Barbour's seahorse

Barbour's seahorse (Hippocampus barbouri) is a species of fish of the family Syngnathidae.[2]

Barbour's seahorse
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Actinopterygii
Order: Syngnathiformes
Family: Syngnathidae
Genus: Hippocampus
Species:
H. barbouri
Binomial name
Hippocampus barbouri
D. S. Jordan & R. E. Richardson, 1908
Synonyms
  • Hippocampus aimei Roule, 1916

Habitat

Hippocampus barbouri is found in seagrasses and shallow waters off the coasts of the Philippines, Malaysia, and Indonesia.[3] Individuals have been recorded at a maximum depth of 10 metres (33 ft). The Barbour's Seahorse is native to Indonesia (Bali, Jawa, Kalimantan, Sulawesi), Malaysia (Sabah), and the Philippines.[3] Habitats include seagrass beds, mangrove swamps, estuaries, and muddy areas.

Population

Records show a 30% decline in the H. barbouri population over the past 10 years, which has continued to increase due to over fishing and the destruction of seagrass habitats. Exact numbers are unknown but percentage estimates can be made using fishing records. H. barbouri is classified as Vulnerable by the 2017 IUCN red list assessments. They were first put on the Red list in 1996. Respondents at various levels of trade (including fishers, buyers, wholesalers, retailers, exporters and officials) in 1998 and 1999 in Malaysia reported declines in seahorse numbers and availability and that H. barbouri was one of the most common species traded.[4]

Feeding and identification

The Barbour's seahorse feeds on small shrimp, crustaceans, calanoid copepods and decapod larvae, but has also been known to ingest the larvae of polychaetes and fish.

Individuals have well developed spines such as their sharp eye, nose, and double cheek spine. The longest and broadest of the spines is its first dorsal spine. Its tail is relatively short in proportion to its body and has a series of long and short spines along it. They range in color from white to yellow to greenish gray to light brown, and some may have some reddish-brown spots or lines. The males usually grow to an average length of 11–15 centimetres (4.3–5.9 in) where females average at 11–13 centimetres (4.3–5.1 in).[5] It is often confused with the hedgehog seahorse, Hippocampus histrix.

Reproduction

This species is ovoviviparous, with males carrying eggs before giving birth to live young. The female deposits her eggs into the male's brood pouch. Through the pregnancy the pair strengthens their pair bonds with daily greetings.[6] The gestation period for H. barbouri is 12–14 days, with a typical brood size of about 10–240 offspring. They give no parental care to juveniles after birth. Pairs mate monogamously, and may mate many times in a single season.

Predation

Hippocampus barbouri are most vulnerable during the juvenile stage. They use crypsis as a mechanism for survival. The spiny texture of its skin and coloration allow it to camouflage itself among the corals they associate with.

Aquaculture

These seahorses are widely traded for traditional medicines and aquarium trading.[3] This, along with the fact that their habitat it being destroyed, has caused their population size to continuously decrease.

Naming

The specific name honours the American zoologist and herpetologist Thomas Barbour 1884–1946.[7]

gollark: Although to be honest most portable computing devices are going that way...
gollark: also high cost, poor repairability
gollark: apple products badbecause little user control
gollark: Grenades are nice for that in the earlygame. I'm sad that I can't configure turrets to shoot trees, though.
gollark: Trees are the enemy.

References

  1. Pollom, R. (2017). "Hippocampus barbouri". IUCN Red List of Threatened Species. 2017: e.T40802A54906903. doi:10.2305/IUCN.UK.2017-3.RLTS.T40802A54906903.en.
  2. Scales, Helen (2009). Poseidon's Steed: The Story of Seahorses, From Myth to Reality. Penguin Publishing Group. p. 136. ISBN 978-1-101-13376-7. Retrieved 9 June 2019.
  3. Garcia, L.M.B.; Hilomen-Garcia, G.V.; Celino, F.T.; Gonzales, T.T.; Maliao, R.J. (2012). "Diet composition and feeding periodicity of the seahorse Hippocampus barbouri reared in illuminated sea cages". Aquaculture. 358: 1–5.
  4. Perry, A.L.; Lunn, K.E.; Vincent, A.C.J. (2010). "Fisheries, large-scale trade, and conservation of seahorses in Malaysia and Thailand". Aquatic Conservation: Marine and Freshwater Ecosystems. 20 (4): 464–475. doi:10.1002/aqc.1112.
  5. Kuang, C.; Chark, L. (2004). "A record of seahorse species (family Syngnathidae) in East Malaysia, with notes on their conversation". Malayan Nature Journal. 56/4: 490–420.
  6. S.A., Lourie; S.J., Foster; Cooper, E.W.T.; Vincent, A.C.J. (2004). A Guide to the Identification of Seahorses. Washington D.C.: Project Seahorse and TRAFFIC North America, University of British Columbia and World Wildlife Fund.
  7. "Biographical Etymology of Marine Organism Names. B". Hans G. Hansson. Retrieved 18 May 2018.

