Spider

From New World Encyclopedia
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Spiders
Crab spider
Crab spider Xysticus sp.
Scientific classification
Kingdom: Animalia
Phylum: Arthropoda
Class: Arachnida
Order: Araneae
Clerck, 1757
Suborders

Araneomorphae
Mesothelae
Mygalomorphae
(111 families, 40,000 species)

Spiders are predatory, invertebrate animals with two body segments, eight legs, no chewing mouth parts, and no wings. They are classified in the order Araneae, one of several orders within the larger class of arachnids, a group which also contains scorpions, whip scorpions, mites, ticks, and opiliones (harvestmen). The study of spiders is known as arachnology.

All spiders produce silk, a thin, strong protein strand extruded by the spider from spinnerets most commonly found on the end of the abdomen. Many species use it to trap insects in webs, although there are many species that hunt freely. Silk can be used to aid in climbing, form smooth walls for burrows, build egg sacs, wrap prey, and temporarily hold sperm, among other applications.

All spiders except those in the families Uloboridae and Holarchaeidae and in the suborder Mesothelae (together about 350 species) can inject venom to protect themselves or to kill and liquefy prey. Only up to 200 species, however, have bites that can pose health problems to humans (Diaz 2004). Many larger species' bites may be painful, but will not produce lasting health concerns.

An abnormal fear of spiders (arachnophobia) is one of the most common phobias and spiders are often looked at as something to be eliminated. But in fulfilling their own individual purpose of survival, maintenance, and reproduction, spiders also provide a valuable role in ecosystems and for human beings. ecologically, they offer important control of insects and other prey populations. For humans, while many spiders are linked to fatalities or have dangerous venoms, they are unlikely to intentionally bite people unless pinched, or otherwise threatened. However, they add to the wonder and diversity of nature, and some are even eaten routinely as food or as delicacy. They are also common animals in popular culture, folklore, and symbolism.

Closeup image of a wolf spider

Morphology

Spiderlings on a web
The exuvia of a spider after molting
Spider anatomy:
(1) four pairs of legs
(2) cephalothorax
(3) opisthosoma

Spiders, unlike insects, have only two body segments (a trait called tagmata) instead of three: a fused head and thorax (called a cephalothorax or prosoma) and an abdomen (called the opisthosoma). The exception to this rule are the assassin spiders, whose cephalothorax seems to be almost divided into two independent units. Except for a few species of very primitive spiders (family Liphistiidae), the abdomen is not externally segmented.

The abdomen and cephalothorax are connected with a thin waist called the pedicle or the pregenital somite, a trait that allows the spider to move the abdomen in all directions. This waist is actually the last segment (somite) of the cephalothorax and is lost in most other members of the Arachnida (in scorpions, it is only detectable in the embryos).

Cephalothorax

All spiders have eight legs, although a few ant-mimicking species use their front legs to imitate antennae, which spiders lack. Their eyes are single lenses rather than compound eyes, ranging from simple light/dark-receptors to eyes rivaling those of a pigeon (some jumping spiders).

They have pedipalps (or just palps), which are appendages near the mouth. At the base of the palps are coxae or maxillae that aid in ingesting food; the ends of the palp are modified in adult males into elaborate and often species-specific structures used for mating. Since they do not have any antennae, they use specialized and sensitive hairs on their legs to pick up scent, sounds, vibrations, and air currents.

Spiders lack the ability to chew their food. Instead, like other arachnids, they have a tiny proboscis that they use to suck up the liquid parts of their prey. Spiders usually eat the silk from their own webs when it comes time to make a new web, which makes sense since silk is composed largely of protein and web-making requires a great deal of energy.

Coloration

Only three classes of pigment (ommochromes, bilins, and guanine) have been identified in spiders, although other pigments have been detected but not yet characterized. Melanins, carotenoids, and pterins, very common in other animals, are apparently absent. In some species the exocuticle of the legs and prosoma is modified by a tanning process, resulting in brown coloration (Oxford and Gillespie 1998).

Bilins are found, for example, in Micrommata virescens, resulting in their green color. Guanine is responsible for the white markings of the European garden spider Araneus diadematus. Guanine appears in many species, accumulated in specialized cells called guanocytes. In genera such as Tetragnatha, Leucauge, Argyrodes, or Theridiosoma, guanine creates their silvery appearance. While guanine is originally an end-product of protein metabolism, its excretion can be blocked in spiders, leading to an increase in its storage (Oxford and Gillespie 1998).

