Nematode

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style="background:#Template:Taxobox colour;"|Nematodes

style="background:#Template:Taxobox colour;" | Scientific classification
Kingdom: Animalia
Phylum: Nematoda
Rudolphi, 1808
Classes

Adenophorea
   Subclass Enoplia
   Subclass Chromadoria
Secernentea
   Subclass Rhabditia
   Subclass Spiruria
   Subclass Diplogasteria
   Subclass Tylenchia

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [3]


Overview

The nematodes or roundworms (Phylum Nematoda from Greek Template:Polytonic (nema): "thread" + Template:Polytonic -ode "like") are one of the most common phyla of animals, with over 80,000 different described species (over 15,000 are parasitic). They are ubiquitous in freshwater, marine, and terrestrial environments, where they often outnumber other animals in both individual and species counts, and are found in locations as diverse as Antarctica and oceanic trenches. Further, there are a great many parasitic forms, including pathogens in most plants, animals, and also in humans.

The nematodes were originally named nematoidea by Rudolphi (1808). They were renamed nematodes by Burmeister 1837 (as a family; Leuckart 1848 and von Siebold 1848 both promoted them to the rank of order), then nematoda (Diesing 1861), though Nathan Cobb (1919) argued that they should be called nemata or nemates (and in English 'nemas' rather than 'nematodes'). After some confusion which saw the nematodes placed (often together with the horsehair worms, nematomorpha) as a class or order in various groups such as Aschelminthes, Lankester (1877) definitively promoted them to the level of phylum.

Morphology

Nematodes are unsegmented, bilaterally symmetric and triploblastic protostomes with a complete digestive system. Roundworms have no circulatory or respiratory systems so they use diffusion to breathe.[1] Although they lack a circulatory system, nutrients are transported throughout the body via fluid in the pseudocoelom. They are thin and are round in cross section. Nematodes are one of the simplest animal groups to have a complete digestive system, with a separate orifice for food intake and waste excretion, a pattern followed by all subsequent, more complex animals. The body cavity is a pseudocoelom (persistent blastula), which lacks the muscles of coelomate animals used to force food down the digestive tract. Nematodes thus depend on internal/external pressures and body movement to move food through their digestive tracts. The mouth is often surrounded by various flaps or projections used in feeding and sensation. The portion of the body past the anus or cloaca is called the "tail." As they grow, their cells get larger, but the total number is constant, called eutely. The epidermis secretes a layered cuticle made of three layers of collagen[2] that protects the body from drying out, from digestive juices, or from other harsh environments. Although this cuticle allows movement and shape changes via a hydrostatic skeletal system, it is very inelastic so does not allow the volume of the worm to increase. Therefore, as the worm grows, it has to molt and form new cuticles. The cuticles don't allow volume to increase so as to keep hydrostatic pressure inside the organism very high. For this reason, the roundworms do not possess circular muscles (just longitudinal ones) as they're not required. This hydrostatic pressure is the reason the roundworms are round.

Nematodes have a simple nervous system, with a main ventral nerve cord and a smaller dorsal nerve cord[3]. Sensory structures at the anterior end are called amphids, while sensory structures at the posterior end are called phasmids.

Most free-living nematodes are microscopic, though a few parasitic forms can grow to over a meter in length (typically as parasites of very large animals such as whales). There are no circular muscles, so the body can only undulate from side to side. Contact with solid objects is necessary for locomotion; its thrashing motions vary from mostly to completely ineffective at swimming.

Nematodes generally eat bacteria, fungi and protozoans, although some are filter feeders. Excretion is through a separate excretory pore. Nematodes also contract bacterial infections within excretion pores.

Reproduction

Reproduction is usually sexual. Males are usually smaller than females (often much smaller) and often have a characteristically bent tail for holding the female for copulation. During copulation, one or more chitinized spicules move out of the cloaca and are inserted into genital pore of the female. Amoeboid sperm crawl along the spicule into the female worm. Nematode sperm is thought to be the only eukaryotic cell without the globular protein G-actin.

