- Enopla
Taxobox
name = Enopla
regnum =Animal ia
subregnum =Eumetazoa
unranked_phylum =Bilateria
superphylum =Lophotrochozoa
phylum =Nemertea
classis = Enopla
subdivision_ranks = Orders
subdivision =
*Bdellonemertea
*Hoplonemertea "Enopla" is one of the classes of the worm
phylum Nemertea , characterized by the presence of a peculiar armature of spines or plates in theproboscis .Evolution and systematics
The fossil record of
nemertea ns is extremely sparse, as would be expected from a soft-bodied animal. The Cambrian fossil, "Amiskwia ", has been interpreted as a nemertean based on its resemblance to somepelagic ribbon worms; however, this interpretation is disputed by manypaleontologist s. The enoplan nemerteans have been regarded as highly derived based on a more complicated muscle arrangement in the body wall and a more complex nervous system. However, whether this is a plesiomorphic or apomorphic character is not clear, and recent molecular studies are inconclusive in this respect.Class Enopla used to be divided in two subclasses,
Hoplonemertea andBdellonemertea , but recent phylogenetic analyses based onnucleotide sequence s show that Bdellonemertea should be included in Hoplonemertea. Hoplonemertea (in the old sense) contains two suborders,Monostilifera andPolystilifera . The former encompasses those animals with a proboscis armature consisting of a single central stylet on a large cylindrical basis. The Polystilifera are armed with a pad, or shield, bearing numerous small stylets. The Polystilifera are further divided in two taxa, one (Pelagica) containing the pelagic species, and the other (Reptantia) with crawling or burrowing forms.The class is currently divided into 30 families and 155 genera with approximately 650 described species. The two largest genera, "
Amphiporus " and "Tetrastemma " contain 230 species, i.e., one third of all named species in the class. However, it must be made very clear that the systematics and classification of nemerteans are not based on a phylogenetic approach, and recent studies question the classification.Physical characteristics
Enoplan nemerteans are generally small, from less than 0.4 in (1 cm) up to 4 in (10 cm), although larger species exist. While most nemerteans are rather drab in color, others are more conspicuous with striking pigment patterns and coloration. However, the more brightly colored forms are more common in the class
Anopla . A nemertean is generally recognized in the field by the way it moves. Its normal movement is gliding over the surface by help of cilia on the ventral side in combination with mucus produced by the worm. Some species may, under certain circumstances, swim with undulating movements, but only for a short period of time. Enoplans are differentiated by the proboscis, which is armed (i.e., there is a stylet attached to it) in enoplans but unarmed in anoplans. Enoplans have a common opening for the proboscis and mouth, whereas anoplans have separate openings for the two structures.Distribution
Enoplan nemerteans are known from all continents and all seas. Terrestrial nemerteans are mainly known from islands in the
tropical andsubtropical regions, although there are few more widespread species. Freshwater species are also reported from all continents, except theAntarctic .Habitat
Enoplan nemerteans are typically found in the sea, in the littoral among
alga e. While larger species may be found simply by turning over boulders, smaller species are not found unless special techniques are utilized. An easy way of collecting nemerteans is to place seaweed and smaller algae in a bucket of sea water and let it stand for a few hours, and up to a couple of days, depending on weather and temperature. The worms will crawl to the sides of the bucket, where they are easily observed and collected, as theoxygen concentration decreases in the water. Although nemerteans are abundant, especially in temperate waters, their presence is often overlooked because they are not easily observed. Enoplan nemerteans do not appear to be equally common sublittorally, but this may be a result of biased sampling (less accessible environments). The majority of enoplan ribbon worms are marine andbenthic , but there are approximately 100 named and described species of pelagic nemerteans. These creatures inhabit the water column of the world oceans, commonly found at depths of between a few hundred feet and several thousand feet, and they are most abundant at 2,130 to 8,200 ft (625 to 2,500 m). There are a few freshwater species recorded, of which most are placed in the genus "Prostoma ". This genus is also by far the most widespread, especially the two species, "Prostoma eilhardi " and "Prostoma graecense ". The latter has been recorded fromEurope ,Africa ,Japan , andAustralia . The spreading of these animals is probably a result of the exportation and importation of freshwater vegetation. There are 13 known species of terrestrial nemerteans; a typical feature of these species is that their distribution tends to be restricted to a particular island. These species live in damp places under stones and in rotting wood.Behavior
Most nemerteans are solitary, free-living animals.
