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Caterpillar

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For other uses, see Caterpillar (disambiguation).

Caterpillars are the larval form of a member of the order Lepidoptera (the insect order comprising butterflies and moths). They are mostly phytophagous in food habit, with some species being entomophagous. Caterpillars are voracious feeders and many of them are considered pests in agriculture. Many moth species are better known in their caterpillar stages because of the damage they cause to fruits and other agricultural produce.

The etymological origins of the word are from the late 1400s, from Middle English catirpel, catirpeller, probably an alteration of Old North French catepelose : cate, cat (from Latin cattus) + pelose, hairy (from Latin pilōsus). [1]

Western tent caterpillars

Anatomy

Most caterpillars have tubular, segmented bodies. They have three pairs of true legs on the three thoracic segments, up to four pairs of prolegs on the middle segments of the abdomen, and often a single pair of prolegs on the last abdominal segment. There are ten abdominal segments. The families of lepidoptera differ in the numbers and positioning of the prolegs.

A geometrid caterpillar or inchworm

Caterpillars grow through a series of moults; each intermediate stage is called an instar.

Like all insects, caterpillars breathe through a series of small openings along the sides of their thorax and abdomen called spiracles. These branch into the body cavity into a network of tracheae. A few caterpillars of the family Pyralidae are aquatic and have gills that let them breathe underwater.[2]

Caterpillars have 4,000 muscles (compare humans, with 629). They move through contraction of the muscles in the rear segments pushing the blood forward into the front segments elongating the torso. The average caterpillar has 248 muscles in the head segment alone.

Senses

Caterpillars have good vision. They have a series of six tiny eyelets or 'stemmata' on each side of the lower portion of their head. These can probably form well focused, but poorly resolved images.[3] They move their heads from side to side probably as a means of judging distance of objects, particularly plants. They rely on their short antennae to help them locate food.

Some caterpillars are able to detect vibrations, usually at a specific frequency. Caterpillars of the common hook-tip moth, Drepana arcuata (Drepanoidea) produce sounds to defend their silk nests from members of their own species,[4] by scraping against the leaf in a ritualized acoustic duel. They detect the vibrations conducted by the plant and not air-borne sounds. Similarly, cherry leaf rollers Caloptilia serotinella defend their rolls.[5] Tent caterpillars can also detect vibrations at the frequency of wing beats of one of their natural enemies. [6]

Classification

The geometrids, also known as inchworms or loopers, are so named because of the way they move, appearing to measure the earth (the word geometrid means earth-measurer in Greek); the primary reason for this unusual locomotion is the elimination of nearly all the prolegs except the clasper on the terminal segment.

Caterpillars have soft bodies that can grow rapidly, like balloons, between moults. Only the head capsule is hardened. In caterpillars, the mandibles are tough and sharp for chewing leaves; in most adult Lepidoptera, the mandibles are highly reduced, or soft. Behind the mandibles of the caterpillar are the spinnerets, for manipulating silk.

Some larvae of the Hymenoptera (ants, bees and wasps) order can appear like the caterpillars of the lepidoptera. These are mainly seen in the Sawfly family and while the larvae superficially resemble caterpillars, they can be distinguished by the presence of prolegs on every abdominal segment. Another difference is that lepidopteran caterpillars have crochets or hooks on the prolegs while these are absent on the sawfly larvae. Also in lepidopteran caterpillars is the upside down Y shaped suture on the front of the head.[3] The larvae of sawflies differ also in having prominent ocelli on the head capsule.

Defenses

Many animals feed on caterpillars as they are protein rich, and caterpillars have evolved various defenses.

Appearance

Costa Rican hairy caterpillar.

Many caterpillars are cryptically coloured and resemble the plants on which they feed and may even have parts that mimic plant parts such as thorns. Their size varies from as little as 1 mm to about 3 inches. Some look like objects in the environment such as bird droppings. Many feed enclosed inside silk galleries, rolled leaves or by mining between the leaf surfaces. Caterpillars of Nemoria arizonaria that grow in spring feed on oak catkins and appear green. The summer brood however appear like oak twigs. The differential development is linked to the tannin content in the diet.[7]

More aggressive self-defense measures are taken by caterpillars. These caterpillars have spiny bristles or long fine hair-like setae with detachable tips that will irritate by lodging in the skin or mucous membranes.[3] However, some birds, like cuckoos, will swallow even the hairiest of caterpillars. The most aggressive defenses are bristles associated with venom glands, called urticating hairs; a venom among the most potent defensive chemicals in any animals is produced by the South American silk moth genus Lonomia. It is an anticoagulant powerful enough to cause a human to hemorrhage to death (See Lonomiasis).[8] This chemical is being investigated for potential medical applications. Most urticating hairs however range in effect from mild irritation to dermatitis.