Structural colors occur in some species, resulting from the diffraction, scattering, or interference of light, for example by modified setae or scales. The white prosoma of Argiope results from hairs reflecting the light, Lycosa and Josa both have areas of modified cuticle that act as light reflectors (Oxford and Gillespie 1998).

Digestion

Digestion is carried out internally and externally. Spiders that do not have powerful chelicerae (fanglike structures near the mouth, which aid in grasping or piercing objects) secrete digestive fluids into their prey from a series of ducts perforating their chelicerae. These digestive fluids dissolve the prey's internal tissues. Then the spider feeds by sucking the partially digested fluids out. Other spiders with more powerfully built chelicerae masticate the entire body of their prey and leave behind only a relatively small residue of indigestible materials. Spiders consume only liquid foods.

Many spiders will store prey temporarily. Web-weaving spiders that have made a shroud of silk to quiet their envenomed prey's death struggles will generally leave them in these shrouds and then consume them at their leisure.

A spider in the process of wrapping a bluebottle caught in its web
Rear side of a spider

Respiration and circulation

Spiders have an open circulatory system; i.e., they do not have true blood, or veins to convey it. Rather, their bodies are filled with haemolymph, which is pumped through arteries by a heart into spaces called sinuses surrounding their internal organs.

Spiders have developed several different respiratory anatomies, based either on book lungs, a tracheal system, or both. Mygalomorph and Mesothelae spiders have two pairs of book lungs filled with haemolymph, where openings on the ventral surface of the abdomen allow air to enter and diffuse oxygen. This is also the case for some basal araneomorph spiders like the family Hypochilidae, but the remaining members of this group have just the anterior pair of book lungs intact while the posterior pair of breathing organs are partly or fully modified into tracheae, through which oxygen is diffused into the haemolymph or directly to the tissue and organs. This system has most likely evolved in small ancestors to help resist desiccation. The trachea were originally connected to the surroundings through a pair of spiracles (openings on the thorax or abdomen), but in the majority of spiders this pair of spiracles has fused into a single one in the middle, and migrated posterior close to the spinnerets.

Among smaller araneomorph spiders, we can find species who have evolved also the anterior pair of book lungs into trachea, or the remaining book lungs are simply reduced or missing. In a very few, the book lungs have developed deep channels, apparently signs of evolution into tracheae.

Some very small spiders in moist and sheltered habitats have no breathing organs at all, and instead breathe directly through their body surface.

In the tracheal system, oxygen interchange is much more efficient, enabling cursorial hunting (hunting involving extended pursuit) and other advanced characteristics as having a smaller heart and the ability to live in drier habitats.

Sense organs

Spiders usually have eight eyes in various arrangements, a fact which is used to aid in taxonomically classifying different species. Most species of the Haplogynae have six eyes, although some have eight (Plectreuridae), four (eg., Tetrablemma), or even two (most Caponiidae) eyes. Sometimes one pair of eyes is more well-developed than the rest, or even, in some cave species, there are no eyes at all. Several families of hunting spiders, such as jumping spiders and wolf spiders, have fair to excellent vision. The main pair of eyes in jumping spiders even sees in colors.

However, most spiders that lurk on flowers, webs, and other fixed locations waiting for prey tend to have very poor eyesight; instead they possess an extreme sensitivity to vibrations, which aids in prey capture. Vibration sensitive spiders can sense vibrations from such various mediums as the water surface, the soil or their silk threads. Changes in the air pressure can also be detected in the search for prey.

The multiple eyes and hairy body of a Huntsman Spider

Size

Spiders occur in a large range of sizes. The smallest, members of the subfamily Micryphantinae, are less than one millimeter long (i.e., less than about .05 inches) in body length. The largest and heaviest spiders occur among the tarantulas, which can have body lengths as great as nine centimeters. (i.e., about 3.5 inches) and leg spans as great as 25 centimeters. (i.e., about 10 inches) (Levi and Levi 2001).

