Catarina pupfish

The Catarina pupfish (Megupsilon aporus) was a diminutive species of fish in the family Cyprinodontidae, first described in 1972.[2][3] It was endemic to a spring in Nuevo León, Mexico. In an attempt of saving the rapidly declining species, some were brought into captivity in the late 1980s and early 1990s, but it proved very difficult to maintain.[4] In 1994 it became extinct in the wild.[5] Gradually the captive populations also perished. The last disappeared in 2014 and the species became extinct.[4][6][7]

Catarina pupfish

Extinct  (2014)  (IUCN 3.1)[1]
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Actinopterygii
Order: Cyprinodontiformes
Family: Cyprinodontidae
Genus: Megupsilon
R. R. Miller & Walters, 1972
Species:
M. aporus
Binomial name
Megupsilon aporus
R.R. Miller & Walters, 1972

In addition to its small size, it was characterized by absence of pelvic girdle and pelvic fins, and by having different numbers of chromosomes in male and female fish.[2] In 2013, its behavior was described based on very limited field observations of the previous wild population and more detailed observations in aquaria.[8]

Extinction

The Catarina pupfish is extinct.[4][6] It was found in the wild in only one spring in southwestern Nuevo León, Mexico, together with Potosi pupfish (Cyprinodon alvarezi). In 1994, both species were "almost extinct" when their spring habitat essentially dried out;[9] however inspection of a side spring in November 1994 indicated that a few specimens remained. Subsequent publications indicated that both species had become extinct in the wild that year.[8][10] The IUCN Red List also uses that designation, but cites an unpublished manuscript written earlier.[5]

Mexico's 2010 official list of species at risk (NOM-059-SEMARNAT-2010) indicates that Megupsilon aporus is category "E" defined as "Probably extinct in the wild". Species that are considered extinct by experts are given that designation. However, if a species was rediscovered alive it would be given legal protection status immediately.[10]

In an attempt of saving the Catarina pupfish, small numbers were brought into captivity in 1987 and 1992, but the species proved very difficult to maintain. Colonies were established in aquariums in Mexico, Europe and the United States, but they gradually perished. By December 2012, only one colony remained: It consisted of about 20 fish at the Children's Aquarium at Fair Park in Dallas, Texas.[8][11] In 2014, the last individual of this colony died and with its demise the species was fully extinct.[4][7]

A number of Potosi pupfish, a species restricted to the same spring as the Catarina pupfish, were also brought into captivity. They fared better and today populations are maintained at several aquariums. These can be used for a future reintroduction of the species back into the wild.[4] The fate of the Catarina pupfish and Potosi pupfish are just two of many conservation issues in Mexico. As of 2008, approximately 40% of more than 500 described freshwater fishes in Mexico are considered to be at risk and there have been about 30 extinctions mostly in the previous 50 years. The extinctions and threatened status of many freshwater fishes are associated with overexploitation, dewatering, habitat disruption, and competition with alien species of diverse sources.[12] The inland fish fauna of Mexico is particularly vulnerable because many species (such as the Catarina pupfish) are endemic to isolated springs or small drainage systems as extensively described by Robert Rush Miller.[13]

Evolutionary history

Megupsilon aporus is the only known member of its genus.[2] Based on a molecular clock analysis of mitochondrial DNA, it has been estimated that Megupsilon and Cyprinodon diverged from a common ancestor approximately 7 million years ago.[14]

Description

This species grew to a total length of 4 centimeters (1.6 in).[3] It has been highlighted as one of the smallest fish in North America.[15] The nape and sides of nuptial males were iridescent blue with a dark blotch at the base of the caudal peduncle. Mature females were golden olivaceous with an indistinct lateral band.[8] There were no pelvic fins or pelvic girdle.[2]

Miniaturization and lack of pelvic fins are also characteristic of the Devils Hole pupfish (Cyprinodon diabolis). An old world pupfish, Aphanius apodus, also lacks pelvic fins.[2]

