sp.'' sitting on
web decorations at the center of the web There are a few types of spider webs found in the wild, and many spiders are classified by the webs they weave. Different types of spider webs include: • Spiral orb webs, associated primarily with the family
Araneidae, as well as
Tetragnathidae and
Uloboridae • Tangle webs or cobwebs, associated with the family
Theridiidae • Funnel webs, with associations divided into
primitive and
modern • Tubular webs, which run up the bases of trees or along the ground • Sheet webs Several different types of
silk may be used in web construction, including a "
sticky" capture silk and "fluffy" capture silk, depending on the type of spider. Webs may be in a vertical plane (most orb webs), a horizontal plane (sheet webs), or at any angle in between. It is hypothesized that these types of aerial webs co-evolved with the evolution of winged insects. As insects are spiders' main prey, it is likely that they would impose strong selectional forces on the foraging behavior of spiders. Most commonly found in the sheet-web spider families, some webs will have loose, irregular tangles of silk above them. These tangled obstacle courses serve to disorient and knock down flying insects, making them more vulnerable to being trapped on the web below. They may also help to protect the spider from predators such as
birds and
wasps. It is reported that several
Nephila pilipes individuals can collectively construct an aggregated web system to counter bird predation from all directions.
Orb web construction Most orb weavers construct webs in a vertical plane, although there are exceptions, such as
Uloborus diversus, which builds a horizontal web. During the process of making an orb web, the spider will use its own body for measurements. There is variation in web construction among orb-weaving spiders, in particular, the species
Zygiella x-notata is known for its characteristic missing sector web crossed by a single signal thread. Many webs span gaps between objects which the spider could not cross by crawling. This is done by first producing a fine adhesive thread to drift on a faint breeze across a gap. When it sticks to a surface at the far end, the spider feels the change in the vibration. The spider reels in and tightens the first strand, then carefully walks along it and strengthens it with a second thread. This process is repeated until the thread is strong enough to support the rest of the web. After strengthening the first thread, the spider continues to make a Y-shaped netting. The first three radials of the web are now constructed. More radials are added, making sure that the distance between each radial and the next is small enough to cross. This means that the number of radials in a web directly depends on the size of the spider plus the size of the web. It is common for a web to be about 20 times the size of the spider building it. After the radials are complete, the spider fortifies the center of the web with about five circular threads. It makes a spiral of non-sticky, widely spaced threads to enable it to move easily around its own web during construction, working from the inside outward. Then, beginning from the outside and moving inward, the spider methodically replaces this spiral with a more closely spaced one made of adhesive threads. It uses the initial radiating lines as well as the non-sticky spirals as guide lines. The spaces between each spiral and the next are directly proportional to the distance from the tip of its back legs to its spinners. This is one way the spider uses its own body as a measuring/spacing device. While the sticky spirals are formed, the non-adhesive spirals are removed as there is no need for them any more. After the spider has completed its web, it chews off the initial three center spiral threads then sits and waits, usually with the head facing downwards. If the web is broken without any structural damage during the construction, the spider does not make any initial attempts to rectify the problem. The spider, after spinning its web, then waits on or near the web for a prey animal to become trapped. The spider senses the impact and struggle of a prey animal by vibrations transmitted through the web. A trap line is constructed by some species specifically to transmit this vibration. A spider positioned in the middle of the web makes for a highly visible prey for birds and other predators, even without
web decorations; many day-hunting orb-web spinners reduce this risk by hiding at the edge of the web with one foot on a signal line from the hub or by appearing to be inedible or unappetizing. Spiders do not usually adhere to their own webs, because they are able to spin both sticky and non-sticky types of silk, and are careful to travel across only non-sticky portions of the web. However, they are not immune to their own glue. Some of the strands of the web are sticky, and others are not. For example, if a spider has chosen to wait along the outer edges of its web, it may spin a non-sticky prey or signal line to the web hub to monitor web movement. However, in the course of spinning sticky strands, spiders have to touch these sticky strands. They do this without sticking by using careful movements, dense hairs and nonstick coatings on their feet to prevent adhesion. File:Typical-orb-web-photo.jpg|A typical orb web constructed by an
Araneus (family
Araneidae) spider File:Garden orb weaver05.jpg|
Australian garden orb weaver spider, after having captured prey == Uses ==