Giant swallowtail caterpillar everting its osmeterium in defense

Plants have evolved poisons to protect themselves from herbivores and some caterpillars have evolved countermeasures and eat the leaves of these toxic plants. In addition to being unaffected by the poison, they sequester it in their body, making them highly toxic to predators. These chemicals are also carried on into the adult stages. These toxic species, such as the Cinnabar moth (Tyria jacobaeae) and monarch (Danaus plexippus) caterpillars, usually advertise themselves with brightly striped or coloured in black, red and yellow—the danger colours (see aposematism). Any predator that attempts to eat a caterpillar with an aggressive defence mechanism will learn and avoid future attempts.

Some caterpillars regurgitate acidic digestive juices at attacking enemies. Many papilionid larvae produce bad smells from extrudable glands called osmeteria.

Caterpillars can evade predators by using a silk line and dropping off from branches when disturbed.

Some caterpillars obtain protection by associating themselves with ants. The Lycaenid butterflies are particularly well known for this. They communicate with their ant protectors by vibrations as well as chemical means [9] and typically provide food rewards.

Some caterpillars are gregarious; large aggregations are believed to help in reducing the levels of parasitization and predation.[10] Clusters amplify the signal of aposematic coloration, and individuals may participate in group regurgitation or displays.

Behavior

A Pasture Day Moth caterpillar feeding on capeweed

Caterpillars have been called "eating machines", and eat leaves voraciously. Most species shed their skin four or five times as their bodies grow, and they eventually pupate into an adult form. Caterpillars grow very quickly; for instance, a tobacco hornworm will increase its weight ten-thousand-fold in less than twenty days. An adaptation that enables them to eat so much is a mechanism in a specialized midgut that quickly transports ions to the lumen (midgut cavity), to keep the potassium level higher in the midgut cavity than in the blood.[11]

Most caterpillars are solely herbivorous. Many are restricted to one species of plant, while others are polyphagous. A few, including the clothes moth, feed on detritus. Most predatory caterpillars feed on eggs of other insects, aphids, scale insects, or ant larvae. Some are cannibals, and others prey on caterpillars of other species (e.g. Hawai'ian Eupithecia ). A few are parasitic on cicadas or leaf hoppers.[12] Some Hawai'ian caterpillars (Hyposmocoma molluscivora) use silk traps to capture snails.[13]

Many caterpillars are nocturnal. For example, the "cutworms" (of the Noctuidae family) hide at the base of plants during the day and only feed at night. Others, such as gypsy moth (Lymantria dispar) larvae, change their activity patterns depending on density and larval stage, with more diurnal feeding in early instars and high densities.

Economic effects

Caterpillar cause much damage, mainly by eating leaves. The cotton bollworm causes enormous losses. Other species eat food crops. Caterpillars have been the target of pest control through the use of pesticides, biological control and agronomic practices. Many species have become resistant to pesticides. Bacterial toxins such as those from Bacillus thuringiensis which are evolved to affect the gut of Lepidoptera have been used in sprays of bacterial spores, toxin extracts and also by incorporating genes to produce them within the host plants. These approaches are defeated over time by the evolution of resistance mechanisms in the insects.

Plants evolve mechanisms of resistance to being eaten by caterpillars, including the evolution of chemical toxins and physical barriers such as hairs. Incorporating host plant resistance (HPR) through plant breeding is another approach used in reducing the impact of caterpillars on crop plants.

Some caterpillars are beneficial. The silk industry is based on the silkworm caterpillar.

Health Effects

Caterpillar hair has been known to cause certain health effects. All species have small hairs that can irritate the skin, both through direct contact and from airborne hairs. Often, caterpillars produce venoms that are stored in these hairs as a defense against predators. Caterpillar species from approximately 12 families of moths or butterflies worldwide can inflict serious human injuries ranging from urticarial dermatitis and atopic asthma to osteochondritis, consumption coagulopathy, renal failure, and intracerebral hemorrhage.(Diaz 2005) Skin rashes are the most common, but there have been fatalities.

Caterpillar hairs have also been known to cause kerato-conjunctivitis. The sharp barbs on the end of Caterpillar hairs can get lodged in soft tissues and mucus membranes such as the eyes. Once they enter such tissues, they can be difficult to extract, often exacerbating the problem as they migrate across the membrane.(Patel et. al. 1973)

This becomes a particular problem in an indoor setting. The hairs easily enter buildings through ventilation systems and accumulate in indoor environments because their small size, which makes it difficult for them to be vented out. This accumulation increases the risk of human contact in indoor environments.(Balite et. al. 2001)

A 22-year old woman died in 2007, "ten days after stepping barefoot on five caterpillars while on a trip to northeastern Peru"[1].

