Japanese seahorse

Japanese seahorse
Conservation status
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Actinopterygii
Order: Gasterosteiformes
Family: Syngnathidae
Genus: Hippocampus
Species: H. mohnikei
Binomial name
Hippocampus mohnikei
Bleeker, 1854
Synonyms

Hippocampus japonicus Kaup, 1853

The Japanese seahorse (in Japanese, kitano-umi-uma and sangotatsu) or lemur-tail seahorse (Hippocampus mohnikei) is a species of fish in the Syngnathidae family. The Japanese seahorse reaches a maximum length of 8.0 cm, is usually dark brown and has a relatively long tail, a ridgelike coronet and flattened spines. Many seahorse species look similar, so in addition to any distinguishing features, individual specimens are identified using a series of specific measurements and counts of anatomical features such as spines and tail rings.

H. mohnikei has a planktonic stage in the first six months of life, after which they settle, preferably in Zostera sea grass beds or estuaries, and begin to breed. They are ovoviviparous and the males carry the eggs in a brood pouch. While several seahorse species are used in traditional Chinese medicine, H. mohnikei is not one of them.

Contents

Distribution and feeding

The mid-range of Q and maybe P and U. mohnikei distribution is around 28 N latitude.[1] For many years the only confirmed distribution was around Japan. However, it was recently observed as far south as the Palk Bay coast of southeastern India.[2]It has also recently been positively observed in Kampot, Cambodia[3]. It is also suspected to be in the waters around China, Thailand and Viet Nam.

They have a planktonic stage during the first six months of life, when they are between the lengths of 15.1-45.5 mm, in which they drift with other plankton in the water column.[4] As they grow their food preferences shift from smaller items such as Oithona davisae and Penilia avirostris to larger food species.[5] After the planktonic stage, they prefer to settle in Zostera sea grass beds and estuaries.[6]

Identification

H. mohnikei reaches a maximum length of 8.0 cm and is usually dark brown all over, but may be mottled. The coronet of H. mohnikei has a low, ridge-like crest. Its spines are low and the body appears laterally flattened. It has double rounded cheek spines and double rounded spines below the eye. Its tail is long in proportion to its body. There is a slight enlargement of the 4th, 7th and sometimes the first trunk rings, as well as a slight enlargement of the 5th, 10th, 14th and sometimes 9th tail rings.[7]

Many seahorse species look similar. If it is not immediately identifiable, specific measurements and counts are used to narrow the possibilities.[8] Following is a table of measurements for H. mohnikei. (If there is a range, it is given in parentheses.)[9]

Characteristic Measurement
Maximum height of the specimen 8.0 cm
Length of the snout in relation to the length of the head (HL/SnL) 3.0 (2.8 – 3.9)
Number of tail rings 38 (37-40)
Number of trunk rings 11
Number of cheek spines 2 rounded
Number of eye spines 2 rounded
Number of trunk and tail rings that support the dorsal fin Trunk 2, Tail 1
Number of dorsal fin rays 15-16
Number of pectoral fin rays 13 (12-14)

Similar species to H. mohnikei include H. coronatus (which has a high coronet and greatly expanded spines bordering a short dorsal fin) and H. sindonis (which has fewer tail rings, 10 trunk rings and a more prominent coronet).

Growth and development

H. mohnikei have completely developed dorsal, anal, and pectoral fins even as juveniles of 6.0 mm long. Juveniles 6.0-26.4 mm total length also have a tiny caudal fin with just two rays.[10] H. mohnikei reaches maturity at 55 mm and can reach a length of 80 mm. They start breeding in the season after birth, at six months to one year.[11] H. mohnikei is ovoviviparous. The male carries the eggs in a brood pouch, which is found under the tail.[12]

References

  1. ^ Foster SJ, Vincent CJ. Life History and ecology of seahorses: implications for conservation and management. Journal of Fish Biology 65(1):1-61, 2004.
  2. ^ M. Thangaraj A. P. Lipton. Occurrence of the Japanese seahorse Hippocampus mohnikei Bleeker 1854 from the Palk Bay coast of south-eastern India. Journal of Fish Biology 70(1): 310-312, 2007
  3. ^ http://www.marineconservationcambodia.org/Marine-Conservation-Cambodia-News/Marine-Research-News-Cambodia/Hippocampus-Mohnikei-first-recorded-sighting-in-Cambodia.html?ref=nf
  4. ^ Foster SJ, Vincent CJ. Life History and ecology of seahorses: implications for conservation and management. Journal of Fish Biology 65(1):1-61, 2004.
  5. ^ Kouki K and Hiroshi K. Early life history of a seahorse, Hippocampus mohnikei, in Tokyo Bay. Icthyological Research 48(4):361-368, 2001
  6. ^ FishBase.org page on H. mohnikei
  7. ^ Lourie SA, Foster SJ, Cooper EWT, Vincent ACJ. A Guide to the Identification of Seahorses. Project Seahorse and TRAFFIC North America. Washington, D.C.: University of British Columbia and World Wildlife Fund, 2004. ISBN 0891641696 pp. 75-76
  8. ^ Lourie SA, Foster SJ, Cooper EWT, Vincent ACJ. A Guide to the Identification of Seahorses. Project Seahorse and TRAFFIC North America. Washington, D.C.: University of British Columbia and World Wildlife Fund, 2004. ISBN 0891641696 p. 12
  9. ^ Lourie SA, Foster SJ, Cooper EWT, Vincent ACJ. A Guide to the Identification of Seahorses. Project Seahorse and TRAFFIC North America. Washington, D.C.: University of British Columbia and World Wildlife Fund, 2004. ISBN 0891641696 pp. 18-24
  10. ^ Kouki K and Hiroshi K. Early life history of a seahorse, Hippocampus mohnikei, in Tokyo Bay. Icthyological Research 48(4):361-368,2001
  11. ^ Foster SJ, Vincent CJ. Life History and ecology of seahorses: implications for conservation and management. Journal of Fish Biology 65(1):1-61, 2004.
  12. ^ FishBase.org page on H. mohnikei