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Priapulida

February 15, 2024

Priapulida (priapulid worms, from Gr. πριάπος, priāpos 'Priapus' + Lat. -ul-, diminutive), sometimes referred to as penis worms, is a phylum of unsegmented marine worms. The name of the phylum relates to the Greek god of fertility, because their general shape and their extensible spiny introvert (eversible) proboscis may resemble the shape of a human penis. They live in the mud and in comparatively shallow waters up to 90 metres (295 ft) deep.[3] Some species show a remarkable tolerance for hydrogen sulfide, anoxia and low salinity.[4][5] Halicryptus spinulosus appears to prefer brackish shallow waters.[6] 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).[7]

Priapulida
Temporal range: Late Pennsylvanian–Recent[1] (Stem-group from Cambrian)
Priapulus caudatus
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Subkingdom: Eumetazoa
Clade: ParaHoxozoa
Clade: Bilateria
Clade: Nephrozoa
(unranked): Protostomia
Superphylum: Ecdysozoa
Clade: Scalidophora
Phylum: Priapulida
Théel, 1906[2]
Orders

See text

Together with Echiura and Sipuncula, they were once placed in the taxon Gephyrea, but consistent morphological and molecular evidence supports their belonging to Ecdysozoa, which also includes arthropods and nematodes. Fossil findings show that the mouth design of the stem-arthropod Pambdelurion 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.[8] Among Ecdysozoa, their nearest relatives are Kinorhyncha and Loricifera, with which they constitute the Scalidophora clade named after the spines covering the introvert (scalids).[9] They feed on slow-moving invertebrates, such as polychaete worms.

Priapulid-like fossils are known at least as far back as the Middle Cambrian. They were likely major predators of the Cambrian period. However, crown-group priapulids cannot be recognized until the Carboniferous.[1] 22 extant species of priapulid worms are known, half of them being of meiobenthic size.[10]

Anatomy edit

Priapulids are cylindrical worm-like animals, ranging from 0.2–0.3[11] to 39 centimetres[12] (0.08–0.12 to 15.35 in) long, with a median anterior mouth quite devoid of any armature or tentacles. The body is divided into a main trunk or abdomen and a somewhat swollen proboscis region ornamented with longitudinal ridges. The body is ringed and often has circles of spines, which are continued into the slightly protrusible pharynx.[3] 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.[13][14] The body has a chitinous cuticle that is moulted as the animal grows.[15] Members of the family Chaetostephanidae also secretes a gelatinous tube, open in both ends, which they live in.[16]

There is a wide body-cavity, which has no connection with the renal or reproductive organs, so it is not a coelom; it is probably a blood-space or hemocoel.[3] There are no vascular or respiratory systems, but the body cavity does contain phagocytic amoebocytes and cells containing the respiratory pigment haemerythrin.[15]

The alimentary canal is straight, consisting of an eversible pharynx, an intestine, and a short rectum. The pharynx is muscular and lined by teeth.[15] 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.[17][18] The anus is terminal, although in Priapulus one or two hollow ventral diverticula of the body-wall stretch out behind it.[3]

The nervous system consists of a nerve ring around the pharynx and a prominent cord running the length of the body with ganglia and longitudinal and transversal neurites consistent with an orthogonal organisation.[19] The nervous system retains a basiepidermal configuration with a connection with the ectoderm, forming part of the body wall. There are no specialized sense organs, but there are sensory nerve endings in the body, especially on the proboscis.[15]

The priapulids are gonochoristic, having two separate sexes (i.e. male and female).[20] Their male and female organs are closely associated with the excretory protonephridia. 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 flatworms 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.[3] The perigenital area of the genus Tubiluchus exhibit sexual dimorphism.[21]

Reproduction and development edit

Priapulid development has been reappraised recently because early studies reported abnormal development caused by high temperature of embryo culture. For the species Priapulus caudatus, the 80 µm egg undergoes a total and radial cleavage following a symmetrical and subequal pattern.[22] 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.[23] The species Meiopriapulus fijiensis have direct development.[24] In current systematics, they are described as protostomes, despite having a deuterostomic development.[25] Because the group is so ancient, it is assumed the deuterostome condition which appears to be ancestral for bilaterians have been maintained.[26]