Spinnerets

The abdomen of the spider has no appendages except from one to four (usually three) modified pairs of movable telescoping organs called spinnerets, which produce silk. The suborder Mesothelae is unique in having only two types of silk glands—thought to be the ancestral condition. All other spiders have the spinnerets further towards the posterior end of the body where they form a small cluster, and the anterior central spinnerets on the tenth segment are lost or reduced (suborder Mygalomorphae), or modified into a specialized and flattened plate called the cribellum (parts of suborder Araneomorphae), which produces a thread made up of hundreds to thousands of very fine dry silk fibers resulting in a woolly structure that traps prey. The cribellate spiders were the first spiders to build specialized prey-catching webs. Later, some groups (called ecribellate) evolved that use silk threads dotted with sticky droplets to capture prey ranging from small arthropods to sometimes even small bats and birds.

Behavior

Spiders show a wide range of behavior, from the ballet-like mating dances of certain jumping spiders to the seeming athletics of bolas spiders snatching their prey. Most diversity comes with the mode of predation, for example whether the spider waits for the prey in its orb web or hunts it down.

Defense

All spiders will attempt to protect themselves by biting, especially if they are unable to flee. Some tarantulas have a second kind of defense, a patch of urticating (stinging, or whipping) hair, or urticating setae, on their abdomens, which is generally absent on modern spiders and Mesothelae. These ultra-fine hairs cause irritation and sometimes even allergic reactions in the attacker. Certain other species have specialized defense tactics. For example, the golden wheeling spider (Carparachne aureoflava) of the desert of Namibia escapes tarantula hawks (a species of wasp that lays its eggs in a paralyzed spider so the larvae have enough food when they hatch) by flipping onto its side and cartwheeling away.

Predatory techniques

A spider hiding in its leaf (located at the center of its web)

There are many families of spiders, and the ways that they catch prey are diverse. But whether they catch insects, fish, small mammals, small birds, or some other small form of life, as soon as a spider makes contact with its prey it will generally attempt to bite it.

Spiders bite their prey, and occasionally animals that cause them pain or threaten them, for two purposes. First, they inflict mechanical damage, which, in the case of a spider that is as large as or larger than its prey, can be severe. Second, they can choose to inject venom through their hollow fangs. Many genera, such as the widow spiders, inject neurotoxins that can spread through the prey's entire body and interfere with vital body functions. Other genera inject venom that operates to produce tissue damage at the site of the bite. Genera such as that of the brown recluse spider produce a necrotoxin. The necrotoxin is injected into prey where it causes the degradation of cell membranes. In the larger victims that do not die from these attacks, painful lesions over a fairly wide area of the body can remain active for fairly long periods of time. The spitting spiders have modified their poison glands to produce a mixture of venom and sticky substance that works as glue and immobilizes the prey.

Although there are no vegetarian spiders, some species in the families Anyphaenidae, Corinnidae, Clubionidae, Thomisidae, and Salticidae have been observed feeding on plant nectar (Jackson et al. 2001). Several spider species are also known to feed on bananas, marmalade, milk, egg yolk, and sausages in captivity (Jackson et al. 2001).

Ambush predators

Some spiders actively lure prey (the Bolas spiders) and may capture them with a sticky ball of silk on a line; others (like the crab spiders, trapdoor spiders, or the six-eyed sand spider) wait in a high-traffic area and directly attack their prey from ambush.

Hunting spiders

An ant-mimicking jumping spider
Wolf spider, an active hunter

Many spiders do not build webs for catching prey, but rather hunt on ground or in plants. Some examples include:

  • Brazilian wandering spiders
  • Brown recluse spiders
  • Huntsman spiders
  • Jumping spiders
  • Lynx spiders
  • Nursery web spiders
  • Spitting spiders
  • Tarantulas
  • Wolf spiders (Lycosidae)
  • Yellow sac spiders
  • Assassin spiders

Spider webs

Some spiders spin funnel-shaped webs, others make sheet webs; spiders like the black widow make tangled, maze-like, webs, and still others make the spiral "orb" webs that are most commonly associated with spiders. These webs may be made with sticky capture silk, or with "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. Most commonly made by members of 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 aerial predators such as birds and wasps.

The spider, after spinning its web, will then wait on, or near, the web for a prey animal to become trapped. The spider can sense the impact and struggle of a prey animal by vibrations transmitted along the web lines.