Further reading

  • Project Seahorse 2002. Hippocampus barbouri. 2006 IUCN Red List of Threatened Species. Downloaded on 4 August 2007.
  • Pollom, R. 2017. Hippocampus barbouri. The IUCN Red List of Threatened Species 2017:e.T40802A54906903. http://oldredlist.iucnredlist.org/details/40802/0
  • Payne, M. F. (2003). Rearing the coral seahorse, Hippocampus barbouri, on live and inert prey. Marine Ornamental Species: Collection, Culture & Conservation, 289–296.
  • Lourie, S. A., Green, D. M., & Vincent, A. C. J. (2005). Dispersal, habitat differences, and comparative phylogeography of Southeast Asian seahorses (Syngnathidae: Hippocampus). Molecular ecology, 14(4), 1073–1094.
  • Perez-Oconer, E. (2002). Reproductive biology and gestation of the male seahorse, Hippocampus barbouri (Jordan and Richardson 1908) (Doctoral dissertation, PhD thesis, University of the Philippines, Quezon City, Philippines).
  • Foster, S J. 2016. Seahorses (Hippocampus spp.) and the CITES Review of Significant Trade. Fisheries Centre Research Reports 48(8): 48 pp.
  • Foster, S.J. and Vincent, A.C.J. 2004. Life history and ecology of seahorses: implications for conservation and management. Journal of Fish Biology 65: 1–61.
  • Giles, B.G., Truong, S.K., Do, H.H. and Vincent, A.C.J. 2006. The catch and trade of seahorses in Vietnam. Biodiversity Conservation, pp. 2497–2513.
  • Hou, F., Wen, L., Peng, C. and Guo, J. 2016. Identification of marine traditional Chinese medicine dried seahorses in the traditional Chinese medicine market using DNA barcoding. Mitochondrial DNA Early View: 1–6.
  • IUCN. 2017. The IUCN Red List of Threatened Species. Version 2017-3. Available at: www.iucnredlist.org. (Accessed: 7 December 2017).
  • Lawson, J M., Foster, S.J. and Vincent, A.C.J. 2017. Low bycatch rates add up to big numbers for a genus of small fishes. Fisheries 42(1): 19–33.
  • Lim, A.C.O., Chong, V.C., Wong, C.S. and Choo, C.K. 2011. Diversity, habitats and conservation threats of syngnathid (Syngnathidae) fishes in Malaysia. Tropical Zoology 24: 193–222.
  • Lourie, S.A. 2016. Seahorses: A Life-Size Guide to Every Species. The University of Chicago Press, Chicago, Illinois, USA, 160 pp.
  • Lourie, S.A., Pollom, R.A. and Foster, S.J. 2016. A global revision of the seahorses Hippocampus Rafinesque 1810 (Actinopterygii: Syngnathiformes): Taxonomy and biogeography with recommendations for future research. Zootaxa 4146(1): 1–66.
  • Lourie, S.A., Vincent, A.C.J. and Hall, H.J. 1999. Seahorses: an identification guide to the world's species and their conservation. Project Seahorse, London, U.K.
  • Marcus, J.E., Samoilys, M.A., Meeuwig, J.J., Villongco, Z.A.D. and Vincent, A.C.J. 2007. Benthic status of near-shore fishing grounds in the central Philippines and associated seahorse densities. Marine Pollution Bulletin 54(9): 1483–1494.
  • Morgan, S.K. 2007. The ontogoenetic ecology and conservation of exploited tropical seahorses. Department of Biology, McGill University.
  • O'Donnell, K.P., Pajaro, M.G. and Vincent, A.C.J. 2010. How does the accuracy of fisher knowledge affect seahorse conservation status? Animal Conservation 13(6): 526–533.
  • Perante, N.C., Pajaro, M.G., Meeuwig, J.J. and Vincent, A.C.J. 2002. Biology of a seahorse species Hippocampus comes in the central Philippines. Journal of Fish Biology 60: 821–837.
  • Short, F.T., Polidoro, B., Livingston, S.R., Carpenter, K.E., Bandeira, S., Bujang, J.S., Calumpong, H.P., Carruthers, T.J.B., Coles, R.G., Dennison, W.C., Erftemeijer, P.L.A., Fortes, M.D., Freeman, A.S., Jagtap, T.G., Kamal, A.H.M., Kendrick, G.A., Kenworthy, W.J., Nafie, Y.A.L., Nasution, I.M., Orth, R.J., Prathep, A., Sanciango, J.C., van Tussenbroek, Vergara, S.G., Waycott, M. and Zieman, J.C. B., 2011. Extinction risk assessment of the world's seagrass species. Biological Conservation 144(7): 1961–1971.
  • UNEP-WCMC. 2012a. CITES trade statistics derived from the CITES Trade Database. UNEP World Conservation Monitoring Centre, Cambridge, UK.
  • UNEP-WCMC. 2012b. Review of Significant Trade: Species selected by the CITES Animals Committee following CoP15.
  • UNEP-WCMC. 2016. CITES Trade Database. Cambridge, UK. Available at: http://trade.cites.org/ (accessed 2016)
  • Vincent, A.C.J. 1996. The International Trade in Seahorses. TRAFFIC International, Cambridge, UK.
  • Vincent, A.C.J. and Sadler, L.M. 1995. Faithful pair bonds in wild seahorses, Hippocampus whitei. Animal Behaviour 50: 1557–1569.
  • Vincent, A.C.J., Evans, K.L. and Marsden, A.D. 2005. Home ranges of the monogamous Australian seahorse, Hippocampus whitei. Environmental Biology of Fishes 72: 1–12.
  • Vincent, A.C.J., Foster, S.J. and Koldewey, H.J. 2011. Conservation and management of seahorses and other Syngnathidae. Journal of Fish Biology 78: 1681–1724.
  • Vincent, A.C.J., Sadovy, Y.J., Fowler, S.L. and Lieberman, S. 2013. The role of CITES in the conservation of marine fishes subject to international trade. Fish and Fisheries 41.
  • Williams, S.L., Janetski, N., Abbott, J., Blankenhorn, S., Cheng, B., Crafton, R.E., Hameed, S.O., Rapi, S. and Trockel, D. 2014. Ornamental marine species culture in the Coral Triangle: seahorse demonstration project in the Spermonde Islands, Sulawesi, Indonesia. Environmental Management 54(6): 1342–1355.
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