Fossil record edit

 
Ottoia tricuspida in the Burgess Shale. Middle Cambrian
 
Microfossil of a priapulid tooth (Ottoia, Cambrian). From Smith et al. 2015

Stem-group priapulids are known from the Middle Cambrian Burgess Shale, where their soft-part anatomy is preserved, often in conjunction with their gut contents – allowing a reconstruction of their diets.[27] In addition, isolated microfossils (corresponding to the various teeth and spines that line the pharynx and introvert) are widespread in Cambrian deposits,[28] allowing the distribution of priapulids – and even individual species – to be tracked widely through Cambrian oceans.[29][17] Trace fossils that are morphologically almost identical to modern priapulid burrows (Treptichnus pedum) officially mark the start of the Cambrian period, suggesting that priapulids, or at least close anatomical relatives, evolved around this time.[27] Crown-group priapulid body fossils are first known from the Carboniferous.[1]

Phylogeny edit

External phylogeny edit

[citation needed]

Internal phylogeny edit

[citation needed]

Archaeopriapulida [paraphyletic]

†Ancalagonida Adrianov & Malakhov 1995

Markuelia Valkov 1983

Palaeoscolecida Conway Morris & Robinson 1986

Kinorhyncha Reinhard 1887 (Spiny crown worms; Mud dragons)

Priapulida
Meiopriapulomorpha
Tubiluchidae

Paratubiluchus Han et al. 2004

Meiopriapulus Morse 1981

Tubiluchus van der Land 1968

Priapulimorpha
Maccabeidae

Maccabeus Por 1973

Halicryptidae

Halicryptus von Siebold 1849

Priapulidae

Priapulites Schram 1973

Xiaoheiqingella Hu 2002

Priapulopsis Koren & Danielssen 1875

Acanthopriapulus van der Land 1970

Priapulus Lamarck 1816

Classification edit

See also: List of bilateral animal orders

There are 22 known extant species:[30][31]

 
Illustration of Ottoia, a prehistoric priapulid.

Phylum Priapulida Théel 1906

  • Order Halicryptomorpha Salvini-Plawen 1974 [Adrianov & Malakhov 1995; Salvini-Plawen 1974; Eupriapulida Lemburg, 1999]
    • Family Halicryptidae Salvini-Plawen 1974
      • Genus Halicryptus
        • Species H. higginsi (Shirley & Storch, 1999)
        • Species H. spinulosus (von Siebold, 1849)
  • Order Meiopriapulomorpha
    • Family Meiopriapulidae
      • Genus Meiopriapulus
        • Species M. fijiensis (Morse, 1981)
  • Order Priapulomorpha Adrianov & Malakhov 1995 (assigned its own order by [32])
    • Family Priapulidae Gosse 1855 [Xiaoheiqingidae (sic) Hu 2002]
      • 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 Tubiluchidae van der Land 1970 [Meiopriapulidae Adrianov & Malakhov 1995]
      • Genus Tubiluchus
        • 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 (Scmidt-Rhaesa, Panpeng & Yamasaki, 2017)
        • Species T. philippinensis (van der Land, 1985)
        • Species T. remanei (van der Land, 1982)
        • Species T. soyoae (Scmidt-Rhaesa, Panpeng & Yamasaki, 2017)
        • Species T. troglodytes (Todaro & Shirley, 2003)
        • Species T. vanuatensis (Adrianov & Malakhov, 1991)
  • Order Seticoronaria
    • Family Chaetostephanidae Por & Bromley 1974 [Chaetostephanidae Salvini-Plawen 1974]
      • Genus Maccabeus
        • Species M. cirratus (Malakhov, 1979)
        • Species M. tentaculatus (Por, 1973)

