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Nudibranchs

Nudibranchia Cuvier 1817

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Morphology

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Other Physical Features: ectothermic ; bilateral symmetry

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Nudibranchia ( Afrikaans )

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Nudibranchia, bekend as naakslakke, is 'n orde wat hoort tot die klas Gastropoda. Die is die grootste groep van seeslakke met meer as 3000 spesies wat beskryf is. Dit is 'n groot diverse groep met een gemeenskaplike kenmerk: as volwassenes beskik hulle nie oor 'n skulp nie. Die woord nudibranch beteken naak kieue.

Bron

  • The Reef Guide: Fishes, corals, nudibranchs & other invertebrates: East & South Coasts of Southern Africa. Dennis King & Valda Fraser. Struik Nature. 2014 ISBN 978-1-77584-018-3
  • Wägele H. & Klussmann-Kolb A. (2005). "Opisthobranchia (Mollusca, Gastropoda) more than just slimy slugs. Shell reduction and its implications on defence and foraging". Frontiers in Zoology 2: 1-18. doi:10.1186/1742-9994-2-3.
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Nudibranchia: Brief Summary ( Afrikaans )

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Nudibranchia, bekend as naakslakke, is 'n orde wat hoort tot die klas Gastropoda. Die is die grootste groep van seeslakke met meer as 3000 spesies wat beskryf is. Dit is 'n groot diverse groep met een gemeenskaplike kenmerk: as volwassenes beskik hulle nie oor 'n skulp nie. Die woord nudibranch beteken naak kieue.

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Nudibranqui ( Catalan; Valencian )

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La ballarina espanyola (Hexabranchus sanguineus), coneguda així pel seu colorit, plecs i moviment.[1]

Els nudibranquis (Nudibranchia) són un subordre de mol·luscs gastròpodes de l'ordre dels opistobranquis. El seu nom significa "amb les brànquies nues".

Taxonomia

D'acord amb la taxonomia dels Gastròpodes de Bouchet & Rocroi (2005),[2] els nudibranquis es divideixen en dos clades:

Clade Euctenidiacea (=Holohepatica)

Clade Dexiarchia (=Actenidiacea)

Referències

  1. National Geographic en castellà.
  2. Bouchet P. & Rocroi J.-P. (Ed.); Frýda J., Hausdorf B., Ponder W., Valdés Á. & Warén A. (2005). "Classification and nomenclator of gastropod families". Malacologia, International Journal of Malacology, 47(1-2). ConchBooks: Hackenheim, Germany. ISBN 3-925919-72-4. Issn = 0076-2997. 397 pp. http://www.vliz.be/Vmdcdata/imis2/ref.php?refid=78278

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Nudibranqui: Brief Summary ( Catalan; Valencian )

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src= La ballarina espanyola (Hexabranchus sanguineus), coneguda així pel seu colorit, plecs i moviment. src= Berghia coerulescens. src= Cerberilla ambonensis. src= Tritonia. src= Cuthona flavovulta. src= Nembrotha megalocera. src= Diaphorodoris olakhalafi.

Els nudibranquis (Nudibranchia) són un subordre de mol·luscs gastròpodes de l'ordre dels opistobranquis. El seu nom significa "amb les brànquies nues".

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Nahožábří ( Czech )

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Nahožábří (Nudibranchia, z lat. nudus – nahý; z řec. brankhia – žábry) je skupina vodních, moře obývajících zadožábrých plžů. Pozornost upoutá především jejich neotřelý tvar a zářivé barvy. Mezi zvláštní schopnosti patří to, že po pozření živočicha z kmene žahavců mohou transportovat jeho žahavé buňky do své pokožky a sami tak získají schopnost žahat.[2]

Reference

  1. JÖRGER, Katharina M.; STÖGER, Isabella; KANO, Yasunori; FUKUDA, Hiroshi; KNEBELSBERGER, Thomas; SCHRÖDL, Michael. On the origin of Acochlidia and other enigmatic euthyneuran gastropods, with implications for the systematics of Heterobranchia. BMC Evolutionary Biology [online]. National Center for Biotechnology Information, 25. říjen 2010 [cit. 2017-02-09]. Svazek 10, čís. 323, s. 1-20. Dostupné online. PDF [1]. ISSN 1471-2148. DOI:10.1186/1471-2148-10-323. PMID 20973994. (anglicky)
  2. SMRŽ, Jaroslav. Základy biologie, ekologie a systému bezobratlých živočichů. 1. vyd. Praha: Univerzita Karlova v Praze, 2013. 192 s. ISBN 978-80-264-2258-3.

Externí odkazy

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Nahožábří: Brief Summary ( Czech )

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Nahožábří (Nudibranchia, z lat. nudus – nahý; z řec. brankhia – žábry) je skupina vodních, moře obývajících zadožábrých plžů. Pozornost upoutá především jejich neotřelý tvar a zářivé barvy. Mezi zvláštní schopnosti patří to, že po pozření živočicha z kmene žahavců mohou transportovat jeho žahavé buňky do své pokožky a sami tak získají schopnost žahat.

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Nøgensnegle ( Danish )

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Et farverigt eksemplar af Phyllidia varicosa fra Indonesien

Nøgensneglene (Nudibranchia), udgør den største orden af baggællesneglene. Nøgensneglene omfatter mere end 3.000 arter. Nøgensneglene er havsnegle, hvor den voksne form hverken har skal eller hus. Navnet nudibranchia hentyder til at sneglenes gæller sidder frit som en busket gevækst på bagkroppen. Nøgensneglene har to tentakler placeret på hovedet, som bruges til at smage, føle og lugte med. Kropsformen varierer kraftigt, og størrelsen kan variere fra 4 mm til 60 cm. Sneglene er hermafroditer, men kan ikke befrugte sig selv. De er kødædende. Nogle lever af svampe, andre af hydroider eller bryozoer. Der findes også grupper der spiser tunicater og rurer, og nogle er ligefrem kannibaler. Nøgensneglene forekommer over hele verden på store dybder, men de opnår den største arts-variation i varme lavvandede områder.

Nøgensnegle omfatter nogle af de mest farverige arter på kloden. Fordi nøgensneglene igennem evolutionen har mistet deres hus er de afhængige af andre forsvarsmekanismer: Farvemønstre, der virker som camouflage overfor for fisk, eller som skræmmer rovdyr ved at foregive at sneglen er giftig eller ildesmagende. På grund af deres farver og deres manglende evne til at flygte er nøgensnegle et populært motiv for undervandsfotografer.

Referencer

  • H. Wägele og R.C. Willan: Phylogeny of the Nudibranchia :Zoological Journal of the Linnean Society September 2000, vol. 1 no.1, side. 83-181(99)


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Nøgensnegle: Brief Summary ( Danish )

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src= Et farverigt eksemplar af Phyllidia varicosa fra Indonesien

Nøgensneglene (Nudibranchia), udgør den største orden af baggællesneglene. Nøgensneglene omfatter mere end 3.000 arter. Nøgensneglene er havsnegle, hvor den voksne form hverken har skal eller hus. Navnet nudibranchia hentyder til at sneglenes gæller sidder frit som en busket gevækst på bagkroppen. Nøgensneglene har to tentakler placeret på hovedet, som bruges til at smage, føle og lugte med. Kropsformen varierer kraftigt, og størrelsen kan variere fra 4 mm til 60 cm. Sneglene er hermafroditer, men kan ikke befrugte sig selv. De er kødædende. Nogle lever af svampe, andre af hydroider eller bryozoer. Der findes også grupper der spiser tunicater og rurer, og nogle er ligefrem kannibaler. Nøgensneglene forekommer over hele verden på store dybder, men de opnår den største arts-variation i varme lavvandede områder.

