Wing fold angle determines the terminal descent velocity of double winged autorotating seeds, fruits and other diaspores
Abstract: Wind dispersal of seeds is one essential mechanisms for plants to proliferate and to invade new territories. In this paper we present a methodology that combines 3D-printing, a minimal theoretical model and experiments to determine the shape of multi-winged autorotating seeds, fruits and other diaspores that provide them with the optimal wind dispersion potential i.e. minimal terminal descent velocity. Experiments are performed on 3D-printed synthetic fruits for a wide range of wing fold angles, base wing angles and wing loadings to determine how these affect the flight. Our experimental and theoretical model find an optimal wing fold angle that minimizes the descent velocity, which may be an important parameter that improves the fitness of these plants in an ecological strategy.
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