Chromosomes

Megupsilon differs from Cyprinodon in having fewer chromosomes in males than in females (47 vs. 48).[2] Males have a large Y chromosome which appears to result from the fusion of two chromosomes: an autosome and the ancestral Y chromosome.[16] The Megupsilon example was the first instance of autosome/Y chromosome fusion discovered in a fish. Subsequent research suggests that this type of chromosome fusion is relatively common; 35 examples have been found as of 2012.[16] Among Cyprinodontidae species, Garmanella pulchra (Yucantan flagfish or Progreso flagfish) males also have one less chromosome than females.[17]

Behavior and morphology

Liu and Echelle (2013) describe its behavior and unusual morphology as follows:[8]

“We provide the first description of behavior in the Catarina pupfish (Megupsilon aporus). Aggressive, courtship, and spawning behaviors resemble those of other North American cyprinodontids. However, M. aporus [Catarina pupfish] differs from others in the group in absence of breeding territoriality in males. Male M. aporus often perform opercular rotation during aggressive displays and jaw-nudging during courtship, behaviors that, among other North American cyprinodontids, are absent or known only in Floridichthys. Some unusual features of behavior (lack of territoriality) and morphology (dwarfism [=miniaturization]; absence of pelvic fins) in M. aporus might have been shaped by interaction with a cohabitant, the Potosi pupfish Cyprinodon alvarezi.”

Opercular rotation observed during aggressive displays was described as outward flaring of opercules and branchiostegal rays. Jaw-nudging observed during courtship was described as repeated protraction and retraction of male premaxillaries during which the jaw occasionally touched the females head (significance of the touching undetermined).[8]

The hypothesis that Megupsilon behavior and morphology might have been shaped by interaction with the other pupfish stems from the observation by Miller and Walters (1972) in the original description of the genus and species.[2] In aggressive interactions between them, the larger Cyprinodon species dominated Megupsilon, which seemed to restrict its distribution to shallow, highly vegetated parts of the spring. Liu and Echelle (2013) theorized that the restricted habitat may have influenced its evolution. They also offered a contrary hypothesis that this species is a relict of a larger group of Megupsilon species[2] in which miniaturization and absence of pelvic fins were characteristic.[8]

Miniaturization and absence of pelvic fins in Catarina pupfish may be linked with each other. Studies indicate that miniaturization is often associated with morphological novelty.[18] Also numerous examples of adaptation of bone growth to miniaturization in fish, amphibians and reptiles have been noted; these include skeletal reductions such as reduced ossification or complete loss of the pelvic girdle.[19]

Some of the variability in behavior and morphology among pupfishes may be a response to harsh environmental conditions mediated by endocrine systems.[20] Studies of specific endocrine systems which foster phenotypic plasticity in fishes and the evolution of endocrine pathways are underway.[21]