Nøgensnegle omfatter nogle af de mest farverige arter på kloden. Fordi nøgensneglene igennem evolutionen har mistet deres hus er de afhængige af andre forsvarsmekanismer: Farvemønstre, der virker som camouflage overfor for fisk, eller som skræmmer rovdyr ved at foregive at sneglen er giftig eller ildesmagende. På grund af deres farver og deres manglende evne til at flygte er nøgensnegle et populært motiv for undervandsfotografer.

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Nacktkiemer ( German )

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Fadenschnecke
(Pteraeolidia ianthina)
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Furchenschnecke (Janolus sp.)
src=
Nembrotha cristata
src=
Thecacera sp.
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Augenfleck-Warzenschnecke (Phyllidia ocellata)
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Drummonds Fadenschnecke (Facelina bostoniensis)

Die Nacktkiemer (Nudibranchia) sind die größte Unterordnung der Hinterkiemerschnecken. Die Unterordnung umfasst mehr als 3000 Arten der Nacktschnecken, die im Meer leben.

Aufbau

Die Größe der Nacktkiemerschnecken variiert zwischen 4 mm und 60 cm. Sie gehören zu den farbenreichsten Tieren. Ihnen fehlen Mantelhöhle, Schale und Fußlappen. Die Tiere atmen durch die Haut oder durch eine Art Kiemengebilde auf ihrem Rücken, den sogenannten Cerata. In diese Cerata ziehen auch Ausläufer der Mitteldarmdrüsen hinein und bei den Aeolidioidea, die sich von Hydroidpolypen ernähren, werden die Nesselkapseln durch die Mitteldarmdrüse in die Cerata hineinverlagert, dort gespeichert und können zur Abwehr verwendet werden. Diese Nesselkapseln werden nun Kleptocniden genannt (siehe Schutzmechanismen).

Auf dem Kopf tragen die meisten Nacktkiemer paarige Rhinophoren zur olfaktorischen Wahrnehmung und zur Strömungswahrnehmung. Es handelt sich um mehr oder weniger auffällige keulenförmige, stabförmige, fächerförmige oder schüsselförmige Ausstülpungen, welche viele zum Schutz einziehen können.[1] Neben diesem Fühlerpaar tragen sie meist verschiedene tentakel- oder federartige Anhänge. Weitere Tentakelanhänge im Mundbereich sind für Sinnesleistungen wie Tasten, Geschmack und Geruch zuständig. Die Lichtsensitivität ist tief unter der Haut in der Nähe des Gehirnganglions angeordnet. Mit ihrer Hilfe können wohl nur Hell-Dunkel-Unterscheidungen wahrgenommen werden, z. B. der Schatten eines Feindes oder der Rhythmus der Tageszeiten.

src=
2 Rhinophoren auf der Kopfoberseite einer Koi-Prachtsternschnecke (Chromodoris coi)

Die Nacktkiemer sind Zwitter, können sich jedoch nicht selbst befruchten. Ihre Eier legen sie in bandförmigen spiraligen Eipaketen ab.

Nacktkiemer können weltweit in allen Meerestiefen auftreten, die meisten Formen gibt es jedoch in warmen Meeren im Flachwasserbereich.

Schutzmechanismen

Die Nacktkiemer haben im Verlauf der Evolution ihre schützenden Gehäuse verloren und andere Abwehrmechanismen entwickelt.

  • Die Färbung dient bei manchen Arten der Tarnung, die durch feder- und büschelartige Anhänge noch verstärkt wird, so dass sie von pflanzlichen Gebilden schwer zu unterscheiden sind. Dazu kommt, dass die verschiedenen Farbanteile des Lichts in verschiedenen Wassertiefen unterschiedlich absorbiert werden. An der Wasseroberfläche auffällig wirkende Farben (z. B. rot) können in einer bestimmten Tiefe wie Tarnfarben wirken, da nur noch ihr grüner und blauer Anteil reflektiert wird. Taucher können die sonst so auffälligen Schnecken in entsprechender Umgebung nur schwer auffinden.
  • Bei anderen Nacktkiemern dient die auffällige Färbung der Warnung vor ihrer Giftigkeit oder Ungenießbarkeit, man spricht dann von Aposematismus. Manche Arten sondern auf ihrer Haut giftige Sekrete ab. Die verschiedenen Körperanhänge und Tentakel können meist bei Verlust regeneriert werden.
  • Viele Schnecken, die sich von den Polypen der Nesseltiere ernähren, können die Nesselzellen in der Haut ihres Hinterleibs speichern, wo sie bei Räubern zu unliebsamen Erfahrungen führen können. Die Nesselzellen passieren dabei unbeschadet den Verdauungstrakt und werden durch besondere Darmausstülpungen an die entsprechenden Stellen im Hinterleib gebracht. Die Nacktkiemer selbst haben Abwehrmechanismen gegen den Nesselangriff der Polypen entwickelt. Wahrscheinlich spielen dabei Spezialzellen mit großen Vakuolen in der Haut eine Rolle. Einige Nacktkiemer wie die Wander-Fadenschnecke oder Flabellina affinis enthalten starke Toxine, die sie von gefressenen Hydrozoen in ihrem Gewebe sequestrieren.[2]
  • Eine weitere Abwehrmöglichkeit bei mechanischer Reizung ist das Ausscheiden von saurem Schleim aus den Hautzellen.

Ernährung

Nacktkiemer ernähren sich von sessil lebenden wirbellosen Tieren wie Schwämmen, Stein- oder Weichkorallen, Krustenanemonen oder Moostierchen. Dabei geht die Spezialisierung oft so weit, dass sie nur eine bestimmte Art fressen. Manche Arten fressen andere Nacktschnecken, in manchen Fällen sogar schwächere Exemplare der eigenen Art. Eine Gruppe hat sich auf Manteltiere spezialisiert.

Systematik

Nach der Schneckensystematik von Ponder & Lindberg (1997) umfassen die Nacktkiemer acht Überfamilien in zwei Untergruppen:

Literatur

Einzelnachweise

  1. Volker Storch, Ulrich Welsch: Über Bau und Funktion der Nudibranchier-Rhinophoren. In: Zeitschrift für Zellforschung und mikroskopische Anatomie, Band 97, Nr. 4, 1969, S. 528–536.
  2. Rainer Martin, Paul Walther: Protective mechanisms against the action of nematocysts in the epidermis of Cratena peregrina and Flabellina affinis (Gastropoda, Nudibranchia). In: Zoomorphology, Band 122, Nr. 1, 2003, S. 25–32 (PDF).
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Nacktkiemer: Brief Summary ( German )

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src= Fadenschnecke
(Pteraeolidia ianthina) src= Furchenschnecke (Janolus sp.) src= Nembrotha cristata src= Thecacera sp. src= Augenfleck-Warzenschnecke (Phyllidia ocellata) src= Drummonds Fadenschnecke (Facelina bostoniensis)

Die Nacktkiemer (Nudibranchia) sind die größte Unterordnung der Hinterkiemerschnecken. Die Unterordnung umfasst mehr als 3000 Arten der Nacktschnecken, die im Meer leben.

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Ачык бакалоордуулар ( Kirghiz; Kyrgyz )

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Berghia coerulescens (Laurillard, 1830).

Ачык бакалоордуулар (лат. Nudibranchia) — үлүлдөрдүн бир түркүмчөсү.

Колдонулган адабияттар

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Nudibranch

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Nudibranchs (/ˈnjdɪbræŋk/[2]) are a group of soft-bodied marine gastropod molluscs that shed their shells after their larval stage.[3] They are noted for their often extraordinary colours and striking forms, and they have been given colourful nicknames to match, such as "clown", "marigold", "splendid", "dancer", "dragon", and[4] "sea rabbit".[5] Currently, about 3,000 valid species of nudibranchs are known.[6]

The word "nudibranch" comes from the Latin nudus "naked" and the Ancient Greek βράγχια (bránkhia) "gills".

