Add to ORKGUnderwater adhesive secretions are a promising source of inspiration for biomedical and industrial applications. Although marine permanent adhesives have been extensively investigated, reversible adhesion, e.g. as used for locomotion and feeding, is still poorly understood. Here, we summarise the current knowledge on secretion-based, temporary adhesive systems in aquatic environments, with a special emphasis on the morphology and structure of adhesive organs and adhesive material. Many animals employing temporary adhesion to the substratum rely on so-called duo-gland adhesive organs, consisting of two secretory gland cells and one supportive cell. We give a detailed depiction of a basic duo-gland adhesive organ and variations thereof. Addit...
The adhesive and adhesive glands of the stalked barnacle Lepas anatifera were investigated using a w...
Secreted anterior adhesives, used for temporary attachment to epithelial surfaces of fishes (skin an...
Nature has developed protein-based adhesives whose underwater performance has attracted much researc...
Adhesive systems are ubiquitous in benthic animals and play a key role in diverse functions such as ...
When exploring immersed surfaces the cypris larvae of barnacles employ a tenacious and rapidly rever...
Background: Marine biological adhesives are a promising source of inspiration for biomedical and ind...
Many marine organisms harness diverse protein molecules as underwater adhesives to achieve strong an...
Meiofauna comprise animals living in aquatic sediments that are small enough to move between sedimen...
Adhesion system is of great importance to underwater grasp and manipulation, however, the adhesion s...
The flatworm Macrostomum lignano features a duo-gland adhesive system that allows it to repeatedly a...
In nature, some fish can adhere tightly to the surface of stones, aquatic plants, and even other fis...
<div><p>When exploring immersed surfaces the cypris larvae of barnacles employ a tenacious and rapid...
Abstract In biomedicine, adhesives for hard and soft tissues are crucial for various clinical purpos...
Physiochemical conditions in water are fundamentally different to those in air; hence, organisms req...
Background: Free-living flatworms, in both marine and freshwater environments, are able to adhere to...
The adhesive and adhesive glands of the stalked barnacle Lepas anatifera were investigated using a w...
Secreted anterior adhesives, used for temporary attachment to epithelial surfaces of fishes (skin an...
Nature has developed protein-based adhesives whose underwater performance has attracted much researc...
Adhesive systems are ubiquitous in benthic animals and play a key role in diverse functions such as ...
When exploring immersed surfaces the cypris larvae of barnacles employ a tenacious and rapidly rever...
Background: Marine biological adhesives are a promising source of inspiration for biomedical and ind...
Many marine organisms harness diverse protein molecules as underwater adhesives to achieve strong an...
Meiofauna comprise animals living in aquatic sediments that are small enough to move between sedimen...
Adhesion system is of great importance to underwater grasp and manipulation, however, the adhesion s...
The flatworm Macrostomum lignano features a duo-gland adhesive system that allows it to repeatedly a...
In nature, some fish can adhere tightly to the surface of stones, aquatic plants, and even other fis...
<div><p>When exploring immersed surfaces the cypris larvae of barnacles employ a tenacious and rapid...
Abstract In biomedicine, adhesives for hard and soft tissues are crucial for various clinical purpos...
Physiochemical conditions in water are fundamentally different to those in air; hence, organisms req...
Background: Free-living flatworms, in both marine and freshwater environments, are able to adhere to...
The adhesive and adhesive glands of the stalked barnacle Lepas anatifera were investigated using a w...
Secreted anterior adhesives, used for temporary attachment to epithelial surfaces of fishes (skin an...
Nature has developed protein-based adhesives whose underwater performance has attracted much researc...