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Priapulida ( priapulid worms, from Gr. πριάπος, priāpos '' + Lat. -ul-, diminutive), sometimes referred to as penis worms, is a phylum of unsegmented marine . The name of the phylum relates to the Greek god of fertility, because their general shape and their extensible spiny introvert (eversible) may resemble the shape of a human . They live in the mud, except for a few tropical meiobenthic species which live in medium- to coarse-grained sands, and are found in comparatively shallow waters to deep waters and no warmer than 12–13°C. Priapulid neoichnology, ecosystem engineering, and the Ediacaran–Cambrian transition Priapulus caudatus, Cactus worm Microscopic priapulid larvae from Antarctica Some species show a remarkable tolerance for , and low . Halicryptus spinulosus appears to prefer brackish shallow waters. The phylogeny, classification and zoogeography of the class Priapulida. II. Revision of the family Priapulidae and zoogeography of priapulids They can be quite abundant in some areas. In an Alaskan bay as many as 85 adult individuals of Priapulus caudatus per square meter has been recorded, while the density of its larvae can be as high as 58,000 per square meter (5,390 per square foot).

(2009). 9780080920146, Academic Press. .

Together with and , they were once placed in the taxon , but consistent morphological and molecular evidence supports their belonging to , which also includes and . Fossil findings show that the mouth design of the -arthropod is identical with that of priapulids, indicating that their mouth is an original trait inherited from the last common ancestor of both priapulids and arthropods, even if modern arthropods no longer possess it. Among Ecdysozoa, their nearest relatives are and , with which they constitute the clade named after the spines covering the introvert (). They feed on slow-moving invertebrates, such as worms.

Some analyses suggest that Priapulida may represent a basal lineage within Ecdysozoa, leading to their classification as "living fossils". Priapulid-like fossils are known at least as far back as the Middle . They were likely major predators of the Cambrian period. However, crown-group priapulids cannot be recognized until the Carboniferous. 22 extant species of priapulid worms are known, half of them being of size.

(2008). 9783540686613, Springer. .

Anatomy
Priapulids are cylindrical worm-like animals, ranging from 0.2 to 0.3
(2003). 9783540001461, Springer. .
to 39 centimetres (0.08–0.12 to 15.35 in) long, with a median anterior mouth quite devoid of any armature or tentacles. They show both radial and bilateral symmetry. The gonads, protonephridia and ventral nerve cord are bilateral, while the introvert, pharynx and brain show radial symmetry, and appears to be a secondary trait. Aspects of priapulid development Symmetry of priapulids (Priapulida). 1. Symmetry of adults Also the larvae show internal and external characteristics of radial symmetry. Symmetry of priapulids (Priapulida). 2. Symmetry of larvae The adult body is divided into a main trunk or abdomen and a somewhat swollen proboscis region ornamented with longitudinal ridges. In addition it is ringed and often has circles of spines, which are continued into the slightly protrusible pharynx. Family Priapulidae have species with a tail or a pair of caudal appendages. A slender tail or tail filament is also found in family Tubiluchidae. Appendages are absent in the remaining families.
(2009). 9780080920146, Academic Press. .
The body has a cuticle that is moulted as the animal grows.
(1982). 9780030567476, Holt-Saunders International.
Members of the family Chaetostephanidae also secretes a gelatinous tube, open in both ends, which they live in.
(2012). 9783110272536, Walter de Gruyter. .

There is a wide body-cavity, which has no connection with the renal or reproductive organs, so it is not a ; it is probably a blood-space or . There are no vascular or respiratory systems, but the body cavity does contain amoebocytes and cells containing the respiratory pigment .

The is straight, consisting of an eversible , an intestine, and a short rectum. The pharynx is muscular and lined by teeth. Three of the five extant families have gone through a significant miniaturization and become detritivores (Tubiluchidae and Meiopriapulidae) and filter feeders (Chaetostephanidae). The two remaining families Priapulidae and Halicryptidae are larger carnivores that feed on other animals, although some species also consume detritus as larvae. The shape of the teeth reflect these different lifestyles, and seem to be adapted mainly towards grasping prey or raking detritus from the sediment into the mouth. The anus is terminal, although in Priapulus one or two hollow ventral diverticula of the body-wall stretch out behind it.

The consists of a nerve ring around the pharynx and a prominent cord running the length of the body with and longitudinal and transversal neurites consistent with an orthogonal organisation. The nervous system retains a configuration with a connection with the , forming part of the body wall. There are no specialized organs, but there are sensory nerve endings in the body, especially on the proboscis.