Nudibranchs are often casually called sea slugs, as they are a family of opistobranchs (sea slugs), within the phylum Mollusca (molluscs), but many sea slugs belong to several taxonomic groups that are not closely related to nudibranchs. A number of these other sea slugs, such as the photosynthetic Sacoglossa and the colourful Aglajidae, are often confused with nudibranchs.

Distribution and habitat

Janolus sp. in Anilao, the Philippines
Kalinga ornata from Anilao Pier dive site, depth 5 m

Nudibranchs occur in seas worldwide, ranging from the Arctic, through temperate and tropical regions, to the Southern Ocean around Antarctica.[6][7][8] They are almost entirely restricted to salt water, although a few species are known to inhabit lower salinities in brackish water.[9]

Nudibranchs live at virtually all depths, from the intertidal zone to depths well over 700 m (2,300 ft).[7] The greatest diversity of nudibranchs is seen in warm, shallow reefs, although one nudibranch species was discovered at a depth near 2,500 m (8,200 ft).[10]

Nudibranchs are benthic animals, found crawling over the substrate.[7] The only exceptions to this are the neustonic Glaucus nudibranchs, which float upside down just under the ocean's surface; the pelagic nudibranchs Cephalopyge trematoides, which swim in the water column;[11][12] and Phylliroe bucephalum.[13]

Anatomical description

Resembling a strip of damp sheepskin is a slug-like body with its back covered in cigar-shaped tentacles (most of which are called cerata)
Berghia stephanieae nudibranch body: Note the oral tentacles (ot), foot tentacles (ft), eye (e), rhinophores (r), and cerata (c). This species has cnidosacs (cn) at the cerata tips. Scale bar is 100 μm.

The body forms of nudibranchs vary greatly. Because they are opisthobranchs, unlike most other gastropods, they are apparently bilaterally symmetrical externally (but not internally) because they have undergone secondary detorsion. In all nudibranchs, the male and female sexual openings are on the right side of the body, reflecting their asymmetrical origins. They lack a mantle cavity. Some species have venomous appendages (cerata) on their sides, which deter predators. Many also have a simple gut and a mouth with a radula.[14]

The eyes in nudibranchs are simple and able to discern little more than light and dark.[15] The eyes are set into the body, are about a quarter of a millimeter in diameter, and consist of a lens and five photoreceptors.[16]

Nudibranchs vary in adult size from 4 to 600 mm (0.16 to 23.62 in).[17]

The adult form is without a shell or operculum (in shelled gastropods, the operculum is a bony or horny plate that can cover the opening of the shell when the body is withdrawn). In most species, there is a swimming veliger larva with a coiled shell, but the shell is shed at metamorphosis when the larva transforms into the adult form. Some species have direct development, and the shell is shed before the animal emerges from the egg mass.[14]

The Glaucus Atlanticus is an example of a nudibranch that has its cerata positioned like wings instead of on its back.

The name nudibranch is appropriate, since the dorids (infraclass Anthobranchia) breathe through a "naked gill" shaped into branchial plumes in a rosette on their backs.[18] By contrast, on the back of the aeolids in the clade Cladobranchia, brightly coloured sets of protruding organs called cerata are present.

Nudibranchs have cephalic (head) tentacles, which are sensitive to touch, taste, and smell. Club-shaped rhinophores detect odors.

Defence mechanisms

Nudibranchs (Nembrotha kubaryana) eating Clavelina tunicate colonies

In the course of their evolution, nudibranchs have lost their shells, while developing alternative defence mechanisms. Some species evolved an external anatomy with textures and colours that mimicked surrounding sessile invertebrate animals (often their prey sponges or soft corals) to avoid predators (camouflage). Other nudibranchs, as seen especially well on Chromodoris quadricolor, have an intensely bright and contrasting colour pattern that makes them especially conspicuous in their surroundings. Nudibranch molluscs are the most commonly cited examples of aposematism in marine ecosystems, but the evidence for this has been contested,[19] mostly because few examples of mimicry are seen among species, many species are nocturnal or cryptic, and bright colours at the red end of the spectrum are rapidly attenuated as a function of water depth. For example, the Spanish dancer nudibranch (genus Hexabranchus), among the largest of tropical marine slugs, potently chemically defended, and brilliantly red and white, is nocturnal and has no known mimics.[20] Other studies of nudibranch molluscs have concluded they are aposematically coloured, for example, the slugs of the family Phylidiidae from Indo-Pacific coral reefs.[21]

Nudibranchs that feed on hydrozoids can store the hydrozoids' nematocysts (stinging cells) in the dorsal body wall, the cerata.[22] These stolen nematocysts, called kleptocnidae, wander through the alimentary tract without harming the nudibranch. Once further into the organ, the cells are assimilated by intestinal protuberances and brought to specific placements on the creature's hind body. Nudibranchs can protect themselves from the hydrozoids and their nematocysts; the specific mechanism is yet unknown, but special cells with large vacuoles probably play an important role. Similarly, some nudibranchs can also take in plant cells (symbiotic algae from soft corals) and reuse these to make food for themselves. The related group of sacoglossan sea slugs feed on algae and retain just the chloroplasts for their own photosynthetic use, a process known as kleptoplasty. And almost all nudibranchs can regrow their head if it comes off.

Nudibranchs use a variety of chemical defences to aid in protection,[23] but it is not necessary for the strategy to be lethal to be effective; in fact, good arguments exist that chemical defences should evolve to be distasteful rather than toxic.[24] Some sponge-eating nudibranchs concentrate the chemical defences from their prey sponge in their bodies, rendering themselves distasteful to predators.[20][25] One method of chemical defense used by nudibranchs are secondary metabolites, which play an important role in mediating relationships among marine communities.[26] The evidence that suggests the chemical compounds used by dorid nudibranchs do in fact come from dietary sponges lies in the similarities between the metabolites of prey and nudibranchs, respectively. Furthermore, nudibranchs contain a mixture of sponge chemicals when they are in the presence of multiple food sources, as well as change defence chemicals with a concurrent change in diet.[27] This, however, is not the only way for nudibranchs to develop chemical defences. Certain Antarctic marine species defense mechanisms are believed to be controlled by biological factors like predation and competition, and selective pressures.[26] Certain species are able to produce their own chemicals de novo without dietary influence. Evidence for the different methods of chemical production comes with the characteristic uniformity of chemical composition across drastically different environments and geographic locations found throughout de novo production species compared to the wide variety of dietary and environmentally dependent chemical composition in sequestering species.[28]

Another method of protection is the release of the ugdon acid from the skin.[29] Once the specimen is physically irritated or touched by another creature, it will release the mucus automatically, eating the animal from the inside out.

Apparent production of sound

In 1884, Philip Henry Gosse reported observations by "Professor Grant" (possibly Robert Edmond Grant) that two species of nudibranchs emit sounds that are audible to humans.[30]

Two very elegant species of Sea-slug, viz., Eolis punctata [i.e. Facelina annulicornis], and Tritonia arborescens [i.e. Dendronotus frondosus], certainly produce audible sounds. Professor Grant, who first observed the interesting fact in some specimens of the latter which he was keeping in an aquarium, says of the sounds, that 'they resemble very much the clink of a steel wire on the side of the jar, one stroke only been given at a time, and repeated at intervals of a minute or two; when placed in a large basin of water the sound is much obscured, and is like that of a watch, one stroke being repeated, as before, at intervals. The sound is longest and most often repeated when the Tritonia are lively and moving about, and is not heard when they are cold and without any motion; in the dark I have not observed any light emitted at the time of the stroke; no globule of air escapes to the surface of the water, nor is any ripple produced on the surface at the instant of the stroke; the sound, when in a glass vessel, is mellow and distinct.' The Professor has kept these Tritonia alive in his room for a month, and during the whole period of their confinement they have continued to produce the sounds with very little diminution of their original intensity. In a small apartment they are audible at the distance of twelve feet. The sounds obviously proceed from the mouth of the animal; and at the instant of the stroke, we observe the lips suddenly separate, as if to allow the water to rush into a small vacuum formed within. As these animals are hermaphrodites, requiring mutual impregnation, the sounds may possibly be a means of communication between them, or, if they are of an electric nature, they may be the means of defending from foreign enemies one of the most delicate, defenceless, and beautiful Gasteropods that inhabit the deep.

