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Polyandrocarpa
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Subphylum: Tunicata
Class: Ascidiacea
Order: Stolidobranchia
Family: Styelidae
Genus: Polyandrocarpa
Michaelsen, 1904
Species

See text

Polyandrocarpa is a genus of ascidian tunicates within the family Styelidae.

Taxonomy

Tunicates are a subphylum of the Chordata and occupy a diverse range of marine habitats such as shallow water, near shore, open ocean, and the deep sea. [1] Tunicates are invertebrates, and their bodies are surrounded by a tunic resembling cartilage, composed of proteins, carbohydrates, and tunicin, with thickness ranging from thin and delicate to transparent and gelatinous. [2] The three classes of tunicates are Ascidiacea, Thaliacea, and Appendicularia. [1]

The Ascidiacea class, also known as the sea squirts, are primarily sessile species that filter-feed and reproduce by budding. [3] [4] This class contains three orders: Aplousobranchia, Phlebobranchia, and Stolidobranchia.

The order Stolidobranchia are distinguished from other tunicates due to the presence of folded pharyngeal baskets. [5] The order Stolidobranchia contains three families: Molgulidae, Pyuridae, and Styelidae. [6] [7]

Styelidae contain both colonial and solitary species, and a number of these species have intermediate morphologies. [7] For example, certain social species within the Styelidae family reproduce clonally, and others grow in large clusters that resemble social colonies; some species brood larvae, and others are solitary, free-spawning species; and some species within Styelidae exhibit direct development. [7]

Polyandrocarpa are a genus within the family Styelidae. Characteristics of Polyandrocarpa species include bilateral symmetry, colonial organization, a soft-bodied skeletal structure, i.e., invertebrates, and may possibly include an ocelli visual system. Species are filter feeders in marine benthic and shallow environments. [8]

Species

Species within the genus Polyandrocarpa include: [9]

  • Polyandrocarpa abjornseni Michaelsen, 1927
    • Polyandrocarpa abjornseni have two, long-oval gonads on each side of the body, each with six pairs of male follicles, differing from most known species of Polyandrocarpa that have short, numerous polycarp-type gonads. [10]
  • Polyandrocarpa anguinea Sluiter, 1898
    • Polyandrocarpa anguinea has a known distribution of the Southeastern United States (Florida), Panama, Martinica, Southeastern Brazil, Sierra Leone, South Africa, Mauricius Island, Indonesia, Philippines, Australia, and New Caledonia. [11]
  • Polyandrocarpa arianae Monniot F., 2016
    • Polyandrocarpa arianae has a polycarpid gonad. [12]
  • Polyandrocarpa aurorae Monniot F., 2018
  • Polyandrocarpa australiensis Kott, 1952
  • Polyandrocarpa chendurensis Renganathan & Krishnaswamy, 1985
  • Polyandrocarpa colemani Kott, 1992
    • Polyandrocarpa colemani have a large colony of zooids and a thick layer of muscles within the body wall. [10]
  • Polyandrocarpa colligata Sluiter, 1913
  • Polyandrocarpa durbanensis Millar, 1955
  • Polyandrocarpa glandulosa Monniot C., 1987
  • Polyandrocarpa gravei Van Name, 1931
  • Polyandrocarpa griffithsi Monniot C., Monniot F., Griffiths & Schleyer, 2001
  • Polyandrocarpa lapidosa Herdman, 1891
  • Polyandrocarpa misakiensis Watanabe & Tokioka, 1972
  • Polyandrocarpa oligocarpa Millar, 1970
  • Polyandrocarpa ordinata Monniot C., 1983
  • Polyandrocarpa pilella Herdman, 1881
  • Polyandrocarpa placenta Herdman, 1886
  • Polyandrocarpa polypora Monniot F. & Monniot C., 2001
  • Polyandrocarpa robusta Sluiter, 1919
  • Polyandrocarpa rollandi Tokioka, 1961
  • Polyandrocarpa shimodensis Brunetti, 2007
  • Polyandrocarpa simulans Kott, 1972
  • Polyandrocarpa sparsa Kott, 1985
  • Polyandrocarpa triggiensis Kott, 1952
  • Polyandrocarpa watsonia Kott, 1985
  • Polyandrocarpa zorritensis Van Name, 1931
    • Polyandrocarpa zorritensis has a known distribution of Japan, Guam, and Hawaii, with a probable geographical origin of the Western Pacific region. [11] It is a colonial species with an asexual life cycle. [13]

