Sofia W. Chang scite author profile

Sofia W. Chang

2Publications

7Citation Statements Received

63Citation Statements Given

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106

Affiliations

University of California, Berkeley, Integra (United States)

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Canopy parkour: movement ecology of post-hatch dispersal in a gliding nymphal stick insect (Extatosoma tiaratum)

Zeng

Chang

Williams

et al. 2020

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For flightless arboreal arthropods, moving from the understory into tree canopies is cognitively and energetically challenging because vegetational structures present complex three-dimensional landscapes with substantial gaps. Predation risk and wind-induced perturbations in the canopy may further impede the movement process. In the Australian stick insect Extatosoma tiaratum, first-instar nymphs hatch on the forest floor and disperse toward tree canopies in the daytime. Here, we addressed how their tactic responses to environmental cues and movement strategies are adapted to the canopy environment. Newly hatched nymphs ascend with high endurance, travelling >100 m within 60 min. Navigation toward open canopies is underpinned by negative gravitaxis, positive phototaxis and visual responses to vertically oriented contrast patterns. Nymphal E. tiaratum also use directed jumping to cross gaps, and respond to tactile stimulation and potential threat with a self-dropping reflex, resulting in aerial descent. Post-hatch dispersal in E. tiaratum thus consists of visually mediated displacement both on vegetational structures and in the air; within the latter context, gliding is then an effective mechanism enabling recovery after predator- and perturbation-induced descent. These results further support the importance of a diurnal niche, in addition to the arboreal spatial niche, in the evolution of gliding in wingless arboreal invertebrates.

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Canopy parkour: movement ecology of post-hatch dispersal in a gliding nymphal stick insect (Extatosoma tiaratum)

Zeng

Chang

Williams

et al. 2020

Preprint

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For flightless arboreal arthropods, to move from understory toward tree canopies is cognitively and energetically expensive, because various vegetational structures form complex threedimensional landscapes with air gaps. The exposure to predation and environmental perturbations in the canopy space further obstruct the movement process. How to effectively move through the canopy space thus requires effective navigation tactics and movement skills. In the Australian stick insect Extatosoma tiaratum, the first instar nymphs hatch on the forest floor and disperse toward tree canopies in the daytime. Here, we address the movement ecology of dispersal in the E. tiaratum nymphs under controlled laboratory conditions. We found the newly hatched nymphs ascend with high endurance, accomplishing 100+ m within 60 minutes.Their navigation toward open canopies is generally directed by negative gravitaxis, positive phototaxis and tactic response to vertically oriented contrast patterns. We also found nymphal E. tiaratum use directed jumping to cross air gaps and respond to tactile stimulations and potential threat with self-dropping reflexes, actions which both lead to aerial descent. In sum, the post-hatch dispersal in E. tiaratum consists of various visually mediated movements both on vegetational structures and in air, within which context gliding is an effective mechanism for height recovery after predator-and perturbation-induced descent. These results further support the fundamental role of a diurnal temporal niche, in addition to spatial niche, to the evolution of gliding in wingless arboreal invertebrates.

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Sofia W. Chang

Canopy parkour: movement ecology of post-hatch dispersal in a gliding nymphal stick insect (Extatosoma tiaratum)

Canopy parkour: movement ecology of post-hatch dispersal in a gliding nymphal stick insect (Extatosoma tiaratum)

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