Other species of spiders do not use webs for capturing prey, instead pouncing from concealment (e.g. trapdoor spiders) or running them down in open chase (e.g. wolf spiders). The net-casting spider balances the two methods of running and web-spinning in its feeding habits. This spider weaves a small net which it attaches to its front legs. It then lurks in wait for potential prey and, when such prey arrives, lunges forward to wrap its victim in the net, bite and paralyze it. Hence, this spider expends less energy catching prey than a primitive hunter such as the Wolf spider. It also avoids the energy cost of weaving a large orb-web. The diving bell spider does not use its web directly in prey capture, but has modified it into an underwater diving bell. Even species whose ancestors were building spiral orb webs have given rise to spiders who no longer make webs, for instance some Hawaiian spiny-legged spiders (genus Tetragnatha, family Tetragnathidae) which have abandoned web construction entirely.

Some spiders manage to use the 'signaling snare' technique of a web without spinning a web at all. Several types of water-dwelling spiders will rest their feet on the water's surface in much the same manner as an orb-web user. When an insect falls onto the water and is ensnared by surface tension, the spider can detect the vibrations and run out to capture the prey.

Social spiders

A few species of spiders that build webs live together in large colonies and show social behavior, albeit not as well evolved as in social insects. The most social species is probably Anelosimus eximius, which can form colonies of up to fifty thousand individuals.

Life cycle

Golden orb weavers in Parque Nacional Corcovado, Costa Rica: a female in the foreground and a male behind her
Pisaura mirabilis guarding her egg sac
Bird dropping spider with its unusual eggs

The spider life cycle progresses through three stages: the embryonic, the larval, and the nympho-imaginal.

The time between egg fertilization and initial emergence of adult physical shape is referred to as the embryonic stage. As the spider enters the larval stage, it begins to look more and more like a full grown spider. It enters the larval stage as a prelarva and, through subsequent molts (periodic shedding of the cuticle), reaches its larval form, a spider-shaped animal feeding off its yolk supply. After a few more molts (also called instars) body structures become differentiated. Soon, all organ systems are complete and the animal begins to hunt on its own; it has reached the nympho-imaginal stage (Foelix 1996).

This stage is differentiated into two sub-stages: the nymph, or juvenile stage and the imago, or adult stage. A spider does not become sexually mature until it makes the transition from nymph to imago (Foelix 1996). Once a spider has reached the imago stage, it will remain there until its death. After sexual maturity is reached, the general rule is that they stop molting, but the females of some non-araneomorph species will continue to molt the rest of their lives.

Many spiders may only live for about a year, but a number will live two years or more, overwintering in sheltered areas. The annual influx of 'outdoor' spiders into houses in the fall is due to this search for a warm place to spend the winter. It is common for tarantulas to live around 20 years.

Reproduction

Spiders reproduce by means of eggs, which are packed into silk bundles called egg sacs. Spiders often use elaborate mating rituals (especially the visually advanced jumping spiders) to allow conspecifics to identify each other and to allow the male to approach and inseminate the female without triggering a predatory response. If the approach signals are exchanged correctly, the male spider must (in most cases) make a timely departure after mating to escape before the female's normal predatory instincts return.

Sperm transmission from male to female occurs indirectly. When a male is ready to mate, he spins a web pad upon which he discharges his seminal fluid. He then dips his pedipalps (also known as palpi), the small, leg-like appendages on the front of his cephalothorax, into the seminal fluid, picking it up by capillary attraction. Mature male spiders have swollen bulbs on the end of their palps for this purpose, and this is a useful way to identify the sex of a spider in the field. With his palps thus charged, he goes off in search of a female. Copulation occurs when the male inserts one or both palps into the female's genital opening, known as the epigyne. He transfers his seminal fluid into the female by expanding the sinuses in his palp. Once the sperm is inside her, she stores it in a chamber and only uses it during the egg-laying process, when the eggs come into contact with the male sperm for the first time and are fertilized; this may be why the vivipary (development of an embryo inside of the mother's body) has never evolved in spiders.

Very unusual behavior is seen in spiders of the genus Tidarren: the male amputates one of his palps before maturation and enters his adult life with one palp only. The palpi constitute twenty percent of the body mass of males of this species, and since this weight greatly impedes its movement, by detaching one of the two he gains increased mobility. In the Yemeni species Tidarren argo, the remaining palp is then torn off by the female. The separated palp remains attached to the female's epigynum for about four hours and apparently continues to function independently. In the meantime, the female feeds on the palpless male (Knoflach and van Harten 2001).

Sacrificial males

It is a common belief that male spiders, which usually are significantly smaller than the females, are likely to be killed after or during mating, or sometimes even before mating can occur.