Habitat and distribution

Polyandrocarpa have been found in marine environments globally. [14] Species can range from shallow environments to benthic environments. For example, Polyandrocarpa zorritensis is a shallow species, whereas Polyandrocarpa arianae have been found deeper than 90 meters in the Mediterranean Sea. [15]

Polyandrocarpa have been reported in various regions, including the coasts of North America, South America, Europe, Africa, Asia, Australia, and in the Atlantic, Pacific, and Indian Oceans. [11] [16]

Some species of Polyandrocarpa are invasive in certain regions. For example, Polyandrocarpa zorritensis is native to the Atlantic Ocean but is considered a threat to certain marine species in the Mediterranean Sea. [16] [17]

Habitats of Polyandrocarpa species include coral reefs, estuaries, rocky or other hard surfaces, and marine benthic environments. Species attach to surfaces using an adhesive secretion. [16] [18]

Species of Polyandrocarpa play an important role in marine ecosystems as filter feeders, helping to remove small particles and pollutants from the water. [19] [20]

Diet

Polyandrocarpa feed on small particles and plankton. [20]

Life history

Polyandrocarpa are characterized by their small size and simple body structure. They typically form small, spherical colonies that consist of multiple individuals, or zooids, connected together. [21]

Polyandrocarpa form colonies composed of multiple individuals. [14] [10]

Polyandrocarpa can have colonies with embedded zooids or separate zooids joined by basal stolons, though the majority of species within this genus do not have completely embedded zooids. [10] Each zooid has a sac-like body with two siphons: an inhalant siphon that draws in water and food particles, and an exhalant siphon that expels waste and water back into the surrounding environment. [22] An exception to this is Polyandrocarpa colligata. P. colligata has completely embedded zooids and an encrusting colony. [10]

Tunicates can reproduce both sexually and asexually. Polyandrocarpa zorritensis have the ability to reproduce via non-embryonic development (NED), i.e., asexual budding. Polyandrocarpa are capable of regenerating body parts. [23]

Some Polyandrocarpa species have adapted to high-flow environments and are tolerant to temperature and salinity changes. [24]

Uses by humans

Some species of Polyandrocarpa are also used in biomedical research due to their ability to regenerate body parts, which may have implications for human tissue engineering and organ transplantations in the future. [23]