Extinct groups edit

Stem-group †Scalidophora

  • Order †Ancalagonida Adrianov & Malakhov 1995 [Fieldiida Adrianov & Malakhov 1995]
    • Family †Ancalagonidae Conway Morris 1977
    • Family †Fieldiidae Conway Morris 1977

Stem-group †Palaeoscolecida

  • Family †Selkirkiidae Conway Morris 1977
    • Genus †Selkirkia Walcott 1911 non Hemsley 1884
  • Order †Ottoiomorpha Adrianov & Malakhov 1995
    • Genus †Scolecofurca Conway Morris 1977
    • Family †Ottoiidae Walcott 1911
    • Family †Corynetidae Huang, Vannier & Chen 2004
      • Genus †Corynetis Luo & Hu 1999 [Anningvermis Huang, Vannier & Chen 2004]
    • Family †Miskoiidae Walcott 1911

References edit

  1. ^ a b c Budd, G. E.; Jensen, S. (May 2000). "A critical reappraisal of the fossil record of the bilaterian phyla". Biological Reviews of the Cambridge Philosophical Society. 75 (2): 253–95. doi:10.1111/j.1469-185X.1999.tb00046.x. PMID 10881389. S2CID 39772232.
  2. ^ Théel, Hjalmar (1905–1906). "Northern and Arctic Invertebrates in the Collection of the Swedish State Museum (Riksmuseum). II. Priapulids, Echiurids etc". Kungl. Svenska Vetenskapsakademiens Handlingar. 40 (4): 8–13.
  3. ^ a b c d e   One or more of the preceding sentences incorporates text from a publication now in the public domainShipley, Arthur Everett (1911). "Priapuloidea". In Chisholm, Hugh (ed.). Encyclopædia Britannica. Vol. 22 (11th ed.). Cambridge University Press. p. 313.
  4. ^ Oeschger, R.; Janssen, H. H. (September 1991). "Histological studies on Halicryptus spinulosus (Priapulida) with regard to environmental hydrogen sulfide resistance". Hydrobiologia. 222: 1–12. doi:10.1007/BF00017494. S2CID 31342308.
  5. ^ Cryptic species complex or an incomplete speciation? Phylogeographic analysis reveals an intricate Pleistocene history of Priapulus caudatus Lamarck, 1816
  6. ^ The phylogeny, classification and zoogeography of the class Priapulida. II. Revision of the family Priapulidae and zoogeography of priapulids
  7. ^ Margulis, Lynn; Chapman, Michael J. (19 March 2009). Kingdoms and Domains: An Illustrated Guide to the Phyla of Life on Earth. Academic Press. ISBN 978-0-08-092014-6.
  8. ^ "Ancestor of arthropods had the mouth of a penis worm".
  9. ^ Dunn, C. W.; Hejnol, A.; Matus, D. Q.; Pang, K.; Browne, W. E.; Smith, S. A.; Seaver, E.; Rouse, G. W.; Obst, M. (10 April 2008). "Broad Phylogenomic Sampling Improves Resolution of the Animal Tree of Life". Nature. 452 (7188): 745–749. Bibcode:2008Natur.452..745D. doi:10.1038/nature06614. PMID 18322464. S2CID 4397099.
  10. ^ Giere, Olav (November 2008). Meiobenthology: The Microscopic Motile Fauna of Aquatic Sediments. Springer. ISBN 978-3-540-68661-3.
  11. ^ Ax, Peter (2003-04-08). Multicellular Animals: Order in Nature – System Made by Man. Springer. ISBN 978-3-540-00146-1.
  12. ^ Shirley, Thomas C.; Storch, Volker (1999). "Halicryptus higginsi n.sp. (Priapulida): A Giant New Species from Barrow, Alaska". Invertebrate Biology. 118 (4): 404–413. doi:10.2307/3227009. JSTOR 3227009.
  13. ^ Tubiluchus lemburgi, a new species of meiobenthic Priapulida
  14. ^ Kingdoms and Domains: An Illustrated Guide to the Phyla of Life on Earth