Even in some species of black widow, which are named exactly for this belief, the male may live in the female's web for some time without being harmed. However, the male of the closely related Australian redback spider is killed ritually by the females after it inserts its second palpus in the female genital opening; in over sixty percent of cases the female then eats the male (Andrade 2003). Males that 'sacrifice' themselves gain the benefit of increasing their paternity relative to males who do not get cannibalized, by feeding the egg-laying female.

In many other species, males are only sometimes killed by females. In at least some of these cases, it is likely that the males are simply mistaken as prey.

Ecology

Spiders have a great range of variation and lifestyle, although all are predatory.

While spiders are generalist predators, in actuality their different methods of prey capture often determine the type of prey taken. Thus web-building spiders rarely capture caterpillars, and crab spiders that ambush prey in flowers capture more bees, butterflies, and some flies than other insects. Groups of families that tend to take certain types of prey because of their prey capture methods are often called guilds. A few spiders are more specialized in their prey capture. Spiders of the genus Dysdera capture and eat sowbugs, pillbugs, and beetles, while pirate spiders eat only other spiders. Bolas spiders in the family Araneidae use sex pheromone analogs to capture only the males of certain moth species.

Despite their generally broad prey ranges, spiders are one of the most important links in the regulation of the populations of insects. Every day in an average meadow, they devour over 10 g/m² of insects and other arthropods.

Evolution

Trigonotarbids, spider-like arachnids, were among the oldest known land arthropods. Like spiders, they were terrestrial, respired through book lungs (the respiratory organ characteristic of some arachnids, unrelated evolutionarily to mammalian lungs), and walked on eight legs with two additional legs adapted to use around their mouth. However, they were not true spiders, not even ancestral to them, but represented independent offshoots of the Arachnida.

True spiders (thin-waisted arachnids) evolved about 400 million years ago, and were among the first species to live on land. They are distinguished by abdominal segmentation and silk producing spinnerets. The Pedipalpi (including whip scorpions) are believed to constitute the sister group to the Araneae (Coddington and Levi 1990)

Most of the early segmented fossil spiders belonged to the Mesothelae, a group of primitive spiders with the spinnerets placed underneath the middle of the abdomen, rather than at the end as in modern spiders (Opisthothelae). They were probably ground-dwelling predators of other primitive arthropods. Silk may have been used simply as a protective covering for the eggs, a lining for a retreat hole, and later perhaps for simple ground sheet web and trapdoor construction.

As plant and insect life diversified so also did the spider's use of silk. Spiders with spinnerets at the end of the abdomen (Mygalomorphae and Araneomorphae) appeared more than 250 million years ago, presumably promoting the development of more elaborate sheet and maze webs for prey capture both on ground and foliage, as well as the development of the safety dragline. (Webs can be used as 'safety draglines' with the purpose of tethering the spider; if a spider is blown off a tree branch the dragline can help it to return to its position.)

By the Jurassic period, the sophisticated aerial webs of the orb-weaving spiders had already developed to take advantage of the rapidly diversifying groups of insects. A spider web preserved in amber, thought to be 110 million years old, shows evidence of a perfect orb web. It is believed that adhesive capture threads, as opposed to cribellate threads (more primitive threads with less total stickiness, and thus effectiveness of catching prey, than adhesive capture threads), evolved about 135 million years ago (Opell 1997).

The ability to weave orb webs is thought to have been "lost," and sometimes even re-evolved or evolved separately, in different breeds of spiders since its first appearance.

Web types

Orb web spiders

Nephila clavata, a golden orb weaver

Spiders in several families (eg., Araneidae, Tetragnathidae, Nephilidae) spin the familiar spiral snare that most people think of as the typical spider web. On average, an orb-weaving spider takes 30 minutes to an hour to weave a web. They range in size from quite large (six or more centimeters) to very small (less than one centimeter), but all are quite harmless to humans. Many of the daytime hunters have a 'ferocious' appearance, with spines or large 'fangs', but they are almost invariably inoffensive, preferring to drop on a dragline to the ground when disturbed rather than bite.

Tangleweb spiders

Members of this group (family Theridiidae) are characterized by irregular, messy-looking, tangled, three-dimensional (non-sticky) webs, generally low and anchored to the ground or floor and wall. They are commonly found in or near buildings; some build webs in bushes. The spider generally hangs in the center of its web, upside-down. Prey is generally ground-dwelling insects such as ants or crickets, in addition to small, flying insects. These include the infamous black widows, the minute happyface spider, and thousands of other species.

