Mirror carp

Mirror carp, regionally known as Israeli carp,^{[note 1]} are a type of domesticated fish commonly found in Europe but widely introduced or cultivated elsewhere. They are a variety of the common carp (Cyprinus carpio) developed through selective breeding. The name "mirror carp" originates from their scales' resemblance to mirrors. They can grow in excess of 60 lb (27 kg) – the last few British record fish have all been mirror carp.^{[citation needed]}

Description

Common carp have an even, regular scale pattern, whereas mirrors have irregular, patchy scales that have little to no overlap, making many fish unique and identifiable by sight. As a consequence, most mirror carp in the UK over 40 lb (18 kg) are nicknamed.^{[citation needed]}

Leather carp are another variety of common carp that resemble mirror carp, but are permitted a few scales either along the dorsal line or the wrist of the tail.^{[citation needed]}

Genetics

The most striking difference between mirror and common carp is the presence of large mirror-like scales on the former. The mirror-scale phenotype is caused by a genetic mutation present at one of two scale trait loci, denoted by their S and N alleles, respectively. The genotype that produces a mirror scale phenotype is "ssnn" (all recessive), while wild-type carp may have either SSnn or Ssnn genotype.^[1]^: 13–14 The "S" locus has been identified as containing the gene encoding fibroblast growth factor receptor Fgfr1A1, which was duplicated during the course of carp evolution and consequently does not typically produce lethal phenotypes when only one locus is mutated.^[3] The "N" locus has not been identified,^[4] but is hypothesized to have bearing on the development of embryonic mesenchyme.^[1]^: 17–18

Contrary to popular belief, a leather carp is not always a mirror carp without scales. Similar to mirror carp, leather, or "nude" carp, are homozygous recessive at the "S" locus, but unlike mirror carp, true leather carp are heterozygous for a dominant mutant allele at the "N" locus (ssNn genotype).^{[note 2]} Leather carp also have reduced numbers of red blood cells and slower growth rates than scaled carp.^[1]^: 16–17 Mirror carp from Hungarian and Asian stocks have been observed to have fewer pharyngeal teeth than scaled carp, while nude carp had fewer still.^[4]

A population of mirror carp in Madagascar (there an invasive species) was found to have reverted to full scale cover after being introduced from France in the early twentieth century.^[5] The feral Malagasy carp still possessed large scales due to their mirror phenotype, but had increased scale coverage approaching that of wild-type carp.^[5] Hubert et al. (2016) found that the recessive allele at the "S" locus was still fixed in the population.^[5] They believe that the phenotypic reversion was due to compensation by quantitative trait loci as a result of a selective disadvantage for partial scaling in the wild, perhaps related to an impairment in parasite resistance.^[5]

Fishing

A world record mirror carp that weighed 51.2 kilograms (113 lb) was caught in Hungary in November 2018.^[6]

Anglers pursue larger leather carp due to their rarity. The biggest known was Heather the Leather at 52 lb (24 kg).^{[citation needed]}

Notes

^ This vernacular name most likely owes to the Israeli development of a mirror carp strain called "Dor-70"^[1]^: 75 that has been widely exported, although these fish, introduced to the United States in the 1950s, are distinguishable from other fish called mirror carp according to Fishes of Arkansas.^[2]
^ Homozygosity for the dominant "N" allele is lethal.^[1]^: 13 Heterozygosity reduces viability.^[1]^: 15