Life cycle

Mating behavior in Nembrotha purpureolineata
Acanthodoris lutea laying eggs

Nudibranchs are hermaphroditic, thus having a set of reproductive organs for both sexes, but they cannot fertilize themselves.[31] Mating usually takes a few minutes, and involves a dance-like courtship. Nudibranchs typically deposit their eggs within a gelatinous spiral,[32] which is often described as looking like a ribbon. The number of eggs varies; it can be as few as just 1 or 2 eggs (Vayssierea felis) or as many as an estimated 25 million (Aplysia fasciata{not a nudibranch}). The eggs contain toxins from sea sponges as a means of deterring predators.[33] After hatching, the infants look almost identical to their adult counterparts, albeit smaller. Infants may also have fewer cerata. The lifespan of nudibranchs can range from a few weeks to a year, depending on the species.

Feeding and ecological role

Pteraeolidia ianthina has adapted cerata to house symbiotic zooxanthellae obtained from its diet, which continue to photosynthesize and provide energy to the nudibranch.

All known nudibranchs are carnivorous.[31] Some feed on sponges, others on hydroids (e.g. Cuthona),[34] others on bryozoans (phanerobranchs such as Tambja, Limacia, Plocamopherus and Triopha),[35] and some eat other sea slugs or their eggs (e.g. Favorinus)[36] or, on some occasions, are cannibals and prey on members of their own species. Other groups feed on tunicates (e.g. Nembrotha, Goniodoris),[37] other nudibranchs (Roboastra, which are descended from tunicate-feeding species),[37] barnacles (e.g. Onchidoris bilamellata),[38] and anemones (e.g. the Aeolidiidae and other Cladobranchia).[35]

The surface-dwelling nudibranch, Glaucus atlanticus, is a specialist predator of siphonophores, such as the Portuguese man o' war. This predatory mollusc sucks air into its stomach to keep it afloat, and using its muscular foot, it clings to the surface film. If it finds a small victim, Glaucus simply envelops it with its capacious mouth, but if the prey is a larger siphonophore, the mollusc nibbles off its fishing tentacles, the ones carrying the most potent nematocysts. Like some others of its kind, Glaucus does not digest the nematocysts; instead, it uses them to defend itself by passing them from its gut to the surface of its skin.[39]

Taxonomy

Dorids (Chromodoris willani shown) breathe with the branchial plume, which projects from around their anus.
Aeolids (Hermissenda crassicornis pictured) have many cerata over their back which are used for defense and respiration.
Nudibranchs are frequently differentiated as either dorid or aeolid.

Nudibranchs are commonly divided into two main kinds, dorid and aeolid (also spelled eolid) nudibranchs:[40][41]

  • Dorids (clade Anthobranchia, Doridacea, or Doridoidea) are recognised by having an intact digestive gland and the feather-like branchial (gill) plume, which forms a cluster on the posterior part of the body, around the anus. Fringes on the mantle do not contain any intestines. Additionally, dorid nudibranchs commonly have distinct pockets, bumps, and/or mantle dermal formations, which are distortions on their skin, used to store bioactive defense chemicals.[42]
  • Aeolids (clade Cladobranchia) have cerata (spread across the back) instead of the branchial plume. The cerata function in place of gills and facilitate gas exchange through the epidermis. Additionally, aeolids possess a branched digestive gland, which may extend into the cerate and often has tips that contain cnidosacs (stinging cells absorbed from prey species and then used by the nudibranch).[43] They lack a mantle. Some are hosts to zooxanthellae.

The exact systematics of nudibranchs are a topic of recent revision. Traditionally, nudibranchs have been treated as the order Nudibranchia, located in the gastropod mollusc subclass Opisthobranchia (the marine slugs: which consisted of nudibranchs, sidegill slugs, bubble snails, algae sap-sucking sea slugs, and sea hares).[40] Since 2005,[44] pleurobranchs (which had previously been grouped among sidegill slugs) have been placed alongside nudibranchs in the clade Nudipleura (recognising them as more closely related to each other than to other opisthobranchs).[45] Since 2010, Opisthobranchia has been recognised as not a valid clade (it is paraphyletic) and instead Nudipleura has been placed as the first offshoot of Euthyneura (which is the dominant clade of gastropods).[46]

Traditional hierarchy

This classification was based on the work of Johannes Thiele (1931),[47] who built on the concepts of Henri Milne-Edwards (1848).[48]

watercolor of a Nudibranch
1852 watercolor of a Nudibranch by Jacques Burkhardt

Order Nudibranchia:

Early revisions

Newer insights derived from morphological data and gene-sequence research seemed to confirm those ideas. On the basis of investigation of 18S rDNA sequence data, strong evidence supports the monophyly of the Nudibranchia and its two major groups, the Anthobranchia/Doridoidea and Cladobranchia.[49] A study published in May 2001, again revised the taxonomy of the Nudibranchia.[50] They were thus divided into two major clades:

However, according to the taxonomy by Bouchet & Rocroi (2005), currently the most up-to-date system of classifying the gastropods, the Nudibranchia are a subclade within the clade of the Nudipleura. The Nudibranchia are then divided into two clades:

Gallery

This gallery shows some of the great variability in the color and form of nudibranchs, and nudibranch egg ribbons.

