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User:10acw/Pseudobiceros fulgor

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Background Information

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Pseudobiceros fulgor[1], also known the "lightning worm", is a species of marine flatworm from the family Pseudocerotidae and belongs to the class Turbellaria[2]. These flatworms are commonly found in the tropics of the Indo-Pacific region[3]. They can be found in shallow coral reef environments.

Description

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Lightning Worm
Scientific classification
Kingdom:
Animalia
Phylum:
Platyhelminthes
Class:
Turbellaria
Order:
Polycladida
Family:
Pseudocerotidae
Species:
P. Fulgor
Binomial name
Pseudobiceros Fulgor

Pseudobiceros fulgor like all flatworms, are triploblastic, meaning 3 germ layers present during development[4]. These organisms are also acoelomate, lacking a body cavity between their gut and body wall. Pseudobiceros fulgor are bilaterally symmetrical, this helps to aid in their movement and navigation in their environment. During embryonic development stages they undergo mostly spiral cleavage. This influences the organization of their cells during development.

Habitat

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Pseudobiceros fulgor are commonly found in the tropic and subtropical oceans of the world[5]. They inhabit shallow coral reefs, internal areas and seagrass beds that can be shared with crustaceans and mollusks. A key feature that helps Pseudobiceros fulgor with survivability in their environment is the ability to regenerate its body when injured. They are drawn towards areas with moderate water flow and high nutrient availability.[6]

Feeding

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When it comes to feeding Pseudobiceros fulgor are carnivorous and feed on small invertebrates. To do this they use a specialized structure called a proboscis. They have a protrusible pharynx[7] which is a tube like structure that extends out of the mouth. It is lined with tiny teeth that allows for them to grab and break down food. It is an important adaptation and helps to aid in their survivability.

Reproduction

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Pseudobiceros fulgor are hermaphroditic, which means that the male and female both have their respected reproductive organ. Internal fertilization takes place when sperm and egg come together[8]. The fertilized eggs develop into juvenile flatworms and mature as smaller version of the adult due to no larval stage[9].

Movement

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In order to move, Pseudobiceros fulgor use cilia which are hair like structures that cover the entirety of their body. The cilia which is a hair like structure beats back and forth in a wave like motion to propel the organisms forward. The flatworms can also use muscle contractions to traverse over the seafloor. The contractions are also useful in capturing prey and defending against predators.[10]

Sensory Systems

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Pseudobiceros fulgor has a simple yet effective sensory system that helps it navigate and respond to stimuli. Sensory cells are scattered throughout its body that help to detect things such as light in the water. The sensory cells are connected to the ganglia, which acts as a rudimentary brain[11]. Pseudobiceros fulgor posses chemoreceptors which are specialized to detect chemical stimuli in the water. Additionally mechanoreceptors aid in detecting changes to pressure and touch.

Defining features

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Coloration is a major defining feature for Pseudobiceros fulgor. The background color of orange brown and the longitudinal broken streaks of white are what deems them the lightning worm. They posses pseudotentacles which appear as ear like structures. A short Pharynx with 4 folds on each side is what helps classify them from other Turbellaria[12].

Citations

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  1. ^ Dixit, S., Manjebrayakath, H., & Saravanane, N. (2021). Two new 0RW1S34RfeSDcfkexd09rT2pseudoceros1RW1S34RfeSDcfkexd09rT2 (platyhelminthes: Polycladida: Pseudocerotidae) from agatti island, india and a species checklist from indian waters. Marine Biological Association of the United Kingdom.Journal of the Marine Biological Association of the United Kingdom, 101(2), 253-263. doi:https://doi.org/10.1017/S0025315421000151
  2. ^ Rieger, R.M. 100 Years of Research on ‘Turbellaria’. Hydrobiologia 383, 1–27 (1998). https://doi.org/10.1023/A:1003423025252
  3. ^ Bahia, J., & Schrödl, M. (2016). Pseudobiceros wirtzi sp. nov.(Polycladida: Cotylea) from Senegal with revision of valid species of the genus. Zootaxa, 4097(1), 101-117.
  4. ^ Cannon, L. R. G., & Francis, S. (1986). Turbellaria of the world: a guide to families & genera. Queensland Museum.
  5. ^ Newman. (1997). Nine new species of Pseudobiceros (Platyhelminthes : Polycladida) from the Indo-Pacific. RAFFLES BULLETIN OF ZOOLOGY, 45(2), 341–368.
  6. ^ Bolaños, D.M. & Gan, Bin Qi & Ong, Rene. (2016). First records of pseudocerotid flatworms (Platyhelminthes: Polycladida: Cotylea) from Singapore: A taxonomic report with remarks on colour variation. 2016. 130-169.
  7. ^ Jillian C. McDonald & Hugh D. Jones (2014) Feeding, maintenance and reproduction of Microplana terrestris(Platyhelminthes: Tricladida: Continenticola: Geoplaninae: Microplaninae) under laboratory conditions, Journal of Natural History, 48:1-2, 1-34, DOI: 10.1080/00222933.2013.809169
  8. ^ Chim, C. K.; Ong, Rene SL; Gan, B. Q. (2015). "Penis fencing, spawning, parental care and embryonic development in the cotylean flatworm Pseudoceros indicus (Platyhelminthes: Polycladida: Pseudocerotidae) from Singapore" (PDF). Raffles Bulletin of Zoology.
  9. ^ Trouvé, S., Sasal, P., Jourdane, J. et al. The evolution of life-history traits in parasitic and free-living platyhelminthes: a new perspective. Oecologia 115, 370–378 (1998). https://doi.org/10.1007/s004420050530
  10. ^ Bolanos, D. M. (2008). Comparative embryology and muscle development of polyclad flatworms (platyhelminthes: Rhabditophora). (Order No. 3333516, University of New Hampshire). ProQuest Dissertations and Theses, , 178. Retrieved from https://www.proquest.com/dissertations-theses/comparative-embryology-muscle-development/docview/304525218/se-2
  11. ^ Kotikova, E.A., Raikova, O.I. Architectonics of the central nervous system of Acoela, Platyhelminthes, and Rotifera. J Evol Biochem Phys 44, 95–108 (2008). https://doi.org/10.1134/S002209300801012X
  12. ^ Andrimida, A., & Hermawan, R. (2020). Assessing cryptic marine fauna diversity as underwater macrophotography (UMP) objects in Sempu Strait, Indonesia. In E3S Web of Conferences (Vol. 153, p. 01001). EDP Sciences.