PT - JOURNAL ARTICLE AU - David Hansmann AU - Guido Fier AU - Rubén C. Buceta TI - New Insights into the Dynamics of Swarming Bacteria: A Theoretical Study AID - 10.1101/095141 DP - 2016 Jan 01 TA - bioRxiv PG - 095141 4099 - http://biorxiv.org/content/early/2016/12/18/095141.short 4100 - http://biorxiv.org/content/early/2016/12/18/095141.full AB - In the present work we simulate the basic two-dimensional dynamics of swarming E. coli bacteria on the surface of a moderately soft agar plate. Individual bacteria are modelled by self-propelled ridged bodies (agents), which interact with each other only through inelastic collision and with the highly viscous environment through damping forces. The motion of single agents is modelled closely corresponding to the behaviour of swimming bacteria. The dynamics of the model were adjusted to reproduce the experimental measurements of swimming E. coli K-12. Accordingly, simulations with loosely packed agents (ρ≈0) show typical run-and-tumble statistics. In contrast, simulations with densely packed agents (ρ≈0.3-0.7) are dominated by interactions (collisions) between agents which lead to the emergence of swarming behaviour. In addition, we model the motion of single agents on the base of modified run-and-tumble dynamics, where the bacteria do not turn actively during the tumble. We show that simulations with densely packed modified agents lead as well the emergence of swarming behaviour, if rotational diffusion is considered.