conspecifics in cannibalistic interactions (Simpson et al, 2006; Bazazi et al, 2008; Hansen et al, 2011). The reasons that other animals move in groups remain unresolved; for example, at high densities, plant–animal worms ( Symsagittifera roscoffensis ) form rotating mills, the function of which remains unclear (Franks et al, 2016). In other systems, collective motion may emerge through repeated interactions between individuals in confined environments (Mann et al, 2013).…”
Section: Introductionmentioning
confidence: 99%