References

  1. ^ a b Holland, Linda Z. (2016-02-22). "Tunicates". Current Biology. 26 (4): R146–R152. Bibcode: 2016CBio...26.R146H. doi: 10.1016/j.cub.2015.12.024. ISSN  0960-9822. PMID  26906481. S2CID  235602431.
  2. ^ Daugavet, M. A.; Dobrynina, M. I.; Shaposhnikova, T. G.; Solovyeva, A. I.; Mittenberg, A. G.; Shabelnikov, S. V.; Babkina, I. Yu.; Grinchenko, A. V.; Ilyaskina, D. V.; Podgornaya, O. I. (2022-08-22). "New putative phenol oxidase in ascidian blood cells". Scientific Reports. 12 (1): 14326. Bibcode: 2022NatSR..1214326D. doi: 10.1038/s41598-022-18283-9. ISSN  2045-2322. PMC  9395347. PMID  35995990.
  3. ^ Scelzo, Marta; Alié, Alexandre; Pagnotta, Sophie; Lejeune, Camille; Henry, Pauline; Gilletta, Laurent; Hiebert, Laurel S.; Mastrototaro, Francesco; Tiozzo, Stefano (December 2019). "Novel budding mode in Polyandrocarpa zorritensis: a model for comparative studies on asexual development and whole body regeneration". EvoDevo. 10 (1): 7. doi: 10.1186/s13227-019-0121-x. ISSN  2041-9139. PMC  6446293. PMID  30984365.
  4. ^ Shenkar, Noa; Swalla, Billie J. (2011-06-20). "Global Diversity of Ascidiacea". PLOS ONE. 6 (6): e20657. Bibcode: 2011PLoSO...620657S. doi: 10.1371/journal.pone.0020657. ISSN  1932-6203. PMC  3119061. PMID  21701684.
  5. ^ Barnes, Robert D. (1980). Invertebrate zoology (4 ed.). Philadelphia: Saunders College. ISBN  0-03-056747-5. OCLC  5830048.
  6. ^ Alié, Alexandre; Hiebert, Laurel Sky; Simion, Paul; Scelzo, Marta; Prünster, Maria Mandela; Lotito, Sonia; Delsuc, Frédéric; Douzery, Emmanuel J P; Dantec, Christelle; Lemaire, Patrick; Darras, Sébastien; Kawamura, Kazuo; Brown, Federico D; Tiozzo, Stefano (2018-07-01). King, Nicole (ed.). "Convergent Acquisition of Nonembryonic Development in Styelid Ascidians". Molecular Biology and Evolution. 35 (7): 1728–1743. doi: 10.1093/molbev/msy068. ISSN  0737-4038. PMC  5995219. PMID  29660002.
  7. ^ a b c Zeng, Liyun; Jacobs, Molly W.; Swalla, Billie J. (June 1, 2006). "Coloniality has evolved once in Stolidobranch Ascidians". Integrative and Comparative Biology. 46 (3): 255–268. doi: 10.1093/icb/icj035. PMID  21672740. Retrieved 2023-04-19.
  8. ^ "Polyandrocarpa Michaelsen 1904 - Encyclopedia of Life". eol.org. Retrieved 2023-04-19.
  9. ^ "WoRMS - World Register of Marine Species - Polyandrocarpa Michaelsen, 1904". www.marinespecies.org. Retrieved 2023-04-19.
  10. ^ a b c d e Kott, Patricia (2005-09-27). "Novel Australian Polyzoinae (Styelidae, Tunicata)". Journal of Natural History. 39 (32): 2997–3011. Bibcode: 2005JNatH..39.2997K. doi: 10.1080/00222930500239702. ISSN  0022-2933. S2CID  86839475.
  11. ^ a b c Carman, Mary R. (2011). "Ascidians at the Pacific and Atlantic entrances to the Panama Canal". Aquatic Invasions. 6 (4): 371–380. doi: 10.3391/ai.2011.6.4.02. hdl: 1912/5294.
  12. ^ "Convergent Acquisition of Nonembryonic Development in Styelid Ascidians". academic.oup.com. Retrieved 2023-04-19.
  13. ^ Scelzo, Marta; Alié, Alexandre; Pagnotta, Sophie; Lejeune, Camille; Henry, Pauline; Gilletta, Laurent; Hiebert, Laurel S.; Mastrototaro, Francesco; Tiozzo, Stefano (2019-04-03). "Novel budding mode in Polyandrocarpa zorritensis: a model for comparative studies on asexual development and whole body regeneration". EvoDevo. 10 (1): 7. doi: 10.1186/s13227-019-0121-x. ISSN  2041-9139. PMC  6446293. PMID  30984365.