Various other forms of webs

Many other groups spin webs in a variety of structural styles.

Some (the Linyphiidae) make various forms of bowl- or dome-shaped webs with or without a flat sheet or a tangled web above or below. Some make a flat platform extending from a funnel-shaped retreat, generally with a tangle of silk above the web. The common northern hemisphere 'funnel-web', 'house' or 'grass' spiders are only superficially similar to the notorious Sydney funnel-web spider, and are generally considered to be quite harmless. Some of the more primitive group Atypidae may make tubular webs up the base of trees, from inside of which they bite insects that land on the webbing. These spiders are not generally considered to be dangerous to humans.

Spiders and people

Arachnophobia

Spinyback orbweaver

Arachnophobia is a specific phobia, an abnormal fear of spiders. It is among the most common of phobias. The reactions of arachnophobics often seem irrational to others (and sometimes to the sufferers themselves). People with arachnophobia tend to feel uneasy in any area they believe could harbor spiders or that has visible signs of their presence, such as webs. If they see a spider, they may not enter the general vicinity until they overcome the panic attack that is often associated with their phobia. They may feel humiliated if such episodes happen in the presence of peers or family members. The fear of spiders can be treated by any of general techniques suggested for specific phobias.

Spider bites

Sydney funnel-web spider

Most spiders are unlikely to bite humans because they do not identify humans as prey. Spiders, even small ones, may however bite humans when pinched. For instance, a common jumping spider (Family: Salticidae), around â…œ inch (1 cm) long, when pinched between the folds of a human's palm may inflict a bite that is about as painful as a bee sting.

Spiders in the world that have been linked to fatalities in humans, or have been shown to have potentially fatal bites by toxicology studies of their venom, include:

  • The Brazilian wandering spider
  • The Australasian funnel-web spider
  • The six-eyed sand spider, and possibly other spiders of genus Sicarius
  • The widow spiders
  • The recluse spiders

Spiders which likely are not deadly to humans, but which are nonetheless medically significant include:

  • The hobo spider
  • The yellow sac spider
  • Certain species of tarantulas
  • The false black widows

Spiders which can inflict painful bites (often similar to a bee sting), but whose bites generally do not cause any systemic or long-lasting effects, include:

  • The huntsman spider
  • The redback jumping spider (not to be confused with the very dangerous redback spider, the latter being one of the widow spiders).

None of these spiders will intentionally "come after you," but they should be removed from one's house to avoid accidental injury. Many authorities warn against spraying poisons indiscriminately to kill all spiders, because doing so may actually remove one of the biological controls against incursions of the more dangerous species by ridding them of their competition.

If dangerous spiders are present in your area, be mindful when moving cardboard boxes and other such objects that may have become the shelter of a poisonous spider. There is no need to be fearful; just do not grab a spider.

Spiders as food

Spiders, especially larger sorts, are eaten routinely or as a delicacy in various parts of the world, including Cambodia, Thailand, the Solomon Islands, and parts of South America.

Spiders in symbolism and culture

There are many references to the spider in popular culture, folklore, and symbolism. The spider symbolizes patience for its hunting with web traps, and mischief and malice for its poison and the slow death this causes. It symbolizes possessiveness for its spinning its prey into a ball and taking it to its burrow (for burrowing species). Ananse, the Spider man from Ashanti culture of West Africa, is known as the keeper of stories.

Taxonomy

Deinopis_subrufa

Almost 40,000 species of spiders (the order Araneae) have been identified and are currently grouped into 111 families by arachnologists, but because of difficulties in collecting these often very minute and evasive animals, and because many specimens stored in collections are still waiting to be described and classified, it is believed that up to 200,000 species may exist.

The order is composed of three suborders. In the non-venomous primitive Mesothelae, body segmentation is clearly visible, demonstrating the link between spiders and their segmented arthropod ancestors.

The two other suborders, the Mygalomorphae (trapdoor spiders, funnel-web spiders, tarantulas) and the Araneomorphae ("modern" spiders), are sometimes grouped together as Opisthothelae. The latter account for about 94 percent of all spider species.

Araneomorphae

The Araneomorphae, (previously called the Labidognatha), are often known as the modern spiders.

They are distinguished by having chelicerae that point diagonally forward and cross in a pinching action, in contrast to the Mygalomorphae (tarantulas and their close kin), in which they point straight down. Most of the spiders that people encounter in daily life belong to this suborder, which makes up 94 percent of all spider species.

