Leptothecata

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Thecate hydroids
Aequorea3.jpeg
Crystal Jelly (Aequorea victoria, Conica: Aequoreidae) with the parasitic amphipod Hyperia medusarum
Scientific classification Red Pencil Icon.png
Kingdom: Animalia
Phylum: Cnidaria
Class: Hydrozoa
Subclass: Hydroidolina
Order: Leptothecata
Cornelius, 1992
Synonyms
  • Leptomedusa Haeckel, 1879
  • Leptomedusae Haeckel, 1879
  • Leptothecatae Cornelius, 1992
  • Thecaphora Hincks, 1868
  • Thecaphorae Hincks, 1868
  • Thecata Fleming, 1828
  • Thecatae Fleming, 1828

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 Siphonophorae, 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. [1]

Contents

Leptothecata is surrounded by a chitinous outer layer as its exoskeleton, including gonophores, their reproductive organ. Leptothecata obtain radial symmetry, in which their gonads can be found in their radial canals. Their morphological characters normally have ranged from benthic to planktonic stages. Characters associated with benthic are the polyps and colony forms, while planktonic is medusae. Leptothecata has a vast and complex variation among all species within the hydrozoan clade. [2] Thecata colonies also have extensive specialization due to their polyps function and variation. Most Leptothecata possess statocysts, which are used for defense and protection. The classes that have lost their statocysts have been changed ancestrally over time rather than a direct loss. [3]

The hydroid Halecium muricatum, Gulen Dive Resort, Norway Halecium-muricatum.jpg
The hydroid Halecium muricatum , Gulen Dive Resort, Norway

The approximately 1,900 species of Leptothecata are characterized by a number of features: Their polyps are always living in colonies with the hydranths set in hydrotheca which are usually permanent and often long enough so the animal can fully retract into it; some have very reduced hydrothecae resembling Anthoathecata. There is a single whorl of tentacles.

The gonophores are borne on much reduced hydranths and usually protected in a peridermal gonotheca. Medusae forming on fully developed hydranths are extremely rare; usually the gonophores develop into medusae or into sessile sporosacs. The medusae have a shallow bell, bear the gonads on their radial canals, and usually have statocysts which are formed only from epidermal tissue and more than four tentacles and. The cnidome never has stenoteles.

Characteristics

Colony architecture among Leptothecata comprises extensive diversity found in the hydrozoans. Their life cycles have been found to be connected with changes in colony shapes. Zooid polymorphism within the colonies are usually specialized. Polyps that make up the colonies tend to have three specialities and functions. First being the gastrozooid, which has their speciality of nutrition and digesting the food. Second, the gonozooid which is the reproductive polyp. Third, being the dactylozooid which function works in defense for the colony. The dactylozooid recently had become more highly variable with not being present in some thecata colony forms, and only possessing the gastrozooid and gonozooid polyps. [4]

Thecata colonies have detectable shapes and arrangements allowing for distinguishing classification between one another. One major shape is when the colonies are erected off a branched colony. Another major shape of thecata is where the colonies can be erected off an unbranched stem. Stolonal colonies are a final major type where their polyps are connected to the creeping part of the colony. Where most cases of the erected branched shape have been found to be derived over time. [5]

Medusae tend to be pelagic. But there are specific medusae species while at the medusa stage can still remain benthic. Polyps can also be free floating, which are called pelagic polyps. Similarly, their gastroular and nervous system have great complexity, as well as their shape. While medusae due tend to lack any presence of visible sense organs. Leptothecata have significant synapomorphies that are present in most of all their species. In regards to their gastrozooids, Lephtothecata have the theca layer on their polyps. Which has allowed the synapomorphy for Leptothecata to form hydrothecae that is also made of theca, that surrounds the gonozooid. [6]

