The Spanish toothcarp (Apricaphanius iberus), also known as the Spanish toothcarp or Iberian killifish,[3][4] is a small, endemic species of fish in the family Aphaniidae. Its risk of extinction is one of the greatest of any Iberian vertebrate. Its limited range, coupled with the drastic population decline the species has suffered in the last two decades, has caused it to be placed on endangered species lists, both in Spain and internationally. In addition, habitat fragmentation, likely due to humans, has resulted in this species becoming increasingly stagnant and has led to increased genetic drift. Also found to be contributing to their endangerment was genetic diversity of mitochondrial DNA. The mitochondrial DNA coupled with A. iberus’s geographic distribution has been able to affect their population genetic structure gradually in different spaces. Its conservation status in the south of the Iberian Peninsula has notably worsened.

Spanish toothcarp
Male toothcarp (top) and female toothcarp (bottom)
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Actinopterygii
Order: Cyprinodontiformes
Family: Aphaniidae
Genus: Apricaphanius
Species:
A. iberus
Binomial name
Apricaphanius iberus
(Valenciennes, 1846)
Distribution of Aphanius Iberus in Spain
Synonyms[2]
  • Aphanius iberius (Valenciennes, 1846)
  • Aphanius iberus (Valenciennes, 1846)
  • Cyprinodon ibericus (Steindachner, 1865)
  • Cyprinodon iberus Valenciennes, 1846
  • Lebias ibera (Valenciennes, 1846)
  • Lebias ibericus Steindachner, 1865
  • Lebias iberus (Valenciennes, 1846)
Fartets in their natural habitat.

A similar fish in the peninsula's south-west has been classified as an independent species, Apricaphanius baeticus. Apricaphanius saourensis is another similar species in Algeria.

Description

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Morphology

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This is a small fish, rarely more than 5 centimeters (2.0 in) in length. Females are longer than males of the same age. It has an oblong body and rounded fins. Its dorsal fin is underdeveloped with respect to the fish's girth. It has large scales, numbering 20 to 26 across the body at its widest point.

It has obvious sexual dimorphism. The males are marked with bluish to silver-colored vertical stripes on the flanks and dark bands on the caudal fin. The females are generally greenish-brown with dark blotches distributed irregularly over their bodies; their fins are transparent and mostly unpatterned. Some populations, most notably those in Murcia,[5] have short, dark stripes as opposed to blotches.

Reproduction

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The lifespan of a Spanish toothcarp is short. They reach sexual maturity at age three months. The females spawn repeatedly each season, producing from 100 to 900 eggs.[6] Toothcarps in the Murcia region tend to spawn between April and August, while more northerly populations, such as those in the Delta del Ebro, lay their eggs between May and August. Spawning is usually done in areas with nearby vegetation, which shelters the eggs.

Hatchlings emerge approximately eight days after the eggs are laid. Females that hatch in April are able to reproduce in June.

While the females spawn, adult males set up small territories that they defend from other males in ritualized combats through which they court the females.

Behavior

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The Spanish toothcarp is an omnivore, and eats insects, crustaceans, worms and algae. Generally, toothcarps travel in small groups, staying near underwater vegetation, where they normally go unnoticed.

The biology of the Spanish toothcarp is characterized by a high growth rate, early maturity, a high reproductive rate, multiple periods of egg-laying and a short lifespan. From an evolutionary ecology point of view, this lifestyle is highly adaptive for fish that live in unstable environments, such as estuaries, where unpredictable conditions increase mortality. This strategy allows the toothcarp to exploit environmentally favorable conditions during the short intervals in which they occur, thereby revitalizing the population.[7][8]

Habitat

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Spanish toothcarp inhabit shallow, slow-moving bodies of water such as river-mouths, coastal lakes, and ponds. They occur in saline and fresh water alike, due to their ability to tolerate high levels of salinity: they are euryhaline. The Spanish toothcarp can tolerate temperatures of 10–32 °C (50–90 °F), and pH levels between 6.5 and 7.5.

Despite their adaptability, they have been displaced by invasive species, such as both species of mosquitofish,[9] introduced from North America to Spain in 1921 by doctor Sadí de Buen Lozano in an attempt to control malarial mosquitoes.[10] The toothcarp has retreated to high salinity areas where the mosquitofish cannot live.

Distribution

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The Spanish toothcarp is characteristic of the Iberian Peninsula, and extends from the Aigüamolls of Alt Empordà to Lake Adra in Almería. In the last two decades, the Spanish toothcarp has suffered a severe decline,[11] due in part to destruction of suitable habitats. Only a few dozen isolated populations are known.

