Sylon hippolytes M. Sars, 1870
|Sylon hippolytes on a Pandalus goniurus shrimp captured at 75 m depth, San Juan Channel.|
|(Photo by: Dave Cowles, August 2008 )|
How to Distinguish from Similar Species: This may be the only Sylon species. Its characteristic sack-like shape is distinctive.
Geographical Range: Arctic, Bering Sea, Chukchi Sea, North Pacific, Sea of Okhotsk, Sea of Japan, North Atlantic, Iceland, Greenland, Shetland Islands, Spitzbergen
Habitat: Parasitic on shrimps from families Hippolytidae (Hippolyte, Heptacarpus, Spirontocaris, Caridion, Eualus, Lebbeus), Pandalidae (Pandalus), and Crangonidae (Sclerocrangon, Crangon, Metacrangon)..
Biology/Natural History: Rhizocephalan barnacles such as this species are bizarrely distorted parasitic barnacles. It was not even known that they were barnacles until the cypris larva in their life cycle was discovered. The eggs of Rhizocephalans usually hatch as a nauplius larva which metamorphoses into a cypris larva. Members of order Akentrogonida, however, such as Sylon hippolyte, apparently pass the nauplius stage in the egg and hatch as a cypris. The female cyprid settles onto a recently molted host or attaches to the host gill. She attaches to the host using a glue gland on her antennae. She then metamorphoses, losing her legs and eyes. She extrudes her tissue through the antenna or through her mouth through the host carapace into the host internal tissue. At that point she may be called a "kentrogon" if she is in order Kentrogonida. The injected barnacle grows into a ramifying rootlike structure called an "interna". The interna begins growing by sending out rootlike projections through the body of the host. These projections absorb nutrients from the host, and typically destroy the gonads (a parasitic castrator). The interna may grow very large and may actually become heavier than the host tissue. When she matures, a part of her body called the "externa" erupts through the exoskeleton of the host, usually on the ventral side of the abdomen near the gonads. The externa has a cavity for eggs and a place for males to attach. Male cyprids settle into the externa and metamorphose into a wormlike structure.
Female shrimp which have this parasite species do not bear eggs, so
the parasite is probably a parasitic castrator as are many Rhizocephalans.
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Butler, 1980 (this is the main reference)
Lamb and Hanby, 2005
O'Clair and O'Clair, 1998
Boschma, H., 1928. Rhizocephala of the north Atlantic region. Danish Ingolf Exp. 3(10). 49 pages.
Boschma, H., 1931. Papers from Dr. Th. Mortensen's Pacific Expedition 1914-1916. LV. Rhizocephala. Viden. Medd. Dan. Naturhist. Foren. Kobenhavn 89: 297-380
Calman, W.T., 1898. On a collection of Crustacea from Puget Sound. Ann. N.Y. Acad. Sci. II: 259-293
Hoeg, J. and J. Lutzen, 1985. Crustacea Rhizocephala.--Marine Invertebrates of Scandinavia 6: 1-92. Norwegian University Press, Oslo, Norway
Hoeg, J. and A.V. Rybakov, 1992. Revision of the Rhizocephala Akentrogonida (Cirripedia), with a list of all the species and a key to the identification of familes. Journal of Crustacean Biology 12(4) 600-609
Smith, G.W., 1906. Rhizocephala. Fauna Flora Golfes Neapel (Berlin) Monogr. 29. 123 pages.
General Notes and Observations: Locations,
abundances, unusual behaviors:
I have not often seen this parasite.
Ventral view of the parasite. The host's thorax is to the left. The parasite externa is erupting from the ventral side of the hosts first abdominal segment. The second pair of host pleopods partly overlap the externa. The texture of the externa looks as if it is packed with small eggs.
This externa scar on the abdomen of Pandalus platyceros is the result of a Sylon hippolyte parasitism. Photo provided by Hilary Wood of the Alaska Dept. of Fish and Game.