See also

References

  1. ^ Wägele, H.; Klussmann-Kolb, A. (2005). "Opisthobranchia (Mollusca, Gastropoda) more than just slimy slugs. Shell reduction and its implications on defence and foraging". Frontiers in Zoology. 2 (1): 1–18. doi:10.1186/1742-9994-2-3. PMC 554092. PMID 15715915.
  2. ^ Longman Pronunciation Dictionary (2nd edition), ISBN 0-582-36467-1
  3. ^ Thompson, T. E. (2009). "Feeding in nudibranch larvae" (PDF). Journal of the Marine Biological Association of the United Kingdom. 38 (2): 239–248. doi:10.1017/S0025315400006044. S2CID 86275359.
  4. ^ Turnbull, John (Spring 2016). "The Nudibranch – Creature Feature". Nature New South Wales. 60 (3): 16–17.
  5. ^ Bronson, Wilfrid. Water People, 1935
  6. ^ a b Ocean Portal (2017). A Collage of Nudibranch Colors. Smithsonian National Museum of Natural History. Retrieved 17 April 2018.
  7. ^ a b c Nudibranchs Archived 2013-08-14 at the Wayback Machine, Fishermen Scuba.
  8. ^ Ekimova, I.; T. Korshunova; D. Schepetov; T. Neretina; N. Sanamyan; A. Martynov (2015). "Integrative systematics of northern and Arctic nudibranchs of the genus Dendronotus (Mollusca, Gastropoda), with descriptions of three new species". Zoological Journal of the Linnean Society. 173 (4): e0192177. doi:10.1111/zoj.12214.
  9. ^ Korshunova, T.; K. Lundin; K. Malmberg; B. Picton; A. Martynov (2018). "First true brackish-water nudibranch mollusc provides new insights for phylogeny and biogeography and reveals paedomorphosis-driven evolution". PLOS ONE. 13 (1): e0192177. Bibcode:2018PLoSO..1392177K. doi:10.1371/journal.pone.0192177. PMC 5851531. PMID 29538398.
  10. ^ "Discoveries of deep-sea biomass and biodiversity using an ROV". Monterey Bay Aquarium Research Institute. Archived from the original on 9 October 2013. Retrieved 16 October 2013.
  11. ^ Steinberg, J. E. (1956). "The pelagic nudibranch, Cephalopyge trematoides (Chun, 1889), in New South Wales with a note on other species in this genus". Proceedings of the Linnean Society of New South Wales. 81: 184–192.
  12. ^ G.M. Mapstone & M.N. Arai, Siphonophora (Cnidaria, Hydrozoa) of Canadian Pacific Waters, p.33. "The best documented predators of pelagic cnidarians from the phylum Mollusca are the neustonic nudibranchs and snails [...and] the pelagic nudibranch [...]"
  13. ^ Gosliner TM, Valdes A Behrens DW 2015 Nudibranch and Sea Slug Identification Indo-Pacific New World Publications Jacksonville Florida USA
  14. ^ a b Thompson, T. E. 1976. Biology of opisthobranch molluscs, vol. 1, 207 pp., 21 pls. Ray Society, no. 151.
  15. ^ "Nudibranchs – National Geographic Magazine". Ngm.nationalgeographic.com. 2013-04-25. Retrieved 2013-07-04.
  16. ^ CHASE, RONALD (June 1, 1974). "The Electrophysiology of Photoreceptors in the Nudibranch Mollusc, Tritonia Diomedia". Journal of Experimental Biology. 60 (3): 707–19. doi:10.1242/jeb.60.3.707. PMID 4847278.
  17. ^ "Hexabranchus sanguineus | DORIS". doris.ffessm.fr. Retrieved 2023-04-17.
  18. ^ Dayrat, B. (2005). "Advantages of naming species under the PhyloCode: An example of how a new species of Discodorididae (Mollusca, Gastropoda, Euthyneura, Nudibranchia, Doridina) may be named" (PDF). Marine Biology Research. 1 (3): 216–232. doi:10.1080/17451000510019141. S2CID 53557429. Retrieved 2009-06-14.
  19. ^ Edmunds, M. (1991). "Does warning colouration occur in nudibranchs?". Malacologia. 32: 241–255.
  20. ^ a b Pawlik, JR; et al. (1988). "Defensive chemicals of the Spanish Dancer nudibranch, Hexabranchus sanguineus, and its egg ribbons: Macrolides derived from a sponge diet". Journal of Experimental Marine Biology and Ecology. 119 (2): 99–109. doi:10.1016/0022-0981(88)90225-0.
  21. ^ Ritson-Williams, R.; Paul, VJ (2007). "Marine benthic invertebrates use multimodal cues for defence against reef fish". Marine Ecology Progress Series. 340: 29–39. Bibcode:2007MEPS..340...29R. doi:10.3354/meps340029.
  22. ^ Frick, K (2003). "Predator Suites and Flabellinid Nudibranch Nematocyst Complements in the Gulf of Maine". In: SF Norton (Ed). Diving for Science...2003. Proceedings of the American Academy of Underwater Sciences (22nd Annual Scientific Diving Symposium). Archived from the original on January 29, 2009. Retrieved 2008-07-03.{{cite journal}}: CS1 maint: unfit URL (link)
  23. ^ Karuso, P. (1987). "Chemical Ecology of the Nudibranchs". In Scheuer, PJ (ed.). Bioorganic Marine Chemistry. Vol. 1. Springer-Verlag. pp. 31–60. doi:10.1007/978-3-642-72726-9_2. ISBN 978-3-642-72728-3., a comprehensive review of the chemical ecology of the nudibranchs
  24. ^ Pawlik, JR (2012). Fattorusso, E.; et al. (eds.). Antipredatory defensive roles of natural products from marine invertebrates. Handbook of Marine Natural Products. NY: Springer Science. pp. 677–710.
  25. ^ Gosliner, T. M. (1987). Nudibranchs of Southern Africa. ISBN 978-0-930118-13-6.
  26. ^ a b Avila, C; Iken, K; Fontana, A; Cimino, G (2000-09-05). "Chemical ecology of the Antarctic nudibranch Bathydoris hodgsoni Eliot, 1907: defensive role and origin of its natural products". Journal of Experimental Marine Biology and Ecology. 252 (1): 27–44. doi:10.1016/S0022-0981(00)00227-6. ISSN 0022-0981. PMID 10962063.
  27. ^ Faulkner, D. J.; Ghiselin, M. T. (1983). "Chemical defence and evolutionary ecology of dorid nudibranchs and some other opisthobranch gastropods". Marine Ecology Progress Series. 13: 295–301. Bibcode:1983MEPS...13..295F. doi:10.3354/meps013295.
  28. ^ Barsby, T.; Linington, R. G.; Andersen, R. J. (2002). "De Novo terpenoid biosynthesis by the dendronotid nudibranch Melibe leonina". Chemoecology. 12 (4): 199–202. doi:10.1007/PL00012669. S2CID 35384332.
  29. ^ Edmunds, M. (1968). "Acid secretion in some species of Doridacea (Mollusca, Nudibranchia)". Proceedings of the Malacological Society of London. 38 (2): 121–133. Archived from the original on 2013-04-15.
  30. ^ P.H. Gosse, Evenings at the Microscope, 1884 edition,[1] p57
  31. ^ a b "Nudibranch". Aquaticcommunity.com. Retrieved 2013-07-04.
  32. ^ Klussmann-Kolb A (2001). "The Reproductive Systems of the Nudibranchia (Gastropoda, Opisthobranchia): Comparative Histology and Ultrastructure of the Nidamental Glands with Aspects of Functional Morphology". Zoologischer Anzeiger. 240 (2): 119–136. doi:10.1078/0044-5231-00011.
  33. ^ "Diving with Nudibranchs". Dive the World.
  34. ^ NC Folino (1997). "The role of prey mobility in the population ecology of the nudibranch Cuthona nana (Gastropoda: Opisthobranchia)" (PDF). American Malacological Bulletin. Archived from the original (PDF) on 2012-06-25. Retrieved 2013-03-07.
  35. ^ a b Domínguez, M.; Troncoso, J. S.; García, F. J. (2008). "The family Aeolidiidae Gray, 1827 (Gastropoda Opisthobranchia) from Brazil, with a description of a new species belonging to the genus Berghia Trinchese, 1877". Zoological Journal of the Linnean Society. 153 (2): 349–368. doi:10.1111/j.1096-3642.2008.00390.x.
  36. ^ Rudman, W.B. (1999-03-19). "Favorinus tsuruganus Baba & Abe, 1964. [In] Sea Slug Forum. Australian Museum".
  37. ^ a b Valdés, Á. (2004). "Phylogeography and phyloecology of dorid nudibranchs (Mollusca, Gastropoda)". Biological Journal of the Linnean Society. 83 (4): 551–559. doi:10.1111/j.1095-8312.2004.00413.x.
  38. ^ Barnes, H.; Powell, H. T. (1954). "Onchidoris fusca (Müller); A Predator of Barnacles". Journal of Animal Ecology. 23 (2): 361–363. doi:10.2307/1986. JSTOR 1986.
  39. ^ Piper, Ross (2007), Extraordinary Animals: An Encyclopedia of Curious and Unusual Animals, Greenwood Press.
  40. ^ a b Hans Bertsch, Nudibranchs: Marine slugs with verve. "Navanax inermis[..] is the bane of all nudibranchs, because it is one of the few known predators on this group of slugs. [...] Dorids mainly eat sponges, bryozoans, and tunicates, whereas aeolids principally eat cnidarians."
  41. ^ "Facts About Nudibranchs". Marinelife.about.com. 2011-11-10. Retrieved 2013-07-04.
  42. ^ Dean, Lewis J.; Prinsep, Michèle R. (2017). "The chemistry and chemical ecology of nudibranchs". Natural Product Reports. 34 (12): 1359–1390. doi:10.1039/C7NP00041C. ISSN 0265-0568. PMID 29135002.
  43. ^ Cella, Kristen; Carmona, Leila; Ekimova, Irina; Chichvarkhin, Anton; Schepetov, Dimitry; Gosliner, Terrence M. (2016-12-15). "A Radical Solution: The Phylogeny of the Nudibranch Family Fionidae". PLOS ONE. 11 (12): e0167800. Bibcode:2016PLoSO..1167800C. doi:10.1371/journal.pone.0167800. ISSN 1932-6203. PMC 5158052. PMID 27977703.
  44. ^ Taxonomy of the Gastropoda, Bouchet & Rocroi, 2005
  45. ^ Poppe, Guido T.; Tagaro, Sheila P. (February 23, 2006). "The New Classification of Gastropods according to Bouchet & Rocroi, 2005" (PDF). Visaya. Archived from the original (PDF) on September 27, 2007.
  46. ^ Jörger, K. M.; Stöger, I.; Kano, Y.; et al. (2010). "On the origin of Acochlidia and other enigmatic euthyneuran gastropods, with implications for the systematics of Heterobranchia". BMC Evolutionary Biology. 10: 323. doi:10.1186/1471-2148-10-323. PMC 3087543. PMID 20973994. At the basis of the Euthyneura the Nudipleura split off
  47. ^ Thiele, J. (1931). Handbuch der systematischen Weichtierkunde, II. Verlag von Gustav Fischer, Jena, Germany.
  48. ^ Milne-Edwards H (1848). Note sur la classification naturelle chez Mollusques Gasteropodes. Annales des Sciences Naturelles, series 3, 9: 102-112.
  49. ^ Wägele H. & Willan R. C. (September 2000). "Phylogeny of the Nudibranchia". Zoological Journal of the Linnean Society. 130 (1): 83–181. doi:10.1111/j.1096-3642.2000.tb02196.x.
  50. ^ Schrödl M., Wägele H. & Willan R. C. (2001). "Taxonomic Redescription of the Doridoxidae (Gastropoda: Opisthobranchia), an Enigmatic Family of Deep Water Nudibranchs, with Discussion of Basal Nudibranch Phylogeny". Zoologischer Anzeiger. 240 (1): 83–97. doi:10.1078/0044-5231-00008.
  51. ^ "Family Phyllidiidae". ryanphotographic.com. Retrieved 2023-05-07.
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Nudibranch: Brief Summary