The priapulids are , having two separate sexes (i.e. male and female).

(2025). 9780073028262, McGraw-Hill.
Their male and female organs are closely associated with the excretory . They comprise a pair of branching tufts, each of which opens to the exterior on one side of the anus. The tips of these tufts enclose a flame-cell like those found in and other animals, and these probably function as excretory organs. As the animals mature, diverticula arise on the tubes of these organs, which develop either spermatozoa or ova. These sex cells pass out through the ducts. The perigenital area of the genus Tubiluchus exhibit sexual dimorphism.

Reproduction and development
For the species Priapulus caudatus, the 80 μm egg undergoes a total and radial cleavage following a symmetrical and subequal pattern. Development is remarkably slow, with the first cleavage taking place 15 hours after fertilization, gastrulation after several days and hatching of the first 'lorica' larvae after 15 to 20 days. The species Meiopriapulus fijiensis have direct development. In current systematics, they are described as protostomes, despite having a deuterostomic development. Because the group is so ancient, it is assumed the deuterostome condition which appears to be ancestral for have been maintained.

Fossil record
are known from the Middle Cambrian , where their soft-part anatomy is preserved, often in conjunction with their gut contents – allowing a reconstruction of their diets. In addition, isolated microfossils (corresponding to the various teeth and spines that line the pharynx and introvert) are widespread in Cambrian deposits, allowing the distribution of priapulids – and even individual species – to be tracked widely through Cambrian oceans. that are morphologically almost identical to modern priapulid burrows ( Treptichnus pedum) officially mark the start of the period, suggesting that priapulids, or at least close anatomical relatives, evolved around this time. Crown-group priapulid body fossils are first known from the Carboniferous.

Phylogeny
External phylogeny
Internal phylogeny
Classification
There are 22 known extant species:
(2020). 9780691170251, Princeton University Press. .
2019 Annual Checklist : Browse taxonomic classification phylum: Cephalorhyncha, class: Priapulida

Phylum Priapulida Théel 1906

  • Order Salvini-Plawen 1974 Adrianov
    • Family Salvini-Plawen 1974
      • Genus Halicryptus
        • Species H. higginsi (Shirley & Storch, 1999)
        • Species H. spinulosus (von Siebold, 1849)
  • Order Adrianov & Malakhov 1995 (assigned its own order by Adrianov A. V, Malakhov V. V. 2001. Symmetry of priapulids (Priapulida). 1. Symmetry of adults. 247:99–110.)
    • Family Gosse 1855 Xiaoheiqingidae
      • Genus Acanthopriapulus
        • Species A. horridus (Théel, 1911)
      • Genus Priapulopsis
        • Species P. australis (de Guerne, 1886)
        • Species P. bicaudatus (Danielssen, 1869)
        • Species P. cnidephorus (Salvini-Plawen, 1973)
      • Genus Priapulus
        • Species P. abyssorum (Menzies, 1959)
        • Species P. caudatus (Lamarck, 1816)
        • Species P. tuberculatospinosus (Baird, 1868)
    • Family van der Land 1970 Meiopriapulidae
      • Genus
        • Species T. arcticus (Adrianov, Malakhov, Tchesunov & Tzetlin, 1989)
        • Species T. australensis (van der Land, 1985)
        • Species T. corallicola (van der Land, 1968)
        • Species T. lemburgi (Schmidt-Rhaesa, Rothe & Martínez, 2013)
        • Species T. pardosi (Schmidt-Rhaesa, Panpeng & Yamasaki, 2017)
        • Species T. philippinensis (van der Land, 1985)
        • Species T. remanei (van der Land, 1982)
        • Species T. soyoae (Schmidt-Rhaesa, Panpeng & Yamasaki, 2017)
        • Species T. troglodytes (Todaro & Shirley, 2003)
        • Species T. vanuatensis (Adrianov & Malakhov, 1991)
    • Genus Meiopriapulus
      • Species M. fijiensis
(Morse, 1981)
  • Order
    • Family Chaetostephanidae Por & Bromley 1974 Chaetostephanidae
      • Genus Maccabeus
        • Species M. cirratus (Malakhov, 1979)
        • Species M. tentaculatus (Por, 1973)

Extinct groups
Stem-group † Scalidophora
  • Order † Adrianov & Malakhov 1995 Fieldiida
    • Family † Conway Morris 1977
      • Genus † Ancalagon Conway Morris 1977
    • Family † Conway Morris 1977
      • Genus † Fieldia Walcott 1912

Stem-group † Palaeoscolecida

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