Obelia longissima

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Obelia longissima
Obelia longissima.jpg
Obelia longissima
Scientific classification Red Pencil Icon.png
Kingdom: Animalia
Phylum: Cnidaria
Class: Hydrozoa
Order: Leptothecata
Family: Campanulariidae
Genus: Obelia
Species:
O. longissima
Binomial name
Obelia longissima
(Pallas, 1766) [1]
Synonyms
  • Campanularia flabellata Hincks, 1866
  • Laomedea flabellata (Hincks, 1866)
  • Laomedea longissima (Pallas, 1766)
  • Obelia flabellata (Hincks, 1866)
  • Obelia plana Haeckel, 1879

Obelia longissima is a colonial species of hydrozoan in the order Leptomedusae. Its hydroid form grows as feathery stems resembling seaweed from a basal stolon. It is found in many temperate and cold seas world-wide but is absent from the tropics.

Contents

Description

The sessile colonial stage of Obelia longissima is the most long-lived and the most easily observed of its life stages. The hydroid looks superficially like fronds of seaweed. It has a basal stolon growing in close proximity with the substrate. Out of this grow fragile, flexible stems up to 35 centimetres (14 in) high each with short side branches. As the stolon grows, new branches develop and the older ones are reabsorbed so the colony moves across the substrate. When the availability of food is high, further upright branches develop but when it is low, most growth takes place by way of stolon elongation and branching. [2] The stems have dark-coloured, usually straight internodes between chitinous chambers called hydrothecae which are shaped like small wine-glasses. These protect the polyps. [3]

Distribution and habitat

Obelia longissima has a wide distribution. It occurs in the Atlantic Ocean as far north as the New Siberian Islands to the north of Siberia and as far south as the South Orkney Islands but is largely absent from the tropics. It is also found in the Mediterranean Sea, the Black Sea and the Baltic Sea. It is also present in the Indo-Pacific Ocean [2] and is considered native from Alaska to southern California. [3] It is one of the first species to colonise newly submerged surfaces and it can disperse widely because of the long-lasting larval stages and its ability to raft, attached to floating objects. [2] It has wide tolerances of salinity and temperature but growth may not occur at above 27 °C (81 °F). It can sometimes be found in rock pools but mostly occurs in the shallow sublittoral zone and has been reported at depths as great as 500 metres (1,600 ft) off Patagonia. It grows on hard surfaces such as rocks, boulders, stones, shells, the stipes of kelp, floating objects and man-made structures [2] and is part of the fouling community. [3]

Biology

The polyps of Obelia longissima resemble tiny sea anemones and have a ring of small tentacles which they spread in the current to intercept passing food items. The tentacles are armed with nematocysts, stinging cells with which they subdue their prey. The central mouth of each polyp connects to a digestive cavity which is continuous throughout the stem. [4] The diet consists of zooplankton, worms, small crustaceans, insect larvae and detritus. [2]

Life cycle

Obelia longissima has a complex life cycle. New colonies can be formed asexually by breakage of the stolon. Both the broken ends heal rapidly and begin to grow. Vertical stolons may also develop and attach themselves to other surfaces before detaching themselves from the parent colony. Another form of asexual reproduction takes place, possibly in response to stress, when gemmules form as rounded stubby outgrowths from the branches. These become detached and float away and, being adhesive, stick to objects they may encounter and found a new colony. Experimentally, gemmule production has been triggered by a sudden change in temperature of 5 °C (9 °F), lack of aeration of the water or an over-abundance of food. [2]

Each colony of Obelia longissima is either male or female. Under certain conditions reproductive structures called gonothecae form at junctions of older branches and gonophores develop inside these. Male or female medusae develop inside the gonophores, become detached and drift planktonically with the currents for one to four weeks. When the medusae are mature, gametes are released into the sea. Fertilisation is external and the sperm seems to be chemically attracted to the eggs. The resulting embryos develop into planula larvae which one to three weeks later settle on the seabed. The settlement sites may be selected because of a suitable surface film on the substrate. Metamorphosis of the larvae takes place and new colonies are formed. [2]

Related Research Articles

Hydrozoa class of cnidarians

Hydrozoa are a taxonomic class of individually very small, predatory animals, some solitary and some colonial, most living in salt water. The colonies of the colonial species can be large, and in some cases the specialized individual animals cannot survive outside the colony. A few genera within this class live in fresh water. Hydrozoans are related to jellyfish and corals and belong to the phylum Cnidaria.

<i>Obelia</i> Genus of hydrozoans

Obelia is a genus of hydrozoans, a class of mainly marine and some freshwater animal species that have both polyp and medusa stages in their life cycle. Hydrozoa belongs to the phylum Cnidaria, which are aquatic organisms that are relatively simple in structure.

<i>Velella</i> Species of cnidarian

Velella is a monospecific genus of hydrozoa in the Porpitidae family. Its only known species is Velella velella, a cosmopolitan free-floating hydrozoan that lives on the surface of the open ocean. It is commonly known by the names sea raft, by-the-wind sailor, purple sail, little sail, or simply Velella.

<i>Gonionemus</i> Genus of hydrozoans

Gonionemus is a genus of hydrozoans that uses adhesive discs near the middle of each tentacle to attach to eelgrass, sea lettuce, or various types of algae instead of swimming. They are small and hard to see when hanging onto swaying seaweed. Nevertheless, they are capable of swimming when necessary. The bell is transparent, revealing the four orange to yellowish-tan gonads that lie along most of the length of the four radial canals. The pale yellow manubrium has four short, frilly lips. Up to 80 tentacles line the bell margin, with about an equal number of statocysts. Copepods are a favored prey.