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Nudibranchs (/ˈnjuːdɪbræŋk/) are a group of soft-bodied marine gastropod molluscs that shed their shells after their larval stage. They are noted for their often extraordinary colours and striking forms, and they have been given colourful nicknames to match, such as "clown", "marigold", "splendid", "dancer", "dragon", and "sea rabbit". Currently, about 3,000 valid species of nudibranchs are known.

The word "nudibranch" comes from the Latin nudus "naked" and the Ancient Greek βράγχια (bránkhia) "gills".

Nudibranchs are often casually called sea slugs, as they are a family of opistobranchs (sea slugs), within the phylum Mollusca (molluscs), but many sea slugs belong to several taxonomic groups that are not closely related to nudibranchs. A number of these other sea slugs, such as the photosynthetic Sacoglossa and the colourful Aglajidae, are often confused with nudibranchs.

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Nudbrankuloj ( Esperanto )

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La Nudbrankulojlatine Nudibranchia estas klado de molkorpaj, maraj gastropodaj moluskoj kiuj demetas siajn konkojn post ilia larva stadio.[1] Ili famas pro siaj ofte eksterordinaraj koloroj kaj okulfrapaj formoj. Nuntempe, konatas ĉirkaŭ 2 300 validaj specioj de nudbrankuloj.[2]

La vorto "Nudibranchia" venas de la latina nudus, nuda, kaj la greka βραγχια [branĥia], branko.

Nudbrankuloj ofte ne-fake nomatas "maraj limakoj" (aŭ ekvivalente en aliaj lingvoj, ekzemple angle sea slug, france limace de mer, germane Seeschnecke), sed multaj "maraj limakoj" apartenas al taksonomiaj grupoj kiuj ne proksime parencas al nudbrankuloj. Kelkaj el tiuj aliaj maraj limakoj, kiel ekzemple la fotosintezanta klado sacoglossa kaj la kolorplena familio aglajidae, ofte konfuzatas kun nudbrankuloj.

Taksonoj

Referencoj

Literaturo

  • Helmut Debelius kaj Rudie H. Kuiter:
france Atlas mondial des Nudibranches, Éditions Eugen Ulmer, kolekto «Faune sous-marine»,‎ 2008, 360 p. (ISBN 2841383237),
germane Nacktschnecken der Weltmeere, Kosmos Verlag, 2007, ISBN 978-3-440-11133-8

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Nudbrankuloj: Brief Summary ( Esperanto )

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La Nudbrankuloj aŭ latine Nudibranchia estas klado de molkorpaj, maraj gastropodaj moluskoj kiuj demetas siajn konkojn post ilia larva stadio. Ili famas pro siaj ofte eksterordinaraj koloroj kaj okulfrapaj formoj. Nuntempe, konatas ĉirkaŭ 2 300 validaj specioj de nudbrankuloj.

La vorto "Nudibranchia" venas de la latina nudus, nuda, kaj la greka βραγχια [branĥia], branko.

Nudbrankuloj ofte ne-fake nomatas "maraj limakoj" (aŭ ekvivalente en aliaj lingvoj, ekzemple angle sea slug, france limace de mer, germane Seeschnecke), sed multaj "maraj limakoj" apartenas al taksonomiaj grupoj kiuj ne proksime parencas al nudbrankuloj. Kelkaj el tiuj aliaj maraj limakoj, kiel ekzemple la fotosintezanta klado sacoglossa kaj la kolorplena familio aglajidae, ofte konfuzatas kun nudbrankuloj.

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Nudibranchia ( Spanish; Castilian )

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src=
Puesta de huevos de bailarina española (Hexabranchus sanguineus), conocida así por su colorido, pliegues y movimiento.[2]

Los nudibranquios (Nudibranchia) son un orden de moluscos gasterópodos sin concha, de la infraclase de los opistobranquios, comúnmente llamados babosas de mar. Su nombre científico significa "con las branquias al desnudo". Muestran colores muy variados y llamativos y formas sinuosas.

Características

Se caracterizan por tener el cuerpo no segmentado, con simetría bilateral y una cavidad o celoma en su interior donde se sitúan los órganos, una cabeza diferenciada con órganos sensoriales y un pie musculoso en la parte ventral que sirve de medio de locomoción.

No tienen concha ni opérculo, y su coloración alerta de su gran toxicidad (aposematismo).[cita requerida] Lo que más llama la atención son sus espectaculares coloraciones. Algunas especies tienen el cuerpo transparente y la capacidad para emitir luz. Las especies más grandes pueden alcanzar los 40 cm. Respiran por branquias que tienen distintas formas y se localizan en distintas zonas del cuerpo. Poseen dos órganos sensoriales a modo de cuernos, muy coloreados, situados en la cabeza, denominados rinóforos.

Historia natural

De costumbres bentónicas, la mayoría pasan su vida adulta en el fondo del mar; algunas especies son pelágicas. Pueden vivir prácticamente en todas las profundidades en agua salada, pero consiguen su mayor tamaño en aguas profundas; hay más diversidad en aguas cálidas y poco profundas. Su dieta es carnívora y se alimentan de otros invertebrados y hasta de los huevos de otros nudibranquios; para ello usan una lengua abrasiva llamada rádula . Son animales venenosos y con un eficiente sistema de defensa. Son hermafroditas y se reproducen en los meses de primavera y verano.

Los huevos se agrupan por miles en cintas o ramos, no siempre de los mismos colores. No tienen depredadores,[cita requerida] pero su supervivencia está muy condicionada por la temperatura del agua y las condiciones climatológicas. Algunos son de costumbres diurnas y durante la noche se esconden enterrándose en la arena. No tienen interés gastronómico.