There are approximately 95 families in this suborder, ranging from the minute Patu digua (0.37 mm) to the big and flashy Argiope, from the common orb-weaver spiders to the abstruse assassin spiders, from the reclusive tree trapdoor spiders to the inquisitive jumping spiders.

Mesothelae

Liphistius sp.
The tarantula Brachypelma smithi

The Mesothelae include the only recent family Liphistiidae. Two more families (Arthrolycosidae and Arthromygalidae) are recognized from fossil evidence only.

The Liphistiidae are burrowing spiders only found in Southeast Asia, China, and Japan with about ninety species in five genera. Spiders of this remnant suborder are very rare and are among the most "primitive" types of spiders in existence.

Recent Mesothelae are characterized by the narrow sternum on the ventral side of the prosoma. Several plesiomorphic characters may be useful in recognizing these spiders: there are tergite plates on the dorsal side and the almost-median position of the spinnerets on the ventral side of the opisthosoma.

Mygalomorphae

The Mygalomorphae are also called the Orthognatha, referring to the orientation of the fangs which point straight down and do not cross each other. This suborder includes the heavy-bodied, stout-legged spiders popularly known as tarantulas as well as the dangerous Australasian funnel-web spiders. They have ample poison glands that lie entirely within their chelicerae. Their chelicerae and fangs are large and powerful. Occasionally members of this suborder will even kill small fish or mammals. Most members of this suborder occupy the tropics and subtropics, but their range can extend farther toward the poles, for example into the southern and western regions of the United States and Canada or the northern parts of Europe and south into Argentina and Chile.

Araneus diadematus

Other creatures often mistaken for spiders

In addition to the true spiders, there are several arachnids commonly mistaken for spiders, but which are not true spiders.

  • The "Camel spider," a species of solifugid (also commonly called sun-spiders or wind-scorpions), is the source of many urban legends. In spite of their bad reputation, they are actually harmless to humans, and have no venom.
  • The "daddy long-legs" or "harvestman" is a member of the order Opiliones. These round-bodied arachnids have only two eyes and their heads are fused to their bodies. However, the name "daddy long-legs" is sometimes used to refer to cellar spiders, which have a similar leg shape; these are true spiders. Both also are often said to produce a deadly venom. While the harvestmen do not produce venom at all, the cellar spider's venom is completely harmless to humans.

References
ISBN links support NWE through referral fees

  • Andrade, M. C. B. 2003. Risky mate search and male self-sacrifice in redback spiders. Behavioral Ecology 14: 531–538.
  • Bristowe, W. S. 1976. The World of Spiders. Taplinger Pub. Co. ISBN 0800885988
  • Coddington, J. A., and H. W. Levi. 1990. "Systematics and evolution of spiders (Araneae)" Annu. Rev. Ecol. Syst. 22: 565-592.
  • Crompton, J. 1950. The Life of the Spider. Mentor.
  • Foelix, R. F. 1996. Biology of Spiders, 2nd ed. Oxford University Press. ISBN 9780195095944
  • Hillyard, P. 1994. The Book of the Spider. New York: Random House. ISBN 0679408819
  • Kaston, B. J. 1953. How to Know the Spiders. Dubuque.
  • Knoflach, B., and A. van Harten. 2001. Tidarren argo sp. nov. (Araneae: Theridiidae) and its exceptional copulatory behaviour: Emasculation, male palpal organ as a mating plug and sexual cannibalism. Journal of Zoology 254: 449–459.
  • Levi, H. W., and L. R. Levi. 2001. Spiders and Their Kin. New York, NY: Golden Press. ISBN 1582381569.
  • Opell, B. D. 1997. The material cost and stickiness of capture threads and the evolution of orb-weaving spiders. Biological Journal of the Linnean Society 62: 443-458.
  • Oxford, G. S., and R. G. Gillespie. 1998. Evolution and ecology of spider coloration. Annual Review of Entomology 43: 619-643.
  • Roth, V., D. Ubick, and N. Duperre. 2005. Spiders of North America: An Identification Manual. Poughkeepsie, NY: American Arachnological Society. ISBN 0977143902.
  • Wise, D. H. 1993. Spiders in Ecological Webs. Cambridge: Cambridge University Press. ISBN 0521325471.

External links

All links retrieved February 7, 2023.


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