Reproduction and Development

Leptothecata have distinguishing factors in the presence of morphological dimorphism. The dimorphism in the species classes has led to great complexity within their taxonomic identification. Majority of the thecate hydroids use asexual reproduction in response to budding. They have also been known for their plasticity, allowing them to adapt and grow in their given environment. [7] Thecata's branch has a mutual similarity based on mature gamete localization, where they possess their mature gametes located through their radial canals. [8]

Location

Among Leptothecata’s diversified species, they have great variability within their organization and life cycles. Leptothecata can be found worldwide in all marine environments. [9] The location of where Leptothecata are found ranges from shallow waters to the deep sea, most being marine species. In their polyp and medusa form, due to natural factors they can travel outside their native location. This is usually done by currents or if attached to other vertebrates. Due to the hydroids' broad range of locations, they also have been known to play in many ecosystem factors. They provide shelter and protection and are a known food source for other marine species. [10] Leptothecata has been the main attraction in many great expeditions and studies due to the broad spectrum of thecate hydroids within their order. These developments have led to further discoveries of finding locations where thecate hydroids can be relatively rich in the marine environment. Allowing researchers to study a range of differences based on the colonies, the hydrotheca and even the pairs of thecae themselves. [11]

Notable Species of Leptothecata

Taxonomy and systematics

The thecate hydroids were formerly placed in the paraphyletic "Hydroida" as the suborder Leptomedusa. Currently, the following families are classified within the order Leptothecata: [12]

Related Research Articles

<span class="mw-page-title-main">Hydrozoa</span> Class of cnidarians

Hydrozoa are a taxonomic class of individually very small, predatory animals, some solitary and some colonial, most of which inhabit saline 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 freshwater habitats. 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 with a diameter around 1mm. There are currently 120 known species, with more to be discovered. These species are grouped into three broad categories: O. bidentata, O. dichotoma, and O. geniculata. O. longissima was later accepted as a legitimate species, but taxonomy regarding the entire genus is debated over.

<span class="mw-page-title-main">Siphonophorae</span> Order of colonial hydrozoans with differentiated zooids

Siphonophorae is an order within Hydrozoa, which is a class of marine organisms within the phylum Cnidaria. According to the World Register of Marine Species, the order contains 175 species thus far.

<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>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.

<span class="mw-page-title-main">Anthoathecata</span> Order of hydrozoans which always have a polyp stage

Anthoathecata, or the athecate hydroids, are an order of hydrozoans belonging to the phylum Cnidaria. A profusion of alternate scientific names exists for this long-known, heavily discussed, and spectacular group. It has also been called Gymnoblastea and, Anthomedusa,Athecata, Hydromedusa, and Stylasterina. There are about 1,200 species worldwide.

<span class="mw-page-title-main">Hydroidolina</span> Subclass of hydrozoans

Hydroidolina is a subclass of Hydrozoa and makes up 90% of the class. Controversy surrounds who the sister groups of Hydroidolina are, but research has shown that three orders remain consistent as direct relatives: Siphonophorae, Anthoathecata, and Leptothecata.

<span class="mw-page-title-main">Plumularioidea</span> Superfamily of cnidarians

Plumularioidea is a superfamily of hydrozoans in the order Leptothecata.

Lovenellidae is a family of hydrozoans. Their hydroids live together in upright stolonal or sympodial colonies, and their gonophores are pedunculate free-roaming medusae. The relationships of this fairly small but distinctive radiation to other members of the order Leptothecata are not well understood at present.

<span class="mw-page-title-main">Haleciidae</span> Family of hydrozoans

Haleciidae is a family of hydrozoans. Their hydroid colonies emerge from a creeping hydrorhiza and usually form upright branching colonies, although some species' colonies are stolonal. Their gonophores are typically sporosacs, growing singly or bunched into a glomulus. They remain attached to the hydroids or break off to be passively drifted away; in a few, the gonophores are naked.