  14. ^ a b "Polyandrocarpa zorritensis". invasions.si.edu. Retrieved 2023-04-19.
  15. ^ Monniot, Françoise (2016-06-28). "A new species of Polyandrocarpa (Ascidiacea, Styelidae) in the Mediterranean Sea". Zootaxa. 4132 (1): 87–96. doi: 10.11646/zootaxa.4132.1.7. ISSN  1175-5334. PMID  27395654.
  16. ^ a b c "Polyandrocarpa zorritensis". invasions.si.edu. Retrieved 2023-04-19.
  17. ^ "WoRMS - World Register of Marine Species - Polyandrocarpa zorritensis (Van Name, 1931)". www.marinespecies.org. Retrieved 2023-04-19.
  18. ^ Mastrototaro, Francesco (2022-01-07). "Polyandrocarpa zorritensis". CABI Compendium. CABI Compendium: 108975. doi: 10.1079/cabicompendium.108975. ISSN  2958-3969. S2CID  253656284.
  19. ^ Burge, Colleen A.; CLosek, Collin J.; Friedman, Carolyn S.; Groner, Maya L.; Jenkins, Cody M.; Shore-Maggio, Amanda; Welsh, Jennifer E. (October 4, 2016). "The Use of Filter-feeders to Manage Disease in a Changing World". Integrative and Comparative Biology. 56 (4): 573–587. doi: 10.1093/icb/icw048. PMID  27371383. Retrieved 2023-04-19.
  20. ^ a b Jacobi, Yuval; Yahel, Gitai; Shenkar, Noa (November 20, 2017). "Efficient filtration of micron and submicron particles by ascidians from oligotrophic waters: Submicron particle capture by ascidians". Limnology and Oceanography. 63 (S1): S267–S279. doi: 10.1002/lno.10736. S2CID  90375734.
  21. ^ Alié, Alexandre; Hiebert, Laurel Sky; Simion, Paul; Scelzo, Marta; Prünster, Maria Mandela; Lotito, Sonia; Delsuc, Frédéric; Douzery, Emmanuel J P; Dantec, Christelle; Lemaire, Patrick; Darras, Sébastien; Kawamura, Kazuo; Brown, Federico D; Tiozzo, Stefano (2018-07-01). King, Nicole (ed.). "Convergent Acquisition of Nonembryonic Development in Styelid Ascidians". Molecular Biology and Evolution. 35 (7): 1728–1743. doi: 10.1093/molbev/msy068. ISSN  0737-4038. PMC  5995219. PMID  29660002.
  22. ^ Koyama, Hiromichi; Kusunoki, Toyokazu (1993-12-22). "Organization of the cerebral ganglion of the colonial ascidianPolyandrocarpa misakiensis". The Journal of Comparative Neurology. 338 (4): 549–559. doi: 10.1002/cne.903380405. ISSN  0021-9967. PMID  8132860. S2CID  6884687.
  23. ^ a b Scelzo, Marta; Alié, Alexandre; Pagnotta, Sophie; Lejeune, Camille; Henry, Pauline; Gilletta, Laurent; Hiebert, Laurel S.; Mastrototaro, Francesco; Tiozzo, Stefano (2019). "Novel budding mode in Polyandrocarpa zorritensis: a model for comparative studies on asexual development and whole body regeneration". EvoDevo. 10 (1): 7. doi: 10.1186/s13227-019-0121-x. ISSN  2041-9139. PMC  6446293. PMID  30984365.
  24. ^ Alié, Alexandre; Hiebert, Laurel Sky; Simion, Paul; Scelzo, Marta; Prünster, Maria Mandela; Lotito, Sonia; Delsuc, Frédéric; Douzery, Emmanuel J P; Dantec, Christelle; Lemaire, Patrick; Darras, Sébastien; Kawamura, Kazuo; Brown, Federico D; Tiozzo, Stefano (2018-07-01). King, Nicole (ed.). "Convergent Acquisition of Nonembryonic Development in Styelid Ascidians". Molecular Biology and Evolution. 35 (7): 1728–1743. doi: 10.1093/molbev/msy068. ISSN  0737-4038. PMC  5995219. PMID  29660002 – via National Library of Medicine.
Retrieved from " https://en.wikipedia.org/?title=Polyandrocarpa&oldid=1220464737"
From Wikipedia, the free encyclopedia