  15. ^ a b c d Barnes, R. D. (1982). Invertebrate Zoology. Philadelphia, PA: Holt-Saunders International. pp. 873–877. ISBN 978-0-03-056747-6.
  16. ^ Handbook of Zoology
  17. ^ a b Wernström, Joel Vikberg; Slater, Ben J.; Sørensen, Martin V.; Crampton, Denise; Altenburger, Andreas (2023-08-12). "Geometric morphometrics of macro- and meiofaunal priapulid pharyngeal teeth provides a proxy for studying Cambrian "tooth taxa"". Zoomorphology. 142 (4): 411–421. doi:10.1007/s00435-023-00617-4. hdl:10037/30213. ISSN 1432-234X.
  18. ^ Evidence for Direct Development in Meiopriapulus fijiensis (Priapulida)
  19. ^ Rothe, B. H.; Schmidt-Rhaesa, A. (Winter 2010). "Structure of the nervous system in Tubiluchus troglodytes (Priapulida)". Invertebrate Biology. 129: 39–58. doi:10.1111/j.1744-7410.2010.00185.x.
  20. ^ Pechenik, J. A. (2009). Biology of the Invertebrates (6th ed.). New York: McGraw-Hill. p. 454. ISBN 978-0-07-302826-2.
  21. ^ Todaro, M. Antonio; Shirley, Thomas C. (2003). "A new meiobenthic priapulid (Priapulida, Tubiluchidae) from a Mediterranean submarine cave". Italian Journal of Zoology. 70: 79–87. doi:10.1080/11250000309356499. hdl:11380/303453. S2CID 84539380.
  22. ^ Wennberg, S. A.; Janssen, R.; Budd, G. E. (May–June 2008). "Early embryonic development of the priapulid worm Priapulus caudatus". Evolution & Development. 10 (3): 326–338. doi:10.1111/j.1525-142X.2008.00241.x. PMID 18460094. S2CID 11175247.
  23. ^ Janssen, R.; Wennberg, S. A.; Budd, G. E. (26 May 2009). "The hatching larva of the priapulid worm Halicryptus spinulosus". Frontiers in Zoology. 6: 8. doi:10.1186/1742-9994-6-8. PMC 2693540. PMID 19470151.
  24. ^ Higgins, Robert P.; Storch, Volker (January 1991). "Evidence for Direct Development in Meiopriapulus fijiensis (Priapulida)". Transactions of the American Microscopical Society. 110 (1): 37–46. doi:10.2307/3226738. JSTOR 3226738.
  25. ^ Martín-Durán, J. M.; Janssen, R.; Wennberg, S.; Budd, G. E.; Hejnol, A. (2012). "Deuterostomic development in the protostome Priapulus caudatus". Current Biology. 22 (22): 2161–2166. doi:10.1016/j.cub.2012.09.037. PMID 23103190.
  26. ^ "Penis worms show the evolution of the digestive system".
  27. ^ a b Vannier, J.; Calandra, I.; Gaillard, C.; Zylinska, A. (2010). "Priapulid worms: Pioneer horizontal burrowers at the Precambrian-Cambrian boundary". Geology. 38 (8): 711–714. Bibcode:2010Geo....38..711V. doi:10.1130/G30829.1.
  28. ^ Slater, Ben J.; Harvey, Thomas H. P.; Guilbaud, Romain; Butterfield, Nicholas J. (January 2017). Rahman, Imran (ed.). "A cryptic record of Burgess Shale-type diversity from the early Cambrian of Baltica". Palaeontology. 60 (1): 117–140. doi:10.1111/pala.12273. hdl:2381/38663.
  29. ^ Smith, M. R.; Harvey, T. H. P.; Butterfield, N. J. (July 2015). "The macro- and microfossil record of the Cambrian priapulid Ottoia" (PDF). Palaeontology. 58 (4): 705–721. doi:10.1111/pala.12168.
  30. ^ Giribet, Gonzalo; Edgecombe, Gregory D. (3 March 2020). The Invertebrate Tree of Life. Princeton University Press. ISBN 978-0-691-17025-1.
  31. ^ 2019 Annual Checklist : Browse taxonomic classification phylum: Cephalorhyncha, class: Priapulida
  32. ^ Adrianov A. V, Malakhov V. V. 2001. Symmetry of priapulids (Priapulida). 1. Symmetry of adults. 247:99–110.