Taxonomía

De acuerdo con la taxonomía de Bouchet & Rocroi (2005),[3]​ en la actualidad el sistema clasificatorio de los moluscos más actualizado, divide a los nudibranquios en dos subordenes, que el Registro Mundial de Especies Marinas, basándose en las últimas investigaciones[4][5]​ subdivide en los siguientes clados:[6]

Suborden Euctenidiacea

Suborden Dexiarchia

Véase también

Referencias

  1. Gofas, S. (2009). Nudibranchia. In: MolluscaBase (2017). Accessed through: World Register of Marine Species at http://marinespecies.org/aphia.php?p=taxdetails&id=1762 Registro Mundial de Especies Marinas. Consultado el 19 de junio de 2017.
  2. National Geographic en español Archivado el 7 de octubre de 2009 en Wayback Machine..
  3. Bouchet P. & Rocroi J.-P. (Ed.); Frýda J., Hausdorf B., Ponder W., Valdés Á. & Warén A. (2005). "Classification and nomenclator of gastropod families". Malacologia, International Journal of Malacology, 47(1-2). ConchBooks: Hackenheim, Germany. ISBN 3-925919-72-4. Issn = 0076-2997. 397 pp. http://www.vliz.be/Vmdcdata/imis2/ref.php?refid=78278
  4. McDonald G. (2009) Bibliographia Nudibranchia. 2nd Online Edition, Annotated. 1072 pp. , disponible en línea en http://escholarship.org/uc/item/8115h0wz (en inglés)
  5. An outline for the classification of Phylum Mollusca in taxonomic databases [reporte elaborado por editores de WoRMS para uso interno, junio 2010] (en inglés)
  6. Gofas, S. (2009). Nudibranchia. In: MolluscaBase (2017). Accessed through: World Register of Marine Species at http://marinespecies.org/aphia.php?p=taxdetails&id=1762 Registro Mundial de Especies Marinas. Consultado el 30 de junio de 2017.

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Nudibranchia: Brief Summary ( Spanish; Castilian )

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src= Puesta de huevos de bailarina española (Hexabranchus sanguineus), conocida así por su colorido, pliegues y movimiento.​ src= Berghia coerulescens. src= Cerberilla ambonensis. src= Tritonia. src= Nembrotha megalocera.

Los nudibranquios (Nudibranchia) son un orden de moluscos gasterópodos sin concha, de la infraclase de los opistobranquios, comúnmente llamados babosas de mar. Su nombre científico significa "con las branquias al desnudo". Muestran colores muy variados y llamativos y formas sinuosas.

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Nudibrankio ( Basque )

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Nudibranchia edo nudibrankioak gorputz biguneko itsas gastropodoen barruko molusku animalia talde bat da, larba egoeratik pasa ondoren euren oskola uzten dutenak. Kolore biziak dituztelako oso ezagunak dira, eta forma oso aldakorrak hartu ohi dituzte. 2.300 bat espezie baliagarri izendatu dira.

Hitza latinetik dator, nudus, biluzik eta grezieratik βραγχια, brankhia, zakatzak.

Nudibrankioak batzuetan itsas-bare izena hartzen dute, baina itsas-bare izena hartzen duten animalia askok ez dute talde taxonomiko bera osatzen, eta ez dute harreman zuzenik. Itsas-bare batzuk, adibidez Sacoglossa fotosintetikoa eta Aglajidae koloretsua talde honen barruan daudenekin nahasten dira, baina talde ezberdinetako kideak dira.

Galeria

Galeria honetan agertzen dira nudibrankioen barruan dauden kolore eta forma anitzak.

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Nudibrankio: Brief Summary ( Basque )

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Nudibranchia edo nudibrankioak gorputz biguneko itsas gastropodoen barruko molusku animalia talde bat da, larba egoeratik pasa ondoren euren oskola uzten dutenak. Kolore biziak dituztelako oso ezagunak dira, eta forma oso aldakorrak hartu ohi dituzte. 2.300 bat espezie baliagarri izendatu dira.

Hitza latinetik dator, nudus, biluzik eta grezieratik βραγχια, brankhia, zakatzak.

Nudibrankioak batzuetan itsas-bare izena hartzen dute, baina itsas-bare izena hartzen duten animalia askok ez dute talde taxonomiko bera osatzen, eta ez dute harreman zuzenik. Itsas-bare batzuk, adibidez Sacoglossa fotosintetikoa eta Aglajidae koloretsua talde honen barruan daudenekin nahasten dira, baina talde ezberdinetako kideak dira.

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Vapaakiduskotilot ( Finnish )

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Vapaakiduskotilot (Nudibranchia) on meressä elävien värikkäiden merietanoiden[1] lahko. Vapaakiduskotilot on suurin takakiduskotiloihin kuuluvista yhdeksästä nilviäislahkosta; niitä tunnetaan yli 3000 lajia. Tieteellinen nimi Nudibranchia tarkoittaa paljaskiduksista (latinan nudus, "paljas", kreikan brankhia, "kidukset*).

Ryhmään kuuluu hyvin erinäköisiä ja kokoisia lajeja. Pienimmät jäävät kaksisenttisiksi, suurimmat kasvavat 40 cm pitkiksi.[2] Niillä ei ole kovaa kalkkikuorta. Monet ovat hyvin värikkäitä, ja niissä on erilaisia hapsuja ja liehuttimia. Joillakin lajeilla kirkas väri varoittaa petoja myrkyllisyydestä, toisilla taas ei. Kotilon etupäässä on tuntosarvipari, jossa on kemiallisen aistin aistinsoluja. Lähellä kotilon takapäätä ovat paljaat, monihaaraiset kidukset.[3] Suunsa luona vapaakiduskotiloilla on raastinkieli eli radula, kitiinilevy, jolla ne raaputtavat itselleen syötävää.[4]

Suomen rannkikkovesissä elää yksi vapaakiduskotiloihin kuuluva laji, liuskamerietana (Tenellia adspersa = Embletonia pallida).[5]

Luokittelu

Vapaakiduskotilot jaettiin aiemmin neljään osalahkoon. Nyttemmin niitä on ryhmitelty uudelleen. Entisillä osalahkoilla on yhteisiä ulkonäköpiirteitä ja samantyyppinen ruokavalio.

Sulkamerietanat (Doridacea)

src=
Chromodoris strigata

Sulkamerietanoiden (Doridacea) osalahkoon kuuluvat useimmat ennen Doridoidea-alalahkoon luokitellut lajit. Niillä on pyöreämuotoinen tai soikea vartalo, ja vaippa, joka roikkuu reunoilta hameenhelmojen lailla. Etuosassa on kaksi poimullista tuntosarvea, joiden hajua ja makua sekä tuntoa aistivien solujen avulla kotilo etsii ruokaa. Peräaukko sijaitsee eläimen selän takaosassa, ja kukkamaiset kidukset ovat useimmiten peräaukon ympärillä. Sienieläimet ovat näiden kotiloiden tyypillistä ravintoa.[6] Useimmat tämän ryhmän kotilot ovat erittäin myrkyllisiä, ja hyvin värikkäitä varoittaakseen mahdollisia petoeläimiä myrkyistään.[7]

Chromodoris-suku on tunnettu värikkyydestään.

Aeolidida

src=
Cerberilla ambonensis - esimerkki Aeolidida-lajista

Aeolidida-osalahkoon kuuluvat useimmat ennen Aeolidoidea-alalahkoon luokitellut lajit. Ne ovat vartalonmuodoltaan pitkulaisia, ja niillä on kolme paria erilaisia tuntosarvia. Niillä ei ole varsinaisia kiduksia, vaan ne ottavat happea ilmeisesti suoraan ihonsa läpi. Ne syövät polttiaiseläimiä kuten koralleja ja merivuokkoja. Ne onnistuvat imaisemaan ravintoeläimensä myrkkykapselit rikkoutumattomina ja suojautumaan niiden avulla. Jotkut lajit saavat ravintoeläimistään myös symbioottisia zooksantelli-leviä, ja elättävät niitä omassa elimistössään.[8] Tämän ryhmän kotiloiden peräaukko on suunnilleen "hartiatasolla" keskiviivan oikealla puolella. Niiden selässä kasvaa cerata-nimellä kutsuttuja hapsuja, joiden tyvessä näkyy kotilon suolen uloke, ja joiden kärki on tyypillisesti valkoinen.[7]

Tämän osalahkon joitakin lajeja pidetään riutta-akvaariossa. Etenkin nimellä Berghia verrucicornis myyty kotilo on tunnettu lasiruusujen tuhoaja.