Polyandrocarpa
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Subphylum: Tunicata
Class: Ascidiacea
Order: Stolidobranchia
Family: Styelidae
Genus: Polyandrocarpa
Michaelsen, 1904
Species

See text

Polyandrocarpa is a genus of ascidian tunicates within the family Styelidae.

Taxonomy

Tunicates are a subphylum of the Chordata and occupy a diverse range of marine habitats such as shallow water, near shore, open ocean, and the deep sea. [1] Tunicates are invertebrates, and their bodies are surrounded by a tunic resembling cartilage, composed of proteins, carbohydrates, and tunicin, with thickness ranging from thin and delicate to transparent and gelatinous. [2] The three classes of tunicates are Ascidiacea, Thaliacea, and Appendicularia. [1]

The Ascidiacea class, also known as the sea squirts, are primarily sessile species that filter-feed and reproduce by budding. [3] [4] This class contains three orders: Aplousobranchia, Phlebobranchia, and Stolidobranchia.

The order Stolidobranchia are distinguished from other tunicates due to the presence of folded pharyngeal baskets. [5] The order Stolidobranchia contains three families: Molgulidae, Pyuridae, and Styelidae. [6] [7]

Styelidae contain both colonial and solitary species, and a number of these species have intermediate morphologies. [7] For example, certain social species within the Styelidae family reproduce clonally, and others grow in large clusters that resemble social colonies; some species brood larvae, and others are solitary, free-spawning species; and some species within Styelidae exhibit direct development. [7]

Polyandrocarpa are a genus within the family Styelidae. Characteristics of Polyandrocarpa species include bilateral symmetry, colonial organization, a soft-bodied skeletal structure, i.e., invertebrates, and may possibly include an ocelli visual system. Species are filter feeders in marine benthic and shallow environments. [8]

Species

Species within the genus Polyandrocarpa include: [9]

  • Polyandrocarpa abjornseni Michaelsen, 1927
    • Polyandrocarpa abjornseni have two, long-oval gonads on each side of the body, each with six pairs of male follicles, differing from most known species of Polyandrocarpa that have short, numerous polycarp-type gonads. [10]
  • Polyandrocarpa anguinea Sluiter, 1898
    • Polyandrocarpa anguinea has a known distribution of the Southeastern United States (Florida), Panama, Martinica, Southeastern Brazil, Sierra Leone, South Africa, Mauricius Island, Indonesia, Philippines, Australia, and New Caledonia. [11]
  • Polyandrocarpa arianae Monniot F., 2016
    • Polyandrocarpa arianae has a polycarpid gonad. [12]
  • Polyandrocarpa aurorae Monniot F., 2018
  • Polyandrocarpa australiensis Kott, 1952
  • Polyandrocarpa chendurensis Renganathan & Krishnaswamy, 1985
  • Polyandrocarpa colemani Kott, 1992
    • Polyandrocarpa colemani have a large colony of zooids and a thick layer of muscles within the body wall. [10]
  • Polyandrocarpa colligata Sluiter, 1913
  • Polyandrocarpa durbanensis Millar, 1955
  • Polyandrocarpa glandulosa Monniot C., 1987
  • Polyandrocarpa gravei Van Name, 1931
  • Polyandrocarpa griffithsi Monniot C., Monniot F., Griffiths & Schleyer, 2001
  • Polyandrocarpa lapidosa Herdman, 1891
  • Polyandrocarpa misakiensis Watanabe & Tokioka, 1972
  • Polyandrocarpa oligocarpa Millar, 1970
  • Polyandrocarpa ordinata Monniot C., 1983
  • Polyandrocarpa pilella Herdman, 1881
  • Polyandrocarpa placenta Herdman, 1886
  • Polyandrocarpa polypora Monniot F. & Monniot C., 2001
  • Polyandrocarpa robusta Sluiter, 1919
  • Polyandrocarpa rollandi Tokioka, 1961
  • Polyandrocarpa shimodensis Brunetti, 2007
  • Polyandrocarpa simulans Kott, 1972
  • Polyandrocarpa sparsa Kott, 1985
  • Polyandrocarpa triggiensis Kott, 1952
  • Polyandrocarpa watsonia Kott, 1985
  • Polyandrocarpa zorritensis Van Name, 1931
    • Polyandrocarpa zorritensis has a known distribution of Japan, Guam, and Hawaii, with a probable geographical origin of the Western Pacific region. [11] It is a colonial species with an asexual life cycle. [13]

