The mechanical basis for snapping of the Venus flytrap, Darwin’s ‘most wonderful plant in the world’

Burri, Jan T.; Saikia, Eashan; Läubli, Nino F.; Vogler, Hannes; Wittel, Falk K.; Rüggeberg, Markus; Herrmann, Hans J.; Burgert, Ingo; Nelson, Bradley J.; Grossniklaus, Ueli

doi:10.1101/697797

2019

DOI: 10.1101/697797

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The mechanical basis for snapping of the Venus flytrap, Darwin’s ‘most wonderful plant in the world’

Jan T. Burri

Eashan Saikia

Nino F. Läubli

et al.

Abstract: The carnivorous Venus flytrap catches prey by an ingenious snapping mechanism. Based on work over the past 190 years, it has become generally accepted that two touches of the trap's sensory hairs within 30 seconds, each one generating an action potential, are required to trigger closure of the trap. We developed an electromechanical model which, however, suggests that under certain circumstances one touch is sufficient to generate two action potentials. Using a force-sensing microrobotics system, we precisely … Show more

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Prey capture analyses in the carnivorous aquatic waterwheel plant (Aldrovanda vesiculosa L., Droseraceae)

Poppinga

Smaij

Westermeier

et al. 2019

Sci Rep

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We investigated the predator-prey interactions between an Australian ecotype of the carnivorous waterwheel plant (Aldrovanda vesiculosa, Droseraceae) and its potential natural prey, the water flea Daphnia longicephala (Daphniidae), which also occurs in Australia. A. vesiculosa develops snap-traps, which close within ~10–100 ms after mechanical triggering by zooplankton prey. Prey capture attempts (PCAs) were recorded via high-speed cinematography in the laboratory. From 14 recorded PCAs, nine were successful for the plant (the prey was caught), and five were unsuccessful (prey could escape), resulting in a capture rate of ~64%. The prey animals’ locomotion behaviour (antenna beat frequency and movement type) in trap vicinity or inside the open traps is very variable. Traps were mainly triggered with the second antennae. During trap closure, the animals moved only very little actively. A flight response in reaction to an initiated trap closure was not observed. However, several animals could escape, either by having a “lucky” starting position already outside the triggered trap, by freeing themselves after trap closure, or by being pressed out by the closing trap lobes. According to our observations in the successful PCAs, we hypothesize that the convex curvature of the two trap lobes (as seen from the outside) and the infolded trap rims are structural means supporting the capture and retention of prey. Our results are discussed in a broader biological context and promising aspects for future studies are proposed.

show abstract

Prey capture analyses in the carnivorous aquatic waterwheel plant (Aldrovanda vesiculosa L., Droseraceae)

Poppinga

Smaij

Westermeier

et al. 2019

Sci Rep

View full text Add to dashboard Cite

show abstract

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The mechanical basis for snapping of the Venus flytrap, Darwin’s ‘most wonderful plant in the world’

Cited by 1 publication

References 19 publications

Prey capture analyses in the carnivorous aquatic waterwheel plant (Aldrovanda vesiculosa L., Droseraceae)

Prey capture analyses in the carnivorous aquatic waterwheel plant (Aldrovanda vesiculosa L., Droseraceae)

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