References

^ a b c d e f Kirpitchnikov, Valentin S. (1999). Billard, R.; Repérant, J.; Rio, J.P.; Ward, R. (eds.). Genetics and Breeding of Common Carp. Paris: INRA. ISBN 2-7380-0869-0.
^ Robison, Henry W.; Buchanan, Thomas M. (2020). Fishes of Arkansas (2nd ed.). Fayetteville: The University of Arkansas Press. p. 144. ISBN 978-1682261033.
^ Rohner, Nicolas; Bercsényi, Miklós; Orbán, László; Kolanczyk, Maria E.; Linke, Dirk; Brand, Michael; Nüsslein-Volhard, Christiane; Harris, Matthew P. (2009). "Duplication of fgfr1 Permits Fgf Signaling to Serve as a Target of Selection during Domestication". Current Biology. 19 (19): 1642–1647. doi:10.1016/j.cub.2009.07.065. PMID 19733072.
^ a b Casas, Laura; Szűcs, Réka; Vij, Shubha; Goh, Chin Heng; Kathiresan, Purushothaman; Németh, Sándor; Jeney, Zsigmond; Bercsényi, Miklós; Orbán, László (2013). "Disappearing Scales in Carps: Re-Visiting Kirpichnikov's Model on the Genetics of Scale Pattern Formation". PLOS ONE. 8 (12): e83327. Bibcode:2013PLoSO...883327C. doi:10.1371/journal.pone.0083327. PMC 3875451. PMID 24386179. e83327.
^ a b c d Hubert, Jean-Noël; Allal, François; Hervet, Caroline; Ravakarivelo, Monique; Jeney, Zsigmond; Vergnet, Alain; Guyomard, René; Vandeputte, Marc (2016). "How could fully scaled carps appear in natural waters in Madagascar?". Proceedings of the Royal Society B: Biological Sciences. 283 (1837). doi:10.1098/rspb.2016.0945. PMC 5013790. PMID 27559059. 20160945.
^ "Carp World Records Photo Gallery". Carpe-passion51. 2022. Retrieved 11 August 2022.

External links

Carp Fishingeye - information about Mirror carp fishing
Galleries of Mirror & Common carp & UK carp fishing venues
Photographs of Mirror carp caught at fishing venue in France
The British Record Mirror Carp

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[3] This vernacular name most likely owes to the Israeli development of a mirror carp strain called "Dor-70"^[1]^: 75 that has been widely exported, although these fish, introduced to the United States in the 1950s, are distinguishable from other fish called mirror carp according to Fishes of Arkansas.^[2]

[6] Homozygosity for the dominant "N" allele is lethal.^[1]^: 13 Heterozygosity reduces viability.^[1]^: 15

[kirpitchnikov-1] Kirpitchnikov, Valentin S. (1999). Billard, R.; Repérant, J.; Rio, J.P.; Ward, R. (eds.). Genetics and Breeding of Common Carp. Paris: INRA. ISBN 2-7380-0869-0.

[2] Robison, Henry W.; Buchanan, Thomas M. (2020). Fishes of Arkansas (2nd ed.). Fayetteville: The University of Arkansas Press. p. 144. ISBN 978-1682261033.

[4] Rohner, Nicolas; Bercsényi, Miklós; Orbán, László; Kolanczyk, Maria E.; Linke, Dirk; Brand, Michael; Nüsslein-Volhard, Christiane; Harris, Matthew P. (2009). "Duplication of fgfr1 Permits Fgf Signaling to Serve as a Target of Selection during Domestication". Current Biology. 19 (19): 1642–1647. doi:10.1016/j.cub.2009.07.065. PMID 19733072.

[casas-5] Casas, Laura; Szűcs, Réka; Vij, Shubha; Goh, Chin Heng; Kathiresan, Purushothaman; Németh, Sándor; Jeney, Zsigmond; Bercsényi, Miklós; Orbán, László (2013). "Disappearing Scales in Carps: Re-Visiting Kirpichnikov's Model on the Genetics of Scale Pattern Formation". PLOS ONE. 8 (12): e83327. Bibcode:2013PLoSO...883327C. doi:10.1371/journal.pone.0083327. PMC 3875451. PMID 24386179. e83327.

[hubert-7] Hubert, Jean-Noël; Allal, François; Hervet, Caroline; Ravakarivelo, Monique; Jeney, Zsigmond; Vergnet, Alain; Guyomard, René; Vandeputte, Marc (2016). "How could fully scaled carps appear in natural waters in Madagascar?". Proceedings of the Royal Society B: Biological Sciences. 283 (1837). doi:10.1098/rspb.2016.0945. PMC 5013790. PMID 27559059. 20160945.

[8] "Carp World Records Photo Gallery". Carpe-passion51. 2022. Retrieved 11 August 2022.