Habitat and distribution

Polyandrocarpa have been found in marine environments globally. [14] Species can range from shallow environments to benthic environments. For example, Polyandrocarpa zorritensis is a shallow species, whereas Polyandrocarpa arianae have been found deeper than 90 meters in the Mediterranean Sea. [15]

Polyandrocarpa have been reported in various regions, including the coasts of North America, South America, Europe, Africa, Asia, Australia, and in the Atlantic, Pacific, and Indian Oceans. [11] [16]

Some species of Polyandrocarpa are invasive in certain regions. For example, Polyandrocarpa zorritensis is native to the Atlantic Ocean but is considered a threat to certain marine species in the Mediterranean Sea. [16] [17]

Habitats of Polyandrocarpa species include coral reefs, estuaries, rocky or other hard surfaces, and marine benthic environments. Species attach to surfaces using an adhesive secretion. [16] [18]

Species of Polyandrocarpa play an important role in marine ecosystems as filter feeders, helping to remove small particles and pollutants from the water. [19] [20]

Diet

Polyandrocarpa feed on small particles and plankton. [20]

Life history

Polyandrocarpa are characterized by their small size and simple body structure. They typically form small, spherical colonies that consist of multiple individuals, or zooids, connected together. [21]

Polyandrocarpa form colonies composed of multiple individuals. [14] [10]

Polyandrocarpa can have colonies with embedded zooids or separate zooids joined by basal stolons, though the majority of species within this genus do not have completely embedded zooids. [10] Each zooid has a sac-like body with two siphons: an inhalant siphon that draws in water and food particles, and an exhalant siphon that expels waste and water back into the surrounding environment. [22] An exception to this is Polyandrocarpa colligata. P. colligata has completely embedded zooids and an encrusting colony. [10]

Tunicates can reproduce both sexually and asexually. Polyandrocarpa zorritensis have the ability to reproduce via non-embryonic development (NED), i.e., asexual budding. Polyandrocarpa are capable of regenerating body parts. [23]

Some Polyandrocarpa species have adapted to high-flow environments and are tolerant to temperature and salinity changes. [24]

Uses by humans

Some species of Polyandrocarpa are also used in biomedical research due to their ability to regenerate body parts, which may have implications for human tissue engineering and organ transplantations in the future. [23]