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References

  1. Valdes Gonzales, A. (2019). "Megupsilon aporus". IUCN Red List of Threatened Species. 2019: e.T13013A511283. doi:10.2305/IUCN.UK.2019-2.RLTS.T13013A511283.en.
  2. Miller, Robert Rush; Walters, Vladimir (1972). "A new genus of cyprinodontid fish from Nuevo Leon, Mexico" (PDF). Contributions in Science, Natural History Museum of Los Angeles County. 233: 1–13. Archived from the original (PDF) on 2015-12-20. Retrieved 2014-09-09.
  3. Froese, Rainer and Pauly, Daniel, eds. (2018). "Megupsilon aporus" in FishBase. August 2018 version.
  4. Ceballos, G.; E.D. Pardo; L.M Estévez; H.E. Pérez, eds. (2016). Los peces dulceacuícolas de México en peligro de extinción. pp. 72–74, 78–79. ISBN 978-607-16-4087-1.
  5. Contreras-Balderas, S. & Almada-Villela, P. (1996). Megupsilon aporus. The IUCN Red List of Threatened Species. Version 2014.2
  6. Jirdan, R. (10 July 2017). "Prelude to global extinction: Stanford biologists say disappearance of species tells only part of the story of human impact on Earth's animals". Stanford University. Retrieved 28 September 2018.
  7. González, A.V.; L.M. Estévez; Ma.E.A. Villeda; G. Ceballos (2018). "The extinction of the Catarina pupfish Megupsilon aporus and the implications for the conservation of freshwater fish in Mexico". Oryx: 1–7. doi:10.1017/S003060531800056X.
  8. Liu, R. K.; Echelle, A. A. (2013). "Behavior of the Catarina Pupfish (Cyprinodontidae:Megupsilon aporus), a Severely Imperiled Species". The Southwestern Naturalist. 58: 1–7. doi:10.1894/0038-4909-58.1.1.
  9. Contreras-Balderas, Salvador; Mar´ýa de Lourdes Lozano-Vilano (1996). "Survival status of the Sandia and Potosí Valleys endemic pupfishes and crayfishes from the Mexican plateau in Nuevo león, Mexico, with Comments on Associated Extinct Snails" (PDF). Ichthyological Exploration of Freshwaters. 7 (1): 33–40.
  10. Contreras-Balderas, S.; Almada-Villela, P.; De Lourdes Lozano-Vilano, M. A.; García-Ramírez, M. A. (2002). "Freshwater fish at risk or extinct in México" (PDF). Reviews in Fish Biology and Fisheries. 12 (2/3): 241. doi:10.1023/A:1025053001155.
  11. Children’s Aquarium at Fair Park Facts and Trivia Archived 2013-12-04 at the Wayback Machine. dallaszoo.com
  12. Contreras-Balderas, S.; Ruiz-Campos, G.; Schmitter-Soto, J. J.; Díaz-Pardo, E.; Contreras-Mcbeath, T.; Medina-Soto, M.; Zambrano-González, L.; Varela-Romero, A.; Mendoza-Alfaro, R.; Ramírez-Martínez, C.; Leija-Tristán, M. A.; Almada-Villela, P.; Hendrickson, D. A.; Lyons, J. (2008). "Freshwater fishes and water status in México: A country-wide appraisal" (PDF). Aquatic Ecosystem Health & Management. 11 (3): 246. doi:10.1080/14634980802319986.
  13. Miller, Robert Rush, with the collaboration of W.L. Minckley and Steven M. Norris, and maps by Martha H. Gach (2005) Freshwater fishes of México, University of Chicago Press. ISBN 9780226526041
  14. Echelle, A. A.; Carson, E. W.; Echelle, A. F.; Van Den Bussche, R. A.; Dowling, T. E.; Meyer, A. (2005). "Historical Biogeography of the New-World Pupfish Genus Cyprinodon (Teleostei: Cyprinodontidae)". Copeia. 2005 (2): 320. doi:10.1643/CG-03-093R3.
  15. Bennett, Micah G.; Conway, Kevin W. (2010). "An overview of North America's diminutive freshwater fish fauna" (PDF). Ichthyological Exploration of Freshwaters. 21 (1): 63–72.
  16. Kitano, J.; Peichel, C. L. (2011). "Turnover of sex chromosomes and speciation in fishes". Environmental Biology of Fishes. 94 (3): 549–558. doi:10.1007/s10641-011-9853-8. PMC 4459657. PMID 26069393.
  17. Levin, Catherine B., and Neal R. Foster (1972), Cytotaxonomic studies in Cyprinodontidae: multiple sex chromosomes in Garmanella pulchra, Notulae Naturae, Acacemy of Natural Sciences Philadelphia 446:1–5. Retrieved 7 September 2014.
  18. Britz, R.; Conway, K. W.; Ruber, L. (2009). "Spectacular morphological novelty in a miniature cyprinid fish, Danionella dracula n. sp". Proceedings of the Royal Society B: Biological Sciences. 276 (1665): 2179–86. doi:10.1098/rspb.2009.0141. PMC 2677611. PMID 19324738.
  19. Hanken, James (1992) "Adaptation of Bone Growth to Miniaturization of Body Size", pp. 79–104 in: Hall, Brian K. (ed.) Bone: A Treatise. Vol. 7. CRC Press. ISBN 0-8493-8827-9
  20. Lema, Sean C. (2008). "The phenotypic plasticity of Death Valley's pupfish desert fish are revealing how the environment alters development to modify body shape and behavior". American Scientist. 96 (1): 28–36. doi:10.1511/2008.69.3668. JSTOR 27859085.
  21. Lema, Sean C.; Kitano, Jun (2013). "Hormones and phenotypic plasticity: Implications for the evolution of integrated adaptive phenotypes" (PDF). Current Zoology. 59 (4): 506–525. doi:10.1093/czoolo/59.4.506. Archived from the original (PDF) on 2014-09-10.
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