References

  1. ^ "caterpillar". Dictionary.com. The American Heritage® Dictionary of the English Language, Fourth Edition. Houghton Mifflin Company, 2004. http://dictionary.reference.com/browse/caterpillar (accessed: March 26, 2008).
  2. ^ Berg, Clifford O. 1950. Biology of Certain Aquatic Caterpillars (Pyralididae: Nymphula spp.) Which Feed on Potamogeton. Transactions of the American Microscopical Society. 69(3):254-266
  3. ^ a b c Scoble, MJ. 1995. The Lepidoptera: Form, function and diversity. Oxford Univ. Press.
  4. ^ Yack JE, Smith ML, and Weatherhead PJ. 2001. Caterpillar talk: Acoustically mediated territoriality in larval Lepidoptera. Proceedings of the National Academy of Sciences of the United States of America 98 (20): 11371–11375.
  5. ^ Fletcher LE, Yack JE, Fitzgerald TD, Hoy RR . 2006. Vibrational communication in the cherry leaf roller caterpillar Caloptilia serotinella (Gracillarioidea : Gracillariidae). Journal of Insect Behavior 19 (1): 1–18.
  6. ^ Fitgerald, TD. 1995. The tent caterpillars. Cornell Univ. Press.
  7. ^ Greene, Erick (1989) A Diet-Induced Developmental Polymorphism in a Caterpillar. Science 243(4891):643-646 abstract
  8. ^ Malaque, Ceila M. S., Lúcia Andrade, Geraldine Madalosso, Sandra Tomy, Flávio L. Tavares, And Antonio C. Seguro. 2006. A case of hemolysis resulting from contact with a Lonomia caterpillar in southern Brazil. Am. J. Trop. Med. Hyg., 74(5): 807-809
  9. ^ Travassos, MA, and NE Pierce. 2000. Acoustics, context and function of vibrational signalling in a lycaenid butterfly–ant mutualism. Animal Behaviour 60: 13-26
  10. ^ Entry, Grant L. G., Lee A. Dyer. 2002. On the Conditional Nature Of Neotropical Caterpillar Defenses against their Natural Enemies. Ecology, 83(11):3108–3119
  11. ^ Chamberlin, M.E. and M.E. King (1998). Changes in midgut active ion transport and metabolism during the fifth instar of the tobacco hornworm (Manduca sexta). J.Exp.Zool. 280:135-141.
  12. ^ Pierce, N.E. 1995. Predatory and parasitic Lepidoptera: Carnivores living on plants. Journal of the Lepidopterist's Society 49 (4): 412-453
  13. ^ Rubinoff, Daniel and William P. Haines. 2005. Web-Spinning Caterpillar Stalks Snails. Science 309(5734): 575. DOI: 10.1126/science.1110397

14. Diaz, James H. (2005). "The Evolving Global Epidemiology, Sydromic Classification, Management, and Prevention of Caterpillar Envenoming".

15. Patel RJ, Shanbhag RM. Ophthalmia nodosa - (a case report). Indian J Ophthalmol 1973;21:208

16. Corrine R Balit, Helen C Ptolemy, Merilyn J Geary, Richard C Russell and Geoffrey K Isbister, (2001)“Outbreak of caterpillar dermatitis caused by airborne hairs of the mistletoe browntail moth (Euproctis edwardsi)”

See also

Wikimedia Commons has media related to Caterpillar.
Wikispecies has information related to Caterpillar.
  • Caterpillar of the Spurge Hawk-moth, seen in Kriegtal near Binn, Valais, Switzerland at approx. 2000 m altitude.
    Caterpillar of the Spurge Hawk-moth, seen in Kriegtal near Binn, Valais, Switzerland at approx. 2000 m altitude.
  • Caterpillar of the Emperor Gum Moth.
    Caterpillar of the Emperor Gum Moth.
  • Crochets on a caterpillar's prolegs.
    Crochets on a caterpillar's prolegs.
  • Actias selene with some of the spiracles identified.
    Actias selene with some of the spiracles identified.
  • A poplar hawk-moth caterpillar (a common species of caterpillar in the UK).
    A poplar hawk-moth caterpillar (a common species of caterpillar in the UK).
  • Close-up of a caterpillar face.
    Close-up of a caterpillar face.
  • Ant tending a lycaenid caterpillar.
    Ant tending a lycaenid caterpillar.
  • Caterpillar of Great Orange Tip resembling the Common green vine snake Ahaetulla nasuta.
    Caterpillar of Great Orange Tip resembling the Common green vine snake Ahaetulla nasuta.
  • Life cycle of the red-humped caterpillar (Schizura concinna).
    Life cycle of the red-humped caterpillar (Schizura concinna).
  • Forest tent caterpillar (Malacosoma disstria)
    Forest tent caterpillar (Malacosoma disstria)
  • Caterpillars hatching on an apple tree in Victoria, BC, Canada
    Caterpillars hatching on an apple tree in Victoria, BC, Canada
  • Camouflage: apparently with eight eyes, only two of them are real. Photo in a eucalipthus tree, sao paulo, Brazil
    Camouflage: apparently with eight eyes, only two of them are real. Photo in a eucalipthus tree, sao paulo, Brazil
  • Hypsipyla grandela damages a mahogany trunk in Brazil
    Hypsipyla grandela damages a mahogany trunk in Brazil
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