Feeding ecology and diet
Nemerteans are common predators in a variety of habitats. Benthic marine enoplans are suctorial feeders and prey mainly on
crustacean s. The proboscis is everted and the central armature (the stylet) is used to pierce and immobilize the prey. After inversion of the proboscis, the worm uses its head to probe among the crustacean appendages, seeking a place where it can penetrate the prey; eventually, the head is wedged past the opening and theanterior gut is everted into the opening. It is uncertain whetherproteolytic enzymes are inserted through the stylet-produced hole in the exoskeloton—histology of central armature suggests this — but at some stage, enzymes are injected to dissolve the prey's body tissue. Free-living marine suctorial nemerteans appear to be food specialists feeding primarily onamphipod s. There are some enoplan species known to feed uponbarnacle s,limpet s, andpolychaete s. There are also examples of macrophagus hoplonemerteans that engulf the entire prey after paralyzing it with a blow by the stylet. Freshwater hoplonemerteans are known to feed onoligochaete s, unicellular organisms, insect larvae, and other crustaceans. Very little is known about the ecology of pelagic nemerteans, including diet and feeding behavior.There is one group of
parasitic enoplan nemerteans (familyCarcinonemertidae ) found among the egg masses of certaincrab species that feed on the host'sembryo s. There are also commensal enoplans (in familyBdellonemertidae ) that live in the mantle cavities ofbivalve s where they feed onplankton from the mantle cavity. Obviously, the proboscis is not used to capture prey and has been (perhaps secondarily) reduced in these species.Reproductive biology
Most nemerteans are
dioecious , although there are a few hermaphroditic hoplonemerteans. Most species areoviparous , i.e., produce eggs that are laid and hatched externally. Mode of spawning is unknown for most species, but where known, it ranges from widespread release ofgamete s into surrounding waters, topseudocopulation with eggs attached in a gelatinous matrix to a benthic substratum. A few species bear living young.Conservation status
Very little is known about nemertean ecology, distribution, or abundance. It is clear, however, that certain species are the most abundant
invertebrate group in some habitats/localities. Whether other species are threatened is almost impossible to say, but the 1996IUCN Red List of Threatened Species includes six terrestrial nemerteans. Two species ("Antiponemertes allisonae " and "Katechonemertes nightingaleensis ") are considered Threatened, and "Argonemertes hillii " as Near Threatened.ignificance to humans
There is no direct significance to humans. However, many nemerteans produce toxins of which some are nicotinic agonists. Some of these toxins, originally found in a nemertean, have been synthesized and tested in pre-clinical trials as a possible memory enhancer in the treatment of
Alzheimer's disease .References
* (1972): "Nemerteans". Hutchinson University Library, London.
* (1994): Nemerteans (2nd ed.). "Synops. Brit. Fauna" 24. ISBN 1851532536
* (2002): The Invertebrate Fauna of New Zealand: Nemertea (Ribbon Worms). "NIWA Biodiversity Memoirs" 118: 1–87.
* (1993): Advances in Nemertean Biology: Proceedings of the Third International Meeting on Nemertean Biology. "Developments in Hydrobiology" 89. Kluwer Academic Publishers, Dordrecht. Reprinted from "Hydrobiologia" 266(1-3). [http://www.springerlink.com/content/r277025p1684/?p=7405d32e15314fd8a343956176421fa0&pi=375 HTML abstracts] .
* (1988): Recent Advances in Nemertean Biology: Proceedings of the Second International Meeting on Nemertean Biology. "Developments in Hydrobiology" 43 Dr. W. Junk Publishers, Dordrecht. Reprinted from "Hydrobiologia" 156(1). [http://www.springerlink.com/content/r277025p1684/?p=7405d32e15314fd8a343956176421fa0&pi=375 HTML abstracts] .
* (2001): Phylogenetic Relationships among Higher Nemertean (Nemertea) Taxa Inferred from 18S rDNA Sequences. "Mol. Phyl. Evol." 20(3): 327–334. doi|10.1006/mpev.2001.0982 [http://cima.uprm.edu/~n_schizas/CMOB_8998/nemerteaphylogeny.pdf PDF fulltext]
* (2003): Ribbon Worm Relationships: A Phylogeny of the Phylum Nemertea. "Proc. R. Soc. B" 270(1531): 407–415. doi|10.1098/rspb.2002.2254 [http://www.pubmedcentral.nih.gov/picrender.fcgi?artid=1691252&blobtype=pdf PDF fulltext]
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