Passive water collection with the integument: mechanisms and their biomimetic potential

Comanns, Philipp

doi:10.1242/jeb.153130

Cited by 24 publications

(15 citation statements)

References 128 publications

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“…A variety of functional materials, such as amphiphilic surfaces and artificial cactus spines, have been developed for saturated (fog) water harvesting, − and some novel aerodynamic designs have been inspired by other surface morphologies. For example, Harris et al reported a biomimetic structured surface for atmospheric saturated water harvesting inspired by the Stenocara beetle, which has an irregular textured shell with hydrophilic sites on its hydrophobic shell background. − To mimic this unique structure, hydrophobic polystyrene (PS) and hydrophilic poly(4-vinylpyridine) (P4VP) were subsequently coated on a substrate to afford a dual-layered coating (Figure ). Due to poor compatibility, the P4VP segments tend to minimize its contact areas with PS under high-temperature annealing, resulting in the connection among isolated P4VP spheres on top of the PS layer.…”

Section: Saturated Water Harvestingmentioning

confidence: 99%

Recent Development of Atmospheric Water Harvesting Materials: A Review

et al. 2022

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The lack of freshwater has been threatening many people who are living in Africa, the Middle East, and Oceania, while the discovery of freshwater harvesting technology is considered a promising solution. Recent advances in structured surface materials, metal–organic frameworks, hygroscopic inorganic compounds (and derivative materials), and functional hydrogels have demonstrated their potential as platform technologies for atmospheric water (i.e., supersaturated fog and unsaturated water) harvesting due to their cheap price, zero second energy requirement, high water capture capacity, and easy installation and operation compared with traditional water harvesting methods, such as long-distance water transportation, seawater desalination, and electrical dew collection devices in rural areas or individual-scale emergent usage. In this contribution, we highlight recent developments in functional materials for “passive” atmospheric water harvesting application, focusing on the structure–property relationship (SPR) to illustrate the transport mechanism of water capture and release. We also discuss technical challenges in the practical applications of the water harvesting materials, including low adaptability in a harsh environment, low capacity under low humidity, self-desorption, and insufficient solar-thermal conversion. Finally, we provide insightful perspectives on the design and fabrication of atmospheric water harvesting materials.

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Section: Saturated Water Harvestingmentioning

confidence: 99%

Recent Development of Atmospheric Water Harvesting Materials: A Review

et al. 2022

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“…Examples include toads and frogs. Amphibians have developed morphological and behavioural adaptations capable of acting together to maintain the hydric balance [10,56,57]. Amphibians typically absorb water through the skin.…”

Section: (E) Amphibiansmentioning

confidence: 99%

Passive water harvesting by desert plants and animals: lessons from nature

Gurera

Bhushan

2020

Phil. Trans. R. Soc. A.

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Fresh water sustains human life and is vital for human health. For some of the poorest countries, 1 in 10 people do not have access to safe and easily accessible water sources. Water consumption by man continues to grow with an increasing population. The current supply of fresh water needs to be supplemented to meet future needs. Living nature provides many lessons for water harvesting. It has evolved species which can survive in the most arid regions of the world by passively collecting water from fog and condensation of water vapour in the night. Before the collected water evaporates, species have mechanisms to transport water for storage or consumption. These species possess unique chemistry and structures on or within the body for collection and transport of water. Among the high diversity of species surviving in deserts, only a handful of species have been studied. Based on lessons from nature, bioinspired water harvesters can be designed. In this paper, an overview of various desert plants and animals is given and known water harvesting mechanisms of some are presented. This article is part of the theme issue ‘Bioinspired materials and surfaces for green science and technology (part 3)’.

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“…The extreme xerophily of tenebrionids has fascinated researchers from a wide variety of fields. As a result species such as the Namibian fog basking beetle ( Onymacris unguicularis Haag) have been incorporated into biology-inspired engineering projects seeking solutions for efficient cooling and hydration systems 11 , 12 . Nevertheless, available studies on this matter are often taxonomically restricted leaving the dazzling potential of darkling beetles largely untouched—especially in the context of larval behaviour and ecology.…”

Section: Introductionmentioning

confidence: 99%

Fossoriality in desert-adapted tenebrionid (Coleoptera) larvae

Raś

Kamiński

Iwan

2022

Sci Rep

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In many extreme arid ecosystems, insects constitute major faunal components and are key contributors in nutrient cycling. Previous research on xerophily in insects has focused on adult forms. This study investigates skeletomuscular and behavioural adaptations of the Kalahari sandworm beetle larvae (Gonopus tibialis Fabricius) for dwelling in the sand. Microcomputed tomography enabled cuticle thickness distribution analysis, revealing structural reinforcements of the mandibular edge, the middle part of the head, and the ventral side of the front legs. Laboratory observations and the analysis of muscular system allowed for the definition and functional description of the elements of the digging apparatus of the sandworm larvae. Obtained results point to the crucial role of the head and mandibles in the digging process. These observations are important for understanding desert ecology and pose a challenge to develop newer excavation techniques.

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Passive water collection with the integument: mechanisms and their biomimetic potential

Cited by 24 publications

References 128 publications

Recent Development of Atmospheric Water Harvesting Materials: A Review

Recent Development of Atmospheric Water Harvesting Materials: A Review

Passive water harvesting by desert plants and animals: lessons from nature

Fossoriality in desert-adapted tenebrionid (Coleoptera) larvae

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