Add to ORKGSpiders spin a variety of silk fibers and integrate them into webs with a wide range of architectures. Combined with clever behavioral strategies, these webs serve as effective prey capture devices. One of the most stereotypical and familiar web forms is the orb web, characterized by radiating lines of dry silk that support a sticky capture spiral. Dragline silk forms the attachment lines, perimeter frame lines, and radial scaffolding. These dragline threads are the most investigated spider silk fibers due to their strength and toughness. By comparison, the orb web’s adhesive capture threads have been largely ignored, which is rather surprising, as they hold insects in the web until a spider can subdue them. Here, we discuss two of the most...
Abstract Spider capture silk is a natural scaffolding material that outperforms most synthetic mater...
Mechanical performance of biological structures, such as tendons, byssal threads, muscles, and spide...
Silk is a key innovation in spiders, fascinating both biologists and material scientists. However, t...
Spiders employ clever behavioral strategies combined with almost invisible custom-made adhesive silk...
Orb-weaving spiders rely on sticky capture threads to retain prey long enough to be located and atta...
Spiders construct a wide variety of silk structures, ranging from draglines to prey capture webs. Sp...
Spiders’ cobwebs ensnare both walking and flying prey. While the scaffolding silk can entangle flyin...
Spiders\u27 cobwebs ensnare both walking and flying prey. While the scaffolding silk can entangle fl...
Orb-web weaving spiders depend upon the mechanical performance of capture threads to absorb the ener...
Orb-weaving spiders produce webs using two types of silk that have radically different mechanical pr...
Our understanding of the extraordinary mechanical and physico-chemical properties of spider silk is ...
Spiders are an incredibly diverse group, encompassing over 40,000 described species, and they make a...
Spider silk is renowned for its high tensile strength, extensibility and toughness. However, the var...
ABSTRACT: Capture silks are an interesting class of biological glues that help spiders subdue their ...
The kinetic energy of flying insect prey is a formidable challenge for orb-weaving spiders. These sp...
Abstract Spider capture silk is a natural scaffolding material that outperforms most synthetic mater...
Mechanical performance of biological structures, such as tendons, byssal threads, muscles, and spide...
Silk is a key innovation in spiders, fascinating both biologists and material scientists. However, t...
Spiders employ clever behavioral strategies combined with almost invisible custom-made adhesive silk...
Orb-weaving spiders rely on sticky capture threads to retain prey long enough to be located and atta...
Spiders construct a wide variety of silk structures, ranging from draglines to prey capture webs. Sp...
Spiders’ cobwebs ensnare both walking and flying prey. While the scaffolding silk can entangle flyin...
Spiders\u27 cobwebs ensnare both walking and flying prey. While the scaffolding silk can entangle fl...
Orb-web weaving spiders depend upon the mechanical performance of capture threads to absorb the ener...
Orb-weaving spiders produce webs using two types of silk that have radically different mechanical pr...
Our understanding of the extraordinary mechanical and physico-chemical properties of spider silk is ...
Spiders are an incredibly diverse group, encompassing over 40,000 described species, and they make a...
Spider silk is renowned for its high tensile strength, extensibility and toughness. However, the var...
ABSTRACT: Capture silks are an interesting class of biological glues that help spiders subdue their ...
The kinetic energy of flying insect prey is a formidable challenge for orb-weaving spiders. These sp...
Abstract Spider capture silk is a natural scaffolding material that outperforms most synthetic mater...
Mechanical performance of biological structures, such as tendons, byssal threads, muscles, and spide...
Silk is a key innovation in spiders, fascinating both biologists and material scientists. However, t...