External links edit

 
Wikispecies has information related to Priapulida.

February 15, 2024
priapulida, priapulid, worms, from, πριάπος, priāpos, priapus, diminutive, sometimes, referred, penis, worms, phylum, unsegmented, marine, worms, name, phylum, relates, greek, fertility, because, their, general, shape, their, extensible, spiny, introvert, ever. Priapulida priapulid worms from Gr priapos priapos Priapus Lat ul diminutive sometimes referred to as penis worms is a phylum of unsegmented marine worms The name of the phylum relates to the Greek god of fertility because their general shape and their extensible spiny introvert eversible proboscis may resemble the shape of a human penis They live in the mud and in comparatively shallow waters up to 90 metres 295 ft deep 3 Some species show a remarkable tolerance for hydrogen sulfide anoxia and low salinity 4 5 Halicryptus spinulosus appears to prefer brackish shallow waters 6 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 7 PriapulidaTemporal range Late Pennsylvanian Recent 1 Stem group from Cambrian PreꞒ Ꞓ O S D C P T J K Pg NPriapulus caudatusScientific classificationDomain EukaryotaKingdom AnimaliaSubkingdom EumetazoaClade ParaHoxozoaClade BilateriaClade Nephrozoa unranked ProtostomiaSuperphylum EcdysozoaClade ScalidophoraPhylum PriapulidaTheel 1906 2 OrdersSee textTogether with Echiura and Sipuncula they were once placed in the taxon Gephyrea but consistent morphological and molecular evidence supports their belonging to Ecdysozoa which also includes arthropods and nematodes Fossil findings show that the mouth design of the stem arthropod Pambdelurion 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 8 Among Ecdysozoa their nearest relatives are Kinorhyncha and Loricifera with which they constitute the Scalidophora clade named after the spines covering the introvert scalids 9 They feed on slow moving invertebrates such as polychaete worms Priapulid like fossils are known at least as far back as the Middle Cambrian They were likely major predators of the Cambrian period However crown group priapulids cannot be recognized until the Carboniferous 1 22 extant species of priapulid worms are known half of them being of meiobenthic size 10 Contents 1 Anatomy 1 1 Reproduction and development 2 Fossil record 3 Phylogeny 3 1 External phylogeny 3 2 Internal phylogeny 4 Classification 4 1 Extinct groups 5 References 6 External linksAnatomy editPriapulids are cylindrical worm like animals ranging from 0 2 0 3 11 to 39 centimetres 12 0 08 0 12 to 15 35 in long with a median anterior mouth quite devoid of any armature or tentacles The body is divided into a main trunk or abdomen and a somewhat swollen proboscis region ornamented with longitudinal ridges The body is ringed and often has circles of spines which are continued into the slightly protrusible pharynx 3 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 13 14 The body has a chitinous cuticle that is moulted as the animal grows 15 Members of the family Chaetostephanidae also secretes a gelatinous tube open in both ends which they live in 16 There is a wide body cavity which has no connection with the renal or reproductive organs so it is not a coelom it is probably a blood space or hemocoel 3 There are no vascular or respiratory systems but the body cavity does contain phagocytic amoebocytes and cells containing the respiratory pigment haemerythrin 15 The alimentary canal is straight consisting of an eversible pharynx an intestine and a short rectum The pharynx is muscular and lined by teeth 15 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 17 18 The anus is terminal although in Priapulus one or