Eggs may be embryonated or unembryonated when passed by the female, meaning that their fertilized eggs may not yet be developed. In free-living roundworms, the eggs hatch into larva, which eventually grow into adults; in parasitic roundworms, the life cycle is often much more complicated.

Some nematodes, specifically Heterorhabditis spp., undergo a process called endotokia matricida; intra-uterine birth causing maternal death.[4] The hermaphroditic nematode keeps its self-fertilized eggs inside its uterus until they hatch. The juvenile nematodes will then ingest the parent nematode. This process is significantly promoted in environments with a low or reducing food supply.[4]

Free-living species

In free-living species, development usually consists of four molts of the cuticle during growth. Different species feed on materials as varied as algae, fungi, small animals, fecal matter, dead organisms and living tissues. Free-living marine nematodes are important and abundant members of the meiobenthos. They play an important role in the decomposition process, aid in recycling of nutrients in marine environments and are sensitive to changes in the environment caused by pollution. One roundworm of note is Caenorhabditis elegans, which lives in the soil and has found much use as a model organism. C. elegans has had its entire genome sequenced, as well as the developmental fate of every cell determined, and every neuron mapped.

Some Nematodes can undergo cryptobiosis.

Parasitic species

Parasitic forms often have quite complicated life cycles, moving between several different hosts or locations in the host's body. Infection occurs variously by eating uncooked meat with larvae in it, by entrance into unprotected cuts or directly through the skin, by transfer via blood-sucking insects, and so forth.

Nematodes commonly parasitic on humans include whipworms, hookworms, pinworms, ascarids, and filarids. The species Trichinella spiralis, commonly known as the trichina worm, occurs in rats, pigs, and humans, and is responsible for the disease trichinosis. Baylisascaris usually infests wild animals but can be deadly to humans as well. Haemonchus contortus is one of the most abundant infectious agents in sheep around the world, causing great economic damage to sheep farms. In contrast, entomopathogenic nematodes parasitize insects and are considered by humans to be beneficial.

One form of nematode is entirely dependent upon the wasps which are the sole source of fig fertilization. They prey upon the wasps, riding them from the ripe fig of the wasp's birth to the fig flower of its death, where they kill the wasp, and their offspring await the birth of the next generation of wasps as the fig ripens.

Plant parasitic nematodes include several groups causing severe crop losses. The most common genera are: Aphelenchoides (foliar nematodes), Meloidogyne (root-knot nematodes), Heterodera, Globodera (cyst nematodes) such as the potato cyst nematode, Nacobbus, Pratylenchus (lesion nematodes), Ditylenchus, Xiphinema, Longidorus, Trichodorus. Several phytoparasitic nematode species cause histological damages to roots, including the formation of visible galls (Meloidogyne) which are useful characters for their diagnostic in the field. Some nematode species transmit plant viruses through their feeding activity on roots. One of them is Xiphinema index, vector of GFLV (Grapevine Fanleaf Virus), an important disease of grapes.

Other nematodes attack bark and forest trees. The most important representative of this group is Bursaphelenchus xylophilus, the pine wood nematode, present in Asia and America and recently discovered in Europe.

The largest nematode ever recorded, Placentonema gigantissima, was discovered parasitizing the placenta of a sperm whale, measuring 8.5 m in length with a diameter of 0.3 mm, and containing 32 ovaries.[5]

Other large nematodes include: Dioctophyma renale, the giant kidney worm, a parasite most commonly found in mink but also in dogs and humans, that can reach up to 103 cm in length.[6][5]

Abundance

The nematode species are very difficult to distinguish. Of the pseudocoelomates, the nematodes are the most common. Nematodes have successfully adapted to nearly every niche from marine to fresh water, from the polar regions to the tropics, as well as the highest to the lowest of elevations. They represent, for example, 90% of all life on the seafloor of the Earth. [4] Though 20,000 species have been classified it is estimated that this number might be upwards of 500,000 if all were known.[7]. In certain fertile areas the topsoil is estimated to contain in the billions of nematodes per acre.[2] In the 1914 edition of the Yearbook of the United States Department of Agriculture N.A.Cobb wrote on the abundance of nematodes[2]: Template:Cquote2

Gardening

Soybean cyst nematode and egg

Depending on the species, a nematode may be beneficial or detrimental to a gardener's cause.

