Nonlinear Physics Seminar:"Towards a Framework for Collective Behavior in Plant-Inspired Growth-Driven Systems"

Wed, 08/01/2020 - 12:00 to 13:30

Danciger B building, Seminar room
Lecturer: Dr. Yasmine Meroz from Tel-Aviv University
A variety of biological systems are not motile, but sessile in nature, relying on growth as the main driver of their movement. Groups of such growing organisms can form complex structures, such as the functional architecture of growing axons, or the adaptive structure of plant root systems. These processes are not yet understood, however the decentralized growth dynamics bear similarities to the collective behavior observed in groups of motile organisms, such as flocks of birds or schools of fish. Equivalent growth mechanisms make these systems amenable to a theoretical framework inspired by tropic responses of plants, where growth is considered implicitly as the driver of the observed bending towards a stimulus. We introduce two new concepts related to plant tropisms: point tropism, the response of a plant to a nearby point signal source, and allotropism, the growth-driven response of plant organs to neighboring plants. We first analytically and numerically investigate the 2D dynamics of single organs responding to point signals fixed in space. Building on this we study pairs of organs interacting via allotropism, i.e. each organ senses signals emitted at the tip of their neighbor and responds accordingly. In the case of local sensing we find a rich state space. This work sets the stage towards a theoretical framework for the investigation and understanding of systems of interacting growth-driven individuals.
Bastien, R., Porat, A. & Meroz, Y. Towards a framework for collective behavior in growth-driven systems, based on plant-inspired allotropic pairwise interactions. Bioinspir. Biomim. 14, 055004