two hollow ventral diverticula of the body wall stretch out behind it 3 The nervous system consists of a nerve ring around the pharynx and a prominent cord running the length of the body with ganglia and longitudinal and transversal neurites consistent with an orthogonal organisation 19 The nervous system retains a basiepidermal configuration with a connection with the ectoderm forming part of the body wall There are no specialized sense organs but there are sensory nerve endings in the body especially on the proboscis 15 The priapulids are gonochoristic having two separate sexes i e male and female 20 Their male and female organs are closely associated with the excretory protonephridia 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 flatworms 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 3 The perigenital area of the genus Tubiluchus exhibit sexual dimorphism 21 Reproduction and development edit Priapulid development has been reappraised recently because early studies reported abnormal development caused by high temperature of embryo culture For the species Priapulus caudatus the 80 µm egg undergoes a total and radial cleavage following a symmetrical and subequal pattern 22 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 23 The species Meiopriapulus fijiensis have direct development 24 In current systematics they are described as protostomes despite having a deuterostomic development 25 Because the group is so ancient it is assumed the deuterostome condition which appears to be ancestral for bilaterians have been maintained 26 Fossil record edit nbsp Ottoia tricuspida in the Burgess Shale Middle Cambrian nbsp Microfossil of a priapulid tooth Ottoia Cambrian From Smith et al 2015Stem group priapulids are known from the Middle Cambrian Burgess Shale where their soft part anatomy is preserved often in conjunction with their gut contents allowing a reconstruction of their diets 27 In addition isolated microfossils corresponding to the various teeth and spines that line the pharynx and introvert are widespread in Cambrian deposits 28 allowing the distribution of priapulids and even individual species to be tracked widely through Cambrian oceans 29 17 Trace fossils that are morphologically almost identical to modern priapulid burrows Treptichnus pedum officially mark the start of the Cambrian period suggesting that priapulids or at least close anatomical relatives evolved around this time 27 Crown group priapulid body fossils are first known from the Carboniferous 1 Phylogeny editExternal phylogeny edit citation needed Ecdysozoa Scalidophora Priapulida nbsp Kinorhyncha nbsp Nematoida Nematoda nbsp Nematomorpha nbsp Panarthropoda Onychophora nbsp Tactopoda Tardigrada nbsp Arthropoda nbsp gt 529 myaInternal phylogeny edit citation needed Archaeopriapulida paraphyletic Ancalagonida Adrianov amp Malakhov 1995 Markuelia Valkov 1983 Palaeoscolecida Conway Morris amp Robinson 1986Kinorhyncha Reinhard 1887 Spiny crown worms Mud dragons Priapulida Meiopriapulomorpha Tubiluchidae Paratubiluchus Han et al 2004Meiopriapulus Morse 1981Tubiluchus van der Land 1968Priapulimorpha Maccabeidae Maccabeus Por 1973Halicryptidae Halicryptus von Siebold 1849Priapulidae Priapulites Schram 1973 Xiaoheiqingella Hu 2002Priapulopsis Koren amp Danielssen 1875Acanthopriapulus van der Land 1970Priapulus Lamarck 1816Classification editSee also List of bilateral animal orders There are 22 known extant species 30 31 nbsp Illustration of Ottoia a prehistoric priapulid Phylum Priapulida Theel 1906 Order Halicryptomorpha Salvini Plawen 1974 Adrianov amp Malakhov 1995 Salvini Plawen 1974 Eupriapulida Lemburg 1999 Family Halicryptidae