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Locomotion and flow speed preferences in natural habitats by large water striders, Ptilomera tigrina, with micro-morphological adaptations for rowing

Title
Locomotion and flow speed preferences in natural habitats by large water striders, Ptilomera tigrina, with micro-morphological adaptations for rowing
Author(s)
Kim, WoojooThai Hong PhamPhuong Dung NguyenAnh Duc TranHa, JungmoonJablonski, Piotr G.Lee, Sang-im
Issued Date
2022-09
Citation
Journal of Ethology, v.40, no.3, pp.211 - 221
Type
Article
Author Keywords
Habitat preferenceLocomotionGerridaeMorphologyWater striderSetaeWater flow speedPtilomera tigrina
Keywords
HEMIPTERA HETEROPTERA GERRIDAEREMIGISLEGSWALKINGHYDRODYNAMICSINFERENCERESPONSESSELECTIONBEHAVIOR
ISSN
0289-0771
Abstract
Water strider (Gerridae) morphology and behavior have become the focus of interdisciplinary research in biological diversification and bio-inspired technology. However, the diversity of behaviors and morphology of the large-sized Gerridae have not been intensely studied. Here, we provide locomotory behaviors and legs' micro-morphology of the large South-East Asian water strider, Ptilomera tigrina. Using high-speed videography and experiments in natural habitats, as well as scanning electron microscopy of midlegs, we have determined that (1) P. tigrina individuals prefer relatively high flow speeds of 0.15-0.30 m/s, compared to other water striders previously studied, and they are also observed in very high flow speeds of up to 0.6 m/s; (2) they avoid stagnant water, but when on still and very slow flowing water they perform constant back-and-forth rowing using their midlegs; (3) their antipredatory reaction involves repetitive and very fast "protean" movements propelled by the midlegs; (4) their midleg tarsi and tibiae are equipped with brushes of ribbon-like hairs, which are used as paddles for rowing. As the locomotory behaviors and flow-speed preferences by P. tigrina require constant use of midlegs for rowing, the presence of special paddle structures on midlegs illustrates a hypothetical adaptive match between midlegs' locomotory function and their micro-morphology. © 2022, The Author(s).
URI
http://hdl.handle.net/20.500.11750/16477
DOI
10.1007/s10164-022-00749-y
Publisher
Springer Verlag
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Appears in Collections:
Department of New Biology Lab of Integrative Animal Ecology 1. Journal Articles

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