Locomotion with a twist: Aquatic beetle walks upside down on the underside of the water's surface

Gould, John; Valdez, Jose W.

doi:10.1111/eth.13203

Cited by 4 publications

(1 citation statement)

References 37 publications

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“…Recently, a research team in Australia observed an unidentified beetle (most likely family Hydrophilidae) that was capable of walking upside-down on the underside of the water’s surface without penetrating the surface. The appearance of an air bubble on the abdomen of the beetle was visible but currently, the exact mechanisms of how the beetle is capable of this feat or what cuticular features are involved are unknown [ 112 ].…”

Section: Hydrophobic Cuticular Structures Found In Insectsmentioning

confidence: 99%

Staying Dry and Clean: An Insect’s Guide to Hydrophobicity

Bello

Alleyne

2022

Insects

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Insects demonstrate a wide diversity of microscopic cuticular and extra-cuticular features. These features often produce multifunctional surfaces which are greatly desired in engineering and material science fields. Among these functionalities, hydrophobicity is of particular interest and has gained recent attention as it often results in other properties such as self-cleaning, anti-biofouling, and anti-corrosion. We reviewed the historical and contemporary scientific literature to create an extensive review of known hydrophobic and superhydrophobic structures in insects. We found that numerous insects across at least fourteen taxonomic orders possess a wide variety of cuticular surface chemicals and physical structures that promote hydrophobicity. We discuss a few bioinspired design examples of how insects have already inspired new technologies. Moving forward, the use of a bioinspiration framework will help us gain insight into how and why these systems work in nature. Undoubtedly, our fundamental understanding of the physical and chemical principles that result in functional insect surfaces will continue to facilitate the design and production of novel materials.

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Section: Hydrophobic Cuticular Structures Found In Insectsmentioning

confidence: 99%

Staying Dry and Clean: An Insect’s Guide to Hydrophobicity

Bello

Alleyne

2022

Insects

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Morphology of the egg-case and larva of Paracymus aeneus (Germar) (Coleoptera: Hydrophilidae)

MINOSHIMA,

WATANABE

2024

Zootaxa

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The generic and species identity of previously described larva of Paracymus aeneus (Germar, 1824), the type species of the genus Paracymus Thomson, 1867, has been a subject of controversy owing to their morphological similarity to the genus Anacaena Thomson, 1859. In this study, we describe morphology of the egg-case and all three instar larvae of P. aeneus based on Japanese specimens obtained through rearing and provide the biological information on the species under rearing conditions. The morphology of the larvae corresponds with that of known Paracymus larvae rather than Anacaena. Consequently, larvae previously described as P. aeneus do not belong this species. Therefore, this is the first description of the immature stages of P. aeneus.

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Surface crawling and pedal surface collecting in aquatic gastropods: A case of scientific amnesia

Peters¹

2022

Folia Malacol.

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Aquatic gastropods, both freshwater and marine, often crawl along the water surface with the sole of the foot facing upward. Differential regulation of the activity of cilia on the sole turns the gliding mechanism into pedal surface collecting, by which food particles floating on the water are collected on the sole. Over the last 300 years, surface crawling and pedal surface collecting have been studied in numerous species, but the accumulated knowledge has fallen victim to scientific amnesia. Today, pedal surface collecting usually is considered a unique behaviour that evolved in the family Ampullariidae (Caenogastropoda), which includes the genus Pomacea with some of the globally worst invasive pests. Consequently it may appear feasible to tackle invasive Pomacea species specifically by delivering molluscicides via the water surface. Based on a review of our forgotten literature, I here argue that such an approach would have potentially devastating, unintended effects on native gastropod faunas.

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Locomotion with a twist: Aquatic beetle walks upside down on the underside of the water's surface

Cited by 4 publications

References 37 publications

Staying Dry and Clean: An Insect’s Guide to Hydrophobicity

Staying Dry and Clean: An Insect’s Guide to Hydrophobicity

Morphology of the egg-case and larva of Paracymus aeneus (Germar) (Coleoptera: Hydrophilidae)

Surface crawling and pedal surface collecting in aquatic gastropods: A case of scientific amnesia

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