Salvini Plawen 1974 Genus Halicryptus Species H higginsi Shirley amp Storch 1999 Species H spinulosus von Siebold 1849 Order Meiopriapulomorpha Family Meiopriapulidae Genus Meiopriapulus Species M fijiensis Morse 1981 Order Priapulomorpha Adrianov amp Malakhov 1995 assigned its own order by 32 Family Priapulidae Gosse 1855 Xiaoheiqingidae sic Hu 2002 Genus Acanthopriapulus Species A horridus Theel 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 Tubiluchidae van der Land 1970 Meiopriapulidae Adrianov amp Malakhov 1995 Genus Tubiluchus Species T arcticus Adrianov Malakhov Tchesunov amp Tzetlin 1989 Species T australensis van der Land 1985 Species T corallicola van der Land 1968 Species T lemburgi Schmidt Rhaesa Rothe amp Martinez 2013 Species T pardosi Scmidt Rhaesa Panpeng amp Yamasaki 2017 Species T philippinensis van der Land 1985 Species T remanei van der Land 1982 Species T soyoae Scmidt Rhaesa Panpeng amp Yamasaki 2017 Species T troglodytes Todaro amp Shirley 2003 Species T vanuatensis Adrianov amp Malakhov 1991 Order Seticoronaria Family Chaetostephanidae Por amp Bromley 1974 Chaetostephanidae Salvini Plawen 1974 Genus Maccabeus Species M cirratus Malakhov 1979 Species M tentaculatus Por 1973 Extinct groups edit Stem group Scalidophora Order Ancalagonida Adrianov amp Malakhov 1995 Fieldiida Adrianov amp Malakhov 1995 Family Ancalagonidae Conway Morris 1977 Genus Ancalagon Conway Morris 1977 Family Fieldiidae Conway Morris 1977 Genus Fieldia Walcott 1912Stem group Palaeoscolecida Family Selkirkiidae Conway Morris 1977 Genus Selkirkia Walcott 1911 non Hemsley 1884 Order Ottoiomorpha Adrianov amp Malakhov 1995 Genus Scolecofurca Conway Morris 1977 Family Ottoiidae Walcott 1911 Genus Ottoia Walcott 1911 Family Corynetidae Huang Vannier amp Chen 2004 Genus Corynetis Luo amp Hu 1999 Anningvermis Huang Vannier amp Chen 2004 Family Miskoiidae Walcott 1911 Genus Miskoia Walcott 1911 Genus Louisella Conway Morris 1977References edit a b c Budd G E Jensen S May 2000 A critical reappraisal of the fossil record of the bilaterian phyla Biological Reviews of the Cambridge Philosophical Society 75 2 253 95 doi 10 1111 j 1469 185X 1999 tb00046 x PMID 10881389 S2CID 39772232 Theel Hjalmar 1905 1906 Northern and Arctic Invertebrates in the Collection of the Swedish State Museum Riksmuseum II Priapulids Echiurids etc Kungl Svenska Vetenskapsakademiens Handlingar 40 4 8 13 a b c d e nbsp One or more of the preceding sentences incorporates text from a publication now in the public domain Shipley Arthur Everett 1911 Priapuloidea In Chisholm Hugh ed Encyclopaedia Britannica Vol 22 11th ed Cambridge University Press p 313 Oeschger R Janssen H H September 1991 Histological studies on Halicryptus spinulosus Priapulida with regard to environmental hydrogen sulfide resistance Hydrobiologia 222 1 12 doi 10 1007 BF00017494 S2CID 31342308 Cryptic species complex or an incomplete speciation Phylogeographic analysis reveals an intricate Pleistocene history of Priapulus caudatus Lamarck 1816 The phylogeny classification and zoogeography of the class Priapulida II Revision of the family Priapulidae and zoogeography of priapulids Margulis Lynn Chapman Michael J 19 March 2009 Kingdoms and Domains An Illustrated Guide to the Phyla of Life on Earth Academic Press ISBN 978 0 08 092014 6 Ancestor of arthropods had the mouth of a penis worm Dunn C W Hejnol A Matus D Q Pang K Browne W E Smith S A Seaver E Rouse G W Obst M 10 April 2008 Broad Phylogenomic Sampling Improves Resolution of the Animal Tree of Life Nature 452 7188 745 749 Bibcode 2008Natur 452 745D doi 10 1038 nature06614 PMID 18322464 S2CID 4397099 Giere Olav November 2008 Meiobenthology