<i>Turritopsis dohrnii</i> Species of small, biologically immortal jellyfish

Turritopsis dohrnii, also known as the immortal jellyfish, is a species of small, biologically immortal jellyfish found worldwide in temperate to tropic waters. It is one of the few known cases of animals capable of reverting completely to a sexually immature, colonial stage after having reached sexual maturity as a solitary individual. Others include the jellyfish Laodicea undulata and species of the genus Aurelia.

Fire coral Genus of hydrozoans

Fire corals (Millepora) are a genus of colonial marine organisms that exhibit physical characteristics similar to that of coral. The name coral is somewhat misleading, as fire corals are not true corals but are instead more closely related to Hydra and other hydrozoans, making them hydrocorals. They make up the only genus in the monotypic family Milleporidae.

<i>Tubularia</i> Genus of hydrozoans

Tubularia is a genus of hydroids that appear to be furry pink tufts or balls at the end of long strings, thus causing them to be sometimes be called "pink-mouthed" or "pink-hearted" hydroids. Their average height is 40–60 mm and the diameter of the polyp and tentacles is 10mm. Tubularia indivisa and Ectopleura larynx can be difficult to distinguish and the two often grow together. In E. larynx the stems branch while in T. indivisa they are unbranched. Tubularia occurs either solitary or in colonies. The hydrants are large, brilliantly coloured and flower like. The colony is dioecious. The gonophores or medusae remain attached to the hypostome in clusters and are never set free. This animals represents structure of the ancestral coelenterate.

Leptothecata Order of cnidarians with hydrothecae

Leptothecata, or thecate hydroids, are an order of hydrozoans in the phylum Cnidaria. Their closest living relatives are the athecate hydroids which are similar enough to have always been considered closely related, and the very apomorphic Siphonophora which were placed outside the "Hydroida". Given that there are no firm rules for synonymy for high-ranked taxa, alternative names like Leptomedusa, Thecaphora or Thecata, with or without the ending emended to "-ae", are also often used for Leptothecata.

Gonophore

A gonophore is a reproductive organ in Hydrozoa that produces gametes. It is a sporosac, a medusa or any intermediate stage.

Bougainvilliidae is a family of marine hydroids in the class Hydrozoa. Members of the family are found worldwide. There are sixteen accepted genera and about ninety-three species.

<i>Bougainvillia muscus</i> Species of hydrozoan

Bougainvillia muscus is a marine invertebrate, a species of hydroid in the suborder Anthomedusae.

Bougainvillia britannica is a marine invertebrate, a species of hydroid in the suborder Anthomedusae.

<i>Eudendrium ramosum</i> Species of hydrozoan

Eudendrium ramosum, sometimes known as the tree hydroid, is a marine species of cnidaria, a hydroid (Hydrozoa) in the family Eudendriidae of the order Anthoathecata.

Hydroid (zoology) Life stage

Hydroids are a life stage for most animals of the class Hydrozoa, small predators related to jellyfish.

Tubular sponge hydroid Species of cnidarian

The tubular sponge hydroid is a species of hydroid cnidarian. It is a member of the family Tubulariidae. These animals usually grow embedded in sponges.

<i>Solanderia</i> Genus of hydrozoans

Solanderia is the sole genus of hydrozoans in the monotypic family Solanderiidae. They are commonly known as tree hydroids or sea fan hydroids.

<i>Cassiopea xamachana</i> Species of jellyfish

Cassiopea xamachana, commonly known as the upside-down jellyfish, is a species of jellyfish in the family Cassiopeidae. It is found in warm parts of the western Atlantic Ocean, the Caribbean Sea, and the Gulf of Mexico. It was first described by the American marine biologist Henry Bryant Bigelow in 1892.

<i>Pennaria disticha</i> Species of hydrozoan

Pennaria disticha, also known as the Christmas tree hydroid, is a species of athecate hydroid in the family Pennariidae. Colonies are common in the Mediterranean Sea growing on rocks close to the surface. This species has been used in research into prey capture.

<i>Obelia dichotoma</i> Species of hydrozoan

Obelia dichotoma is a broadly distributed, mainly marine but sometimes freshwater, colonial hydrozoan in the order Leptothecata that forms regular branching stems and a distinctive hydrotheca. O. dichotoma can be found in climates from the arctic to the tropics in protected waters such as marches and creeks but not near open coasts like beaches in depths up to 250m. O. dichotoma uses asexual and sexual reproduction and feeds on mainly zooplankton and fecal pellets. Obelia dichotoma has a complex relationship with the ecosystem and many economic systems.

<i>Clava</i> (hydrozoa) Genus of hydrozoans

Clava is a monotypic genus of hydrozoans in the family Hydractiniidae. It contains only one accepted species, Clava multicornis. Other names synonymous with Clava multicornis include Clava cornea, Clava diffusa, Clava leptostyla, Clava nodosa, Clava parasitica, Clava squamata, Coryne squamata, Hydra multicornis, and Hydra squamata. The larvae form of the species has a well developed nervous system compared to its small size. The adult form is also advanced due to its ability to stay dormant during unfavorable periods.

References

  1. van der Land, Jacob (2012). "Obelia longissima (Pallas, 1766)". WoRMS. World Register of Marine Species . Retrieved 2012-12-16.
  2. 1 2 3 4 5 6 7 Tyler-Walters, Harvey. "BIOTIC Species Information for Obelia longissima". Biological Traits Information Catalogue. MarLIN. Retrieved 2012-12-16.
  3. 1 2 3 Nelson, Jocelyn. "Obelia longissima (Pallas, 1766)". Marine Biodiversity of British Columbia. LifeDesks. Retrieved 2012-12-17.
  4. Jamison, David W. "Hydroid: Obelia longissima". Explore Puget Sound Habitats and Marine Life. Retrieved 2012-12-17.
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