Plant Tropisms as a Window on Computation & Actuation in Distributed Systems
ORAL · Invited
Abstract
Plants solve complex navigational problems, continuously negotiating their unstructured and changing environment. They strategically redirect their growth to optimize photosynthesis in response to fluctuating light sources, while minimizing mechanical strains. While they have no brain or neural system, they can sense their environment, process sensory information, and plan strategic growth movements. Since plants are distributed systems, with no central control, underlying computational processes must be emergent properties of the tissue. I will discuss how plants accomplish decentralized computation at the tissue level, underpinning integration of sensory information over space and time.
*Y.M. acknowledges support from the Israel Science Foundation Research Grant (ISF) no. 2307/22 and no. 1981/14; ERC grant GROWsmart 101165101; European Union's Horizon 2020 research and innovation program under Grant Agreement No. 824074 (GrowBot); Human Frontier Science Program, Reference No. RGY0078/2019.
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Publication: [1] M. Rivière, & Y. Meroz, Plants sum and subtract stimuli over different timescales, Proc. Natl. Acad. Sci. U.S.A. 120 (42) e2306655120, https://doi.org/10.1073/pnas.2306655120 (2023).
[2] R. Kempinski & Y. Meroz, Non-linear vectorial representation of light patterns underpins optical illusions in plants (in preparation)
Presenters
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Yasmine Meroz
- Tel Aviv University