References

  1. ^ a b Holland, Linda Z. (2016-02-22). "Tunicates". Current Biology. 26 (4): R146–R152. Bibcode: 2016CBio...26.R146H. doi: 10.1016/j.cub.2015.12.024. ISSN  0960-9822. PMID  26906481. S2CID  235602431.
  2. ^ Daugavet, M. A.; Dobrynina, M. I.; Shaposhnikova, T. G.; Solovyeva, A. I.; Mittenberg, A. G.; Shabelnikov, S. V.; Babkina, I. Yu.; Grinchenko, A. V.; Ilyaskina, D. V.; Podgornaya, O. I. (2022-08-22). "New putative phenol oxidase in ascidian blood cells". Scientific Reports. 12 (1): 14326. Bibcode: 2022NatSR..1214326D. doi: 10.1038/s41598-022-18283-9. ISSN  2045-2322. PMC  9395347. PMID  35995990.
  3. ^ Scelzo, Marta; Alié, Alexandre; Pagnotta, Sophie; Lejeune, Camille; Henry, Pauline; Gilletta, Laurent; Hiebert, Laurel S.; Mastrototaro, Francesco; Tiozzo, Stefano (December 2019). "Novel budding mode in Polyandrocarpa zorritensis: a model for comparative studies on asexual development and whole body regeneration". EvoDevo. 10 (1): 7. doi: 10.1186/s13227-019-0121-x. ISSN  2041-9139. PMC  6446293. PMID  30984365.
  4. ^ Shenkar, Noa; Swalla, Billie J. (2011-06-20). "Global Diversity of Ascidiacea". PLOS ONE. 6 (6): e20657. Bibcode: 2011PLoSO...620657S. doi: 10.1371/journal.pone.0020657. ISSN  1932-6203. PMC  3119061. PMID  21701684.
  5. ^ Barnes, Robert D. (1980). Invertebrate zoology (4 ed.). Philadelphia: Saunders College. ISBN  0-03-056747-5. OCLC  5830048.
  6. ^ Alié, Alexandre; Hiebert, Laurel Sky; Simion, Paul; Scelzo, Marta; Prünster, Maria Mandela; Lotito, Sonia; Delsuc, Frédéric; Douzery, Emmanuel J P; Dantec, Christelle; Lemaire, Patrick; Darras, Sébastien; Kawamura, Kazuo; Brown, Federico D; Tiozzo, Stefano (2018-07-01). King, Nicole (ed.). "Convergent Acquisition of Nonembryonic Development in Styelid Ascidians". Molecular Biology and Evolution. 35 (7): 1728–1743. doi: 10.1093/molbev/msy068. ISSN  0737-4038. PMC  5995219. PMID  29660002.
  7. ^ a b c Zeng, Liyun; Jacobs, Molly W.; Swalla, Billie J. (June 1, 2006). "Coloniality has evolved once in Stolidobranch Ascidians". Integrative and Comparative Biology. 46 (3): 255–268. doi: 10.1093/icb/icj035. PMID  21672740. Retrieved 2023-04-19.
  8. ^ "Polyandrocarpa Michaelsen 1904 - Encyclopedia of Life". eol.org. Retrieved 2023-04-19.
  9. ^ "WoRMS - World Register of Marine Species - Polyandrocarpa Michaelsen, 1904". www.marinespecies.org. Retrieved 2023-04-19.
  10. ^ a b c d e Kott, Patricia (2005-09-27). "Novel Australian Polyzoinae (Styelidae, Tunicata)". Journal of Natural History. 39 (32): 2997–3011. Bibcode: 2005JNatH..39.2997K. doi: 10.1080/00222930500239702. ISSN  0022-2933. S2CID  86839475.
  11. ^ a b c Carman, Mary R. (2011). "Ascidians at the Pacific and Atlantic entrances to the Panama Canal". Aquatic Invasions. 6 (4): 371–380. doi: 10.3391/ai.2011.6.4.02. hdl: 1912/5294.
  12. ^ "Convergent Acquisition of Nonembryonic Development in Styelid Ascidians". academic.oup.com. Retrieved 2023-04-19.
  13. ^ Scelzo, Marta; Alié, Alexandre; Pagnotta, Sophie; Lejeune, Camille; Henry, Pauline; Gilletta, Laurent; Hiebert, Laurel S.; Mastrototaro, Francesco; Tiozzo, Stefano (2019-04-03). "Novel budding mode in Polyandrocarpa zorritensis: a model for comparative studies on asexual development and whole body regeneration". EvoDevo. 10 (1): 7. doi: 10.1186/s13227-019-0121-x. ISSN  2041-9139. PMC  6446293. PMID  30984365.
