The Aerodynamics of Spinning Seed Flight
POSTER
Abstract
Ruellia ciliatiflora is a perennial herb whose fruits explode and launch their thin disk-shaped seeds over 6 m with a backspin of up to 1660 Hz.
While backspin launch orientation minimizes aerodynamic drag, it is not
the range-maximizing launch orientation.
Here the three-dimensional equation of motion of a thin, spinning disk
flying through a fluid medium was derived and solved numerically to simulate
the flight of seeds of R. ciliatiflora under different launch conditions.
Simulations of seed flights reveal that the range-maximizing launch orientation
lies between sidespin and topspin, far from the backspin that is
observed in nature. The range-maximizing orientation results in a dispersal
range of nearly 10 m, but its orientation is highly sensitive to spin rate and launch angle. By contrast, backspin,
which yields moderate dispersal ranges about 60% of the range-maximizing
orientation, is robust to perturbations in launch parameters that the plant
cannot precisely control.
While backspin launch orientation minimizes aerodynamic drag, it is not
the range-maximizing launch orientation.
Here the three-dimensional equation of motion of a thin, spinning disk
flying through a fluid medium was derived and solved numerically to simulate
the flight of seeds of R. ciliatiflora under different launch conditions.
Simulations of seed flights reveal that the range-maximizing launch orientation
lies between sidespin and topspin, far from the backspin that is
observed in nature. The range-maximizing orientation results in a dispersal
range of nearly 10 m, but its orientation is highly sensitive to spin rate and launch angle. By contrast, backspin,
which yields moderate dispersal ranges about 60% of the range-maximizing
orientation, is robust to perturbations in launch parameters that the plant
cannot precisely control.
Publication: Hesse-Withbroe Joseph L. and Whitaker Dwight L. 2024 "Backspin in Ruellia ciliatiflora does not maximize seed dispersal range, but provides moderate dispersal range that is robust to launch conditions." J. R. Soc. Interface. 2120230486
http://doi.org/10.1098/rsif.2023.0486
Presenters
-
Dwight L Whitaker
Pomona College
Authors
-
Joe L Hesse-Withbroe
Pomona College
-
Dwight L Whitaker
Pomona College