<span class="mw-page-title-main">Gonophore</span>

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

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

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

<span class="mw-page-title-main">Aequoreidae</span> Family of hydrozoans

Aequoreidae is a family of hydrozoans, sometimes called the many-ribbed jellies or many-ribbed jellyfish. There are approximately 30 known species found in temperate and tropical marine coastal environments. Aequoreids include Aequorea victoria, the organism from which the green fluorescent protein gene was isolated.

Bougainvillia aberrans is a marine invertebrate, a species of hydroid in the suborder Anthomedusae. It was first described by Dale Calder in 1993. They have four radical clusters of marginal tentacles. Bougainvillia aberrans is found in Bermuda in the western North Atlantic Ocean.

<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.

<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>Turritopsis nutricula</i> Species of hydrozoan

Turritopsis nutricula is a small hydrozoan that once reaching adulthood, can transfer its cells back to childhood. This adaptive trait likely evolved in order to extend the life of the individual. Several different species of the genus Turritopsis were formerly classified as T. nutricula, including the "immortal jellyfish" which is now classified as T. dohrnii.

In biology, Gonozooids are any of the reproductive individuals of Tunicates, Bryozoan, or Hydrozoan colonies that produce gametes. Gonozooids may play a role in labour division or in alternation of generations. A gonozooid typically has hardly any other function than reproduction, amounting to little more than a motile gonad.

<i>Clytia hemisphaerica</i> Species of hydrozoan

Clytia hemisphaerica is a small hydrozoan-group cnidarian, about 1 cm in diameter, that is found in the Mediterranean Sea and the North-East Atlantic Ocean. Clytia has the free-swimming jellyfish form typical of the Hydrozoa, as well as vegetatively propagating polyps.

<span class="mw-page-title-main">Zancleidae</span> Family of cnidarians

Zancleidae is a family of cnidarians belonging to the order Anthoathecata.

References

  1. Schuchert (2005a)
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  10. [5]
  11. [4]
  12. "WoRMS - World Register of Marine Species - Leptothecata". marinespecies.org. Retrieved 2018-03-16.


FMIB 40573 Hebella calcarta (Ag).jpeg

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  1. Maronna, Maximiliano M.; Miranda, Thaís P.; Peña Cantero, Álvaro L.; Barbeitos, Marcos S.; Marques, Antonio C. (29 January 2016). "Towards a phylogenetic classification of Leptothecata (Cnidaria, Hydrozoa)". Scientific Reports. 6 (1): 18075. doi: 10.1038/srep18075 . ISSN   2045-2322. PMC   4731775 . PMID   26821567.
  2. Leclère, Lucas; Schuchert, Peter; Manuel, Michaël (July 2007). "Phylogeny of the Plumularioidea (Hydrozoa, Leptothecata): evolution of colonial organisation and life cycle". Zoologica Scripta. 36 (4): 371–394. doi:10.1111/j.1463-6409.2007.00283.x. S2CID   85012431.
  3. Ajala-Batista, Larissa; de Miranda Lins, Daniel; Haddad, Maria Angélica (December 2020). "Diversity of estuarine and marine hydroids (Cnidaria, Hydrozoa) from subtropical ecosystems of Brazil". Marine Biodiversity. 50 (6): 97. doi:10.1007/s12526-020-01133-0. S2CID   228869273.
  4. Galea, Horia R.; Schuchert, Peter (4 October 2019). "Some thecate hydroids (Cnidaria: Hydrozoa) from off New Caledonia collected during KANACONO and KANADEEP expeditions of the French Tropical Deep-Sea Benthos Program". European Journal of Taxonomy (562). doi: 10.5852/ejt.2019.562 .
  5. Leclère, Lucas; Schuchert, Peter; Cruaud, Corinne; Couloux, Arnaud; Manuel, Michael (1 October 2009). "Molecular Phylogenetics of Thecata (Hydrozoa, Cnidaria) Reveals Long-Term Maintenance of Life History Traits despite High Frequency of Recent Character Changes". Systematic Biology. 58 (5): 509–526. doi: 10.1093/sysbio/syp044 . PMID   20525605.
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