Obelia
Obelia | |
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Scientific classification | |
Kingdom: | Animalia |
Phylum: | Cnidaria |
Class: | Hydrozoa |
Order: | Leptomedusae |
Family: | Campanulariidae |
Genus: | Obelia Peron and Lesueur, 1810 |
Species | |
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Obelia is a genus in the class Hydrozoa, which consists of mainly marine and some freshwater animal species and have both the polyp and medusa stages in their life cycle. The genus belongs to the phylum Cnidaria, which are all aquatic and mainly marine organisms that are relatively simple in structure. It is also called sea fur.[1]
Habitat
Obelia has a worldwide distribution except the high-arctic and Antarctic seas.[2] The medusa stage of Obelia species are common in coastal and offshore plankton around the world.[3] Obelia are usually found no deeper than 200 metres (660 ft) from the water's surface, growing in intertidal rock pools and at the extreme low water of spring tides.
Life cycle
The polyp colony reproduces asexually. During this stage of life, Obelia are confined to substrate surfaces. On this mature colony there are individual hydranths called gastrozooids, which can be found expanded or contracted, to aid in the growth of this organism by feeding; the reproductive polyp gonozooids has medusa buds. Other hydranths are specialized for defense. The main stalky body of the colony is composed of a coenosarc, which is covered by a protective perisarc.
The next generation of the life cycle begins when the medusae are released from these gonozooids, producing free swimming only male medusae velum with gonads, a mouth, and tentacles. The physical appearance of the male and female medusae velum, including their gonads, are indistinguishable, and the sex can only be determined by observing the inside of the gonads, which will either contain sperm or eggs. The medusae reproduce sexually, releasing sperm and eggs that fertilize to form a zygote, which later morphs into a blastula, then a ciliated swimming larva called a planula.
The planulae live free-swimming for a while but eventually attach themselves to some solid surface, where they begin their reproductive phase of life. Once attached to a substrate, a planula quickly develops into one feeding polyp. As the polyp grows, it begins developing branches of other feeding individuals, thus forming a new generation of polyps by asexual budding.
Structure
Through its life cycle, Obelia take two forms: polyp and medusa. They are diploblastic, with two true tissue layers – an epidermis (ectodermis) and a gastrodermis (endodermis), with a jelly-like mesoglea filling the area between the two true tissue layers. They carry a nerve net with no brain or ganglia. A gastrovascular cavity is present where the digestion starts and later becomes intracellular. They have incomplete digestive tracts where the food enters, is digested, and expelled through the same opening. During the polyp stage, the mouth is situated at the top of the body, surrounded by tentacles, whereas during the medusa stage, the mouth is situated at the distal end of the main body structure. Four gonads lie in this main body structure, or manubrium. When food is taken in through the mouth, it enters the manubrium. The food is then distributed through a canal system, consisting of four radial canals and an outer ring. Defense and the capture of prey are helped by unique stinging cells called cnidocytes that contain nematocysts, which are triggered by the cnidocil. It has a ridge-like structure on the inner margin, called velum. If the velum is present, it is named as craspedote medusa.
Notes
- ↑ P. K. Gupta (2007). Genetics Classical To Modern. p. 1-118.
- ↑ Cornelius, P.F.S., 1990a. European Obelia (Cnidaria, Hydroida): systematics and identification. Journal of Natural History 24: 535-578.
- ↑ Cornelius, P.F.S., 1995b. North-West European thecate hydroids and their Medusae. Part 2. Synopses of the British Fauna (New Series), No 50.
References
- B. Grzimek; Grzimek’s Animal Life Encyclopedia (Volume 1: Lower Animals); Van Nostrand Reinhold Company.
- D. George; Marine Life: An Illustrated Encyclopedia of Invertebrates in the Sea; Wiley-Interscience Publication.
- E.P Solomon, L.R Berg, and D.W Martin (editor); Biology; Thomson Learning Inc; ISBN 0-534-39175-3 (6th edition, hardcover, 2002).
- J. Moore (editor); An Introduction to the Invertebrates; Cambridge University Press
- L. Gilbertson; Zoology Laboratory Manual; The McGraw-Hill Companies, Inc; ISBN 0-07-237716-X (4th edition, 1999).
- Some taxonomic information also came from National Center for Biotechnology Information (NCBI)