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Nematode Towering Behavior as a Powerful Experimental Model for Collective Dispersal

23 Pages Posted: 17 Oct 2024 Publication Status: Under Review

See all articles by Daniela M. Perez

Daniela M. Perez

Max Planck Institute of Animal Behavior

Ryan Greenway

Max Planck Institute of Animal Behavior

Thomas Stier

Max Planck Institute of Animal Behavior

Narcís Font Massot

Max Planck Institute of Animal Behavior

Siyu Serena Ding

Max Planck Institute of Animal Behavior

More...

Abstract

Dispersal behavior allows organisms to find new resources under harsh conditions; collective dispersal in group-living organisms raises interesting questions about kin selection, cooperation, and social conflicts that offers an exciting window into the evolution of sociality. One type of collective dispersal is when individuals physically link their bodies into a super-organism and move as a group, but these phenomena are rare in nature and few empirical systems exist to enable their mechanistic dissection. Individuals of many nematode species can group together and self-assemble into a living tower of worms, which is hypothesized to be a collective dispersal structure. However, direct evidence demonstrating the occurrence and the function of towers in nature has been scarce. We documented towering behavior under natural, semi-natural, and laboratory conditions to confirm their existence and manipulated them to confirm that they can bridge gaps and respond to external stimuli to confer group dispersal by phoresy. Having established the ecological and functional relevance of nematode towers, we developed a laboratory towering assay with the model organism Caenorhabditis elegans to exploit its experimental capabilities. Our assay rapidly and robustly induces towering in the lab, and reveals several fundamental characteristics of both the towers and the constituent individuals that demonstrate the high experimental potential and ample future research avenues using our experimental model. In summary, combining ecological relevance and empirical possibilities, our work sets the key foundations to establish nematode towering behavior as a powerful opportunity to elucidate the ecology, the mechanisms, and the evolution of collective dispersal.

Keywords: dispersal, self-assemblage, nematode, C. elegans, super organism, ecology and evolution, social behavior

Suggested Citation

Perez, Daniela M. and Greenway, Ryan and Stier, Thomas and Font Massot, Narcís and Ding, Siyu Serena and Administrator, Sneak Peek, Nematode Towering Behavior as a Powerful Experimental Model for Collective Dispersal. Available at SSRN: https://ssrn.com/abstract=4989935 or http://dx.doi.org/10.2139/ssrn.4989935
This version of the paper has not been formally peer reviewed.

Daniela M. Perez

Max Planck Institute of Animal Behavior ( email )

Germany

Ryan Greenway

Max Planck Institute of Animal Behavior ( email )

Germany

Thomas Stier

Max Planck Institute of Animal Behavior ( email )

Germany

Narcís Font Massot

Max Planck Institute of Animal Behavior ( email )

Germany

Siyu Serena Ding (Contact Author)

Max Planck Institute of Animal Behavior ( email )

Germany

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