  14. ^ a b "Polyandrocarpa zorritensis". invasions.si.edu. Retrieved 2023-04-19.
  15. ^ Monniot, Françoise (2016-06-28). "A new species of Polyandrocarpa (Ascidiacea, Styelidae) in the Mediterranean Sea". Zootaxa. 4132 (1): 87–96. doi: 10.11646/zootaxa.4132.1.7. ISSN  1175-5334. PMID  27395654.
  16. ^ a b c "Polyandrocarpa zorritensis". invasions.si.edu. Retrieved 2023-04-19.
  17. ^ "WoRMS - World Register of Marine Species - Polyandrocarpa zorritensis (Van Name, 1931)". www.marinespecies.org. Retrieved 2023-04-19.
  18. ^ Mastrototaro, Francesco (2022-01-07). "Polyandrocarpa zorritensis". CABI Compendium. CABI Compendium: 108975. doi: 10.1079/cabicompendium.108975. ISSN  2958-3969. S2CID  253656284.
  19. ^ Burge, Colleen A.; CLosek, Collin J.; Friedman, Carolyn S.; Groner, Maya L.; Jenkins, Cody M.; Shore-Maggio, Amanda; Welsh, Jennifer E. (October 4, 2016). "The Use of Filter-feeders to Manage Disease in a Changing World". Integrative and Comparative Biology. 56 (4): 573–587. doi: 10.1093/icb/icw048. PMID  27371383. Retrieved 2023-04-19.
  20. ^ a b Jacobi, Yuval; Yahel, Gitai; Shenkar, Noa (November 20, 2017). "Efficient filtration of micron and submicron particles by ascidians from oligotrophic waters: Submicron particle capture by ascidians". Limnology and Oceanography. 63 (S1): S267–S279. doi: 10.1002/lno.10736. S2CID  90375734.
  21. ^ Alié, Alexandre; Hiebert, Laurel Sky; Simion, Paul; Scelzo, Marta; Prünster, Maria Mandela; Lotito, Sonia; Delsuc, Frédéric; Douzery, Emmanuel J P; Dantec, Christelle; Lemaire, Patrick; Darras, Sébastien; Kawamura, Kazuo; Brown, Federico D; Tiozzo, Stefano (2018-07-01). King, Nicole (ed.). "Convergent Acquisition of Nonembryonic Development in Styelid Ascidians". Molecular Biology and Evolution. 35 (7): 1728–1743. doi: 10.1093/molbev/msy068. ISSN  0737-4038. PMC  5995219. PMID  29660002.
  22. ^ Koyama, Hiromichi; Kusunoki, Toyokazu (1993-12-22). "Organization of the cerebral ganglion of the colonial ascidianPolyandrocarpa misakiensis". The Journal of Comparative Neurology. 338 (4): 549–559. doi: 10.1002/cne.903380405. ISSN  0021-9967. PMID  8132860. S2CID  6884687.
  23. ^ a b Scelzo, Marta; Alié, Alexandre; Pagnotta, Sophie; Lejeune, Camille; Henry, Pauline; Gilletta, Laurent; Hiebert, Laurel S.; Mastrototaro, Francesco; Tiozzo, Stefano (2019). "Novel budding mode in Polyandrocarpa zorritensis: a model for comparative studies on asexual development and whole body regeneration". EvoDevo. 10 (1): 7. doi: 10.1186/s13227-019-0121-x. ISSN  2041-9139. PMC  6446293. PMID  30984365.
  24. ^ Alié, Alexandre; Hiebert, Laurel Sky; Simion, Paul; Scelzo, Marta; Prünster, Maria Mandela; Lotito, Sonia; Delsuc, Frédéric; Douzery, Emmanuel J P; Dantec, Christelle; Lemaire, Patrick; Darras, Sébastien; Kawamura, Kazuo; Brown, Federico D; Tiozzo, Stefano (2018-07-01). King, Nicole (ed.). "Convergent Acquisition of Nonembryonic Development in Styelid Ascidians". Molecular Biology and Evolution. 35 (7): 1728–1743. doi: 10.1093/molbev/msy068. ISSN  0737-4038. PMC  5995219. PMID  29660002 – via National Library of Medicine.
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