Collective behaviors of fire ant rafts and black soldier fly larvae under external flows
POSTER
Abstract
Animal collectives must adapt to changing environments in order to survive. In this poster, we present two case studies for probing collective behavior under external fluid flows. Fire ant rafts elongate and deform in water currents. Collectives of black soldier fly larvae loosen and become more porous as they are subjected to the airflow in fluidized beds. In both cases, we find that the behaviors of these collectives are strikingly different from traditional soft materials placed under the same conditions. We present experiments and simulations of these active materials and conclude that the active movement of the constituents is crucial to the response of the collectives.
Publication: 1. Ko, H., Yu, T., Hu, D.L., 2021. Deformation of fire ant rafts under flow. (planned)<br>2. Ko, H., Komilian, K., Waters, J.S., and Hu, D.L, 2021. Metabolic scaling and thermal performance of fire ants (Solenopsis invicta) engaged in collective behaviors. (planned)<br>3. Ko, H., Cassidy, G.J., Shishkov, O., Aydin, E., Hu, D.L, and Goldman, D.I., 2021. Air-fluidized aggregates of black soldier fly larvae. Frontiers in Physics (accepted)
Presenters
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Hungtang Ko
Georgia Institute of Technology
Authors
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Hungtang Ko
Georgia Institute of Technology
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David L Hu
Georgia Institute of Technology
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Daniel I Goldman
georgia tech, Georgia Institute of Technology, Georgia Institute of Technology, Atlalta, GA, Georgia Tech