From a gardening perspective, there are two categories of nematode: predatory ones, which will kill garden pests like cutworms, and pest nematodes, like the root-knot nematode, which attack garden plants.

Predatory nematodes can be bred by soaking a specific recipe of leaves and other detritus in water, in a dark, cool place, and can even be purchased as an organic form of pest control.

Phylogeny

Template:Refimprove-section While it has recently been suggested that nematodes are related to the arthropods and priapulids and should be grouped with them in the Ecdysozoa (molting animals), there is substantial resistance within the nematology community. Grouping organisms based on behaviors is not generally accepted. While there seems to be some evolutionary connection between these phyla, the exact nature of their relationship is still being debated.[8]

That the roundworms have a large number of peculiar apomorphies and in many cases a parasitic lifestyle confounds analyses; the DNA sequence data hitherto analyzed is equivocal on ecdysozoan monophyly. Genetic analyses of roundworms suggest that - as is also indicated by their unique morphological features - the group has been under intense selective pressure during its early radiation, resulting apparently in accelerated rates of both morphological and molecular evolution. Until a strong phylogenetic tree based on combined evidence is produced, most agree that the Nematoda should simply be referred to as part of the Metazoa.

Cultural references

  • The first episode of the children's television show Doug involves a nematode, though it is posited that the animal is purely fictional. See List of Doug episodes, #1.

Robustness

See also

References

  1. ATKINSON,H.J. (1973) "THE RESPIRATORY PHYSIOLOGY OF THE MARINE NEMATODES ENOPLUS BREVIS(BASTIAN) AND E. COMMUNIS (BASTIAN) Journal of Experimental Biology 59: 355-266[1]
  2. 2.0 2.1 2.2 Hickman, Cleveland. Animal Diversity (4th ed.). New York: Mc Graw Hill. ISBN 978-0-07-252844-2. Unknown parameter |coauthors= ignored (help)
  3. White et al. (1976) The Structure of the Ventral Nerve Cord of Caenorhabditis elegans[2]
  4. 4.0 4.1 Johnigk, Stefan-Andreas; Ehlers, Ralf-Udo (1999). "Endotokia matricida in hermaphrodites of Heterorhabditis spp. and the effect of the food supply". Nematology. 1: 717–726. doi:10.1163/156854199508748.
  5. 5.0 5.1 Gubanov, N.M. 1951. Dokl Akad Nauk SSSR. 1951 Apr 21;77(6):1123-5. Translated: [Giant nematoda from the placenta of Cetacea; Placentonema gigantissima nov. gen., nov. sp.]
  6. "Giant Kidney Worm Infection in Mink and Dogs". The Merck Veterinary Manual. 2006. Retrieved 2007-02-10.
  7. Hyman, L.H. The invertebrates, vol. III. Acanthocephala, Aschelminthes, and Entoprocta, the pseudocoelomate Bilateria. New York: Mc Graw Hill. ISBN 0070316619.
  8. Pilato G, Binda MG, Biondi O, D’Urso V, Lisi O, Marletta A, Maugeri S, Nobile V, Rappazzo G, Sabella G, Sammartano F, Turrisi G, Viglianisi F (2005). "The clade Ecdysozoa, perplexities and questions". Zoologischer Anzeiger. 244 (1): 43–50. doi:10.1016/j.jcz.2005.04.001.
  9. "Worms survived Columbia disaster". BBC News. 2003-05-01. Check date values in: |date= (help)

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