The Microscopic Motile Fauna of Aquatic Sediments Springer ISBN 978 3 540 68661 3 Ax Peter 2003 04 08 Multicellular Animals Order in Nature System Made by Man Springer ISBN 978 3 540 00146 1 Shirley Thomas C Storch Volker 1999 Halicryptus higginsi n sp Priapulida A Giant New Species from Barrow Alaska Invertebrate Biology 118 4 404 413 doi 10 2307 3227009 JSTOR 3227009 Tubiluchus lemburgi a new species of meiobenthic Priapulida Kingdoms and Domains An Illustrated Guide to the Phyla of Life on Earth a b c d Barnes R D 1982 Invertebrate Zoology Philadelphia PA Holt Saunders International pp 873 877 ISBN 978 0 03 056747 6 Handbook of Zoology a b Wernstrom Joel Vikberg Slater Ben J Sorensen Martin V Crampton Denise Altenburger Andreas 2023 08 12 Geometric morphometrics of macro and meiofaunal priapulid pharyngeal teeth provides a proxy for studying Cambrian tooth taxa Zoomorphology 142 4 411 421 doi 10 1007 s00435 023 00617 4 hdl 10037 30213 ISSN 1432 234X Evidence for Direct Development in Meiopriapulus fijiensis Priapulida Rothe B H Schmidt Rhaesa A Winter 2010 Structure of the nervous system in Tubiluchus troglodytes Priapulida Invertebrate Biology 129 39 58 doi 10 1111 j 1744 7410 2010 00185 x Pechenik J A 2009 Biology of the Invertebrates 6th ed New York McGraw Hill p 454 ISBN 978 0 07 302826 2 Todaro M Antonio Shirley Thomas C 2003 A new meiobenthic priapulid Priapulida Tubiluchidae from a Mediterranean submarine cave Italian Journal of Zoology 70 79 87 doi 10 1080 11250000309356499 hdl 11380 303453 S2CID 84539380 Wennberg S A Janssen R Budd G E May June 2008 Early embryonic development of the priapulid worm Priapulus caudatus Evolution amp Development 10 3 326 338 doi 10 1111 j 1525 142X 2008 00241 x PMID 18460094 S2CID 11175247 Janssen R Wennberg S A Budd G E 26 May 2009 The hatching larva of the priapulid worm Halicryptus spinulosus Frontiers in Zoology 6 8 doi 10 1186 1742 9994 6 8 PMC 2693540 PMID 19470151 Higgins Robert P Storch Volker January 1991 Evidence for Direct Development in Meiopriapulus fijiensis Priapulida Transactions of the American Microscopical Society 110 1 37 46 doi 10 2307 3226738 JSTOR 3226738 Martin Duran J M Janssen R Wennberg S Budd G E Hejnol A 2012 Deuterostomic development in the protostome Priapulus caudatus Current Biology 22 22 2161 2166 doi 10 1016 j cub 2012 09 037 PMID 23103190 Penis worms show the evolution of the digestive system a b Vannier J Calandra I Gaillard C Zylinska A 2010 Priapulid worms Pioneer horizontal burrowers at the Precambrian Cambrian boundary Geology 38 8 711 714 Bibcode 2010Geo 38 711V doi 10 1130 G30829 1 Slater Ben J Harvey Thomas H P Guilbaud Romain Butterfield Nicholas J January 2017 Rahman Imran ed A cryptic record of Burgess Shale type diversity from the early Cambrian of Baltica Palaeontology 60 1 117 140 doi 10 1111 pala 12273 hdl 2381 38663 Smith M R Harvey T H P Butterfield N J July 2015 The macro and microfossil record of the Cambrian priapulid Ottoia PDF Palaeontology 58 4 705 721 doi 10 1111 pala 12168 Giribet Gonzalo Edgecombe Gregory D 3 March 2020 The Invertebrate Tree of Life Princeton University Press ISBN 978 0 691 17025 1 2019 Annual Checklist Browse taxonomic classification phylum Cephalorhyncha class Priapulida Adrianov A V Malakhov V V 2001 Symmetry of priapulids Priapulida 1 Symmetry of adults 247 99 110 External links edit nbsp Wikispecies has information related to Priapulida Evolution of the penis worm Press Releases University of Bristol 2006 08 09 Retrieved from https en wikipedia org w index php title Priapulida amp oldid 1203813534, wikipedia, wiki, book, books, library,

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