They have been found in the alluvial plain of the Segura River, the Chicamo River in Abanilla, the wetlands surrounding the Mar Menor and Valencian Community (more specifically in the Parc Natural el Fondo, and in the Parc Natural de l'Albufera with its springs), the Parque Natural del Delta del Ebro in Tarragona, and the Albufera de Adra and the Adra River.

Divergence between populations

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Phylogenetic relationships and genetic divergence have been observed in Iberian populations of Apricaphanius iberus by using isozymes along with the complete genetic sequence of chromosome B. The results for nuclear genes were consistent with those for mitochondria, and demonstrated that the Atlantic and Mediterranean toothcarp populations derive from separate lineages. The level of genetic divergence shows that they were isolated early and that gene flow has not occurred. The divergence between these two monophyletic clades is the same as that found between other species of pupfish. This discovery makes it necessary to separate the Atlantic and Mediterranean populations in order to protect their diversity and genetic identities.[12]

Molecular analysis, together with morphometric data, has taxonomic implications. In fact, the populations of the Atlantic basin are so different from those in Europe that they have been recognized as a separate species, Apricaphanius baeticus. The species name Apricaphanius iberus is limited to populations that live in the Mediterranean.[13]

Conservation status

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Despite being distributed over a large area on the peninsula, the Spanish toothcarp is largely found in small, threatened areas. Because of this, the Spanish Ministero de Medio Ambiente lists it as an endangered species.[14]

Among the threats are:[15]

Vernacular names

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This fish is known as fartet or peixet de sequiol in Spanish and Catalan (the latter sometimes uses the diminutive fartonet).

See also

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  • Samaruc - A similar Iberian killifish, from Valencia

References

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  1. ^ Crivelli, A.J. (2006). "Aphanius iberus". IUCN Red List of Threatened Species. 2006: e.T1846A8299534. doi:10.2305/IUCN.UK.2006.RLTS.T1846A8299534.en.
  2. ^ Bailly, Nicolas (2023). "Apricaphanius iberus (Valenciennes, 1846)". WoRMS. World Register of Marine Species.
  3. ^ Froese, Rainer; Pauly, Daniel (eds.). "Apricaphanius iberus". FishBase. April 2024 version.
  4. ^ "'Aphanius iberus'". Integrated Taxonomic Information System.
  5. ^ "Enclave Ambiental- Fartet (Aphanius iberus). Familia Cyprinodontidae - Región de Murcia Digital". Regmurcia.com (in Spanish). Retrieved 28 March 2022.
  6. ^ "Fartet". Mediterranea.org. Retrieved 28 March 2022.
  7. ^ Vargas, M.J.; De Sostoa, A. 1997. Life-history pattern of the Iberian toothcarp Aphanius iberus (Pisces, Cyprinodontidae) from a Mediterranean estuary, the Ebro Delta (Spain). Netherlands Journal of Zoology 47, no. 2, pp. 143-160.
  8. ^ Gonzalez, E. G. (2018). "Phylogeography and Population Genetic Analyses in the Iberian Toothcarp (Aphanius iberus Valenciennes, 1846) at Different Time Scales". The Journal of Heredity. 109 (3): 253–263.
  9. ^ Alcaraz, C; García-Berthou, E (2007). "Life history variation of invasive mosquitofish (Gambusia holbrooki) along a salinity gradient". Biological Conservation. 139 (1–2): 83–92. doi:10.1016/j.biocon.2007.06.006.
  10. ^ De Buen, E. “Estudio experimental de algunas sustancias larvicidas antianofélica”. Tesis doctoral. Medicina de los Países Cálidos. 1929. Tomo II. en Fernández Astasio, B. (2002)
  11. ^ (Moreno-Amich, R., M. Planelles, C. Fernández-Delgado y García-Berthou, E. (1999). Distribución Geográfica de los ciprinodontiformes en la Península ibérica. Pp 33-57, en Planelles, M. (Ed.). 'Peces Ciprinodóntidos Ibéricos: Fartet y Samaruc. Monografía. Generalitat Valenciana (Valencia).)
  12. ^ Perdices, A., Carmona, J.; Carlos Fernández-Delgado & Ignacio Doadrio. 2001. Nuclear and mitochondrial data reveal high genetic divergence among Atlantic and Mediterranean populations of the Iberian killifish Aphanius iberus (Teleostei: Cyprinodontidae). Heredity 87 (3), 314–324. doi:10.1046/j.1365-2540.2001.00888.x
  13. ^ Doadrio, I; Carmona, J.A. & Fernández Delgado, C. 2002. Morphometric study of the Iberian Aphanius (Actinopterygii, Cyprinodontiformes), with description of a new species. Folia Zool. 51(1): 67–79
  14. ^ [1] [dead link]
  15. ^ [2] [dead link]
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