Dendronotida

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Dendronotus albus

Dendronotida-osalahkoon kuuluvat useimmat ennen Dendronotoidea-alalahkoon luokitellut lajit. Monilla niistä on suunsa edessä pieni liehuke, huntu, ja jotkut lajit käyttävät sitä pienten äyriäisten pyydystämiseen. Muut syövät pehmytkoralleja ja merivuokkoja.[9]

Arminoidea

Tämä alalahko on nyttemmin jaettu useisiin osalahkoihin. Siihen kuului monenlaisia kotiloita, muiden muassa heimot Arminidae, Doriomorphidae, Charcotiidae, Madrellidae, Zephrinidae, Pinufiidae, Dironidae, Goniaeolidae ja Hero. Niiden vartalo on litteä ja pitkulainen, ja vaippa jatkuu huntuna tai roikkuvina helmoina. Kidukset sijaitsevat tämän helman alla. Peräaukko on eläimen etuosassa. Pituus on tyypillisesti 1–7 cm. Tärkeimpiä ravintoeläimiä ovat polttiaiseläimet ja sammaleläimet.[10]

Lähteet

  1. Termillä merietanat viitataan yleensä laajemmin kuorettomiin merikotiloihin, muihinkin kuin Nudibranchia-lahkoon. Joissakin lähteissä termiä on kuitenkin käytetty myös Nudibranchia-lahkon nimenä, ts. vapaakiduskotiloiden synonyyminä (Mikkola, K. (toim.) Maailman eläimet. Selkärangattomat. Tammi, 1989. ISBN 951-30-6534-0.
  2. Miller N (toim.): Nudibranchs 1998-2008. Dive Oz, Australia. Viitattu 13.11.2009. (englanniksi)
  3. Animal Diversity Web
  4. Anatomy Dive Oz
  5. Jouni Leinikki ym.: Aaltojen alla – Itämeren vedenalaisen luonnon opas. Like, 2004. ISBN 952-471-297-0.
  6. Doridoidea Dive-oz
  7. a b Shimek, R.L.: ”Nudibranchs”, Marine Inverterbrates, s. 335-338. Neptune City, NJ, USA: TFH Publications, 2004. ISBN 1-890087-66-1. (englanniksi)
  8. Aeolidoidea Dive-oz
  9. Dendronotoidea Dive Oz
  10. Arminoidea Diveoz

Aiheesta muualla

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Vapaakiduskotilot: Brief Summary ( Finnish )

provided by wikipedia FI

Vapaakiduskotilot (Nudibranchia) on meressä elävien värikkäiden merietanoiden lahko. Vapaakiduskotilot on suurin takakiduskotiloihin kuuluvista yhdeksästä nilviäislahkosta; niitä tunnetaan yli 3000 lajia. Tieteellinen nimi Nudibranchia tarkoittaa paljaskiduksista (latinan nudus, "paljas", kreikan brankhia, "kidukset*).

Ryhmään kuuluu hyvin erinäköisiä ja kokoisia lajeja. Pienimmät jäävät kaksisenttisiksi, suurimmat kasvavat 40 cm pitkiksi. Niillä ei ole kovaa kalkkikuorta. Monet ovat hyvin värikkäitä, ja niissä on erilaisia hapsuja ja liehuttimia. Joillakin lajeilla kirkas väri varoittaa petoja myrkyllisyydestä, toisilla taas ei. Kotilon etupäässä on tuntosarvipari, jossa on kemiallisen aistin aistinsoluja. Lähellä kotilon takapäätä ovat paljaat, monihaaraiset kidukset. Suunsa luona vapaakiduskotiloilla on raastinkieli eli radula, kitiinilevy, jolla ne raaputtavat itselleen syötävää.

Suomen rannkikkovesissä elää yksi vapaakiduskotiloihin kuuluva laji, liuskamerietana (Tenellia adspersa = Embletonia pallida).

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Nudibranchia ( French )

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Nudibranches, Limaces de mer

Les nudibranches (Nudibranchia) forment un ordre de mollusques gastéropodes. Ces animaux marins sont caractérisés par leur absence de coquille — d'où leur appellation fréquente de « limaces de mer » — et leurs branchies nues, origine de leur nom.

Étymologie

Nudibranche vient du latin nudus qui signifie « nu » et du grec ancien brankhia qui signifie « branchies » : l'animal est reconnaissable à ses branchies ou ses papilles non protégées par une coquille[1]. Cependant, chez certains groupes comme les Phyllidiidae ou les Arminoidea, les branchies sont invisibles, dissimulées par le manteau[2].

Description

src=
Détail du corps (ici Berghia stephanieae):
ot = palpes pour « palper » le terrain,
ft = angles antérieurs du pied,
e = œil,
r = rhinophores : organe de l'« odorat »,
c = papilles qui servent de branchies,
cn = cnidosac (en)

Les nudibranches forment un groupe de « limaces de mer », c’est-à-dire de gastéropodes marins dépourvus de coquille. Celles-ci ne sont pas la version marine des limaces terrestres : elles forment le groupe particulier des Opisthobranches, caractérisé notamment par la position des branchies en arrière du cœur (le mot grec « opisthos » signifie postérieur). Ce groupe contient cinq ordres principaux (Cephalaspidea, Sacoglossa, Anaspidea, Notaspidea et Nudibranchia), le dernier regroupant le plus grand nombre d’espèces[2].

Sur le dos, l'animal peut porter soit un panache branchial (panache constitué de feuillets branchiaux formant une couronne autour de l'anus chez les doridiens), soit des excroissances tégumentaires, les papilles ou cérates (aéolidiens), qui servent de branchies et dans lesquelles se trouvent les prolongements de la glande digestive. La tête de l'animal est pourvue de différents tentacules suivant les groupes, dans la majorité des cas deux paires, qui ont chacun leur rôle. Une paire sert à « palper » le terrain et l'autre paire sert de « nez », ce sont les rhinophores. Ces organes sensoriels servent surtout à la recherche d'un partenaire. Les rhinophores peuvent être lisses, annelés, lamellés ou enflés (bulbeux) et ils possèdent un ganglion à leurs bases[1]. Les rhinophores sont le meilleur moyen d'identifier à coup sûr un nudibranche - même s'ils ont régressé chez quelques espèces, ou peuvent être rétractiles - notamment pour les distinguer des groupes ressemblants comme les aglajides, aplysies, pleurobranches, placobranches et planaires[1].

Les yeux des nudibranches sont rudimentaires et situés en profondeur, proches des ganglions cérébroïdes, voire collés à eux et ne servent qu'à détecter les variations de lumière les plus grossières[1].

Les nudibranches sont répertoriés en quatre morphotypes[1] :

  • les doridiens (Doridina) : le corps est aplati, avec généralement un panache branchial situé à l'arrière du manteau et entourant souvent l'anus.
  • les éolidiens (Aeolidiina) : le dos du mollusque est porteur de papilles plus ou moins nombreuses (les « cérates »), qui servent de branchies, de prolongements de la glande digestive et de glandes à poison pour la défense (présence de cnidosacs qui stockent les cellules urticantes des Hydraires).
  • les dendronotacées (Dendronotina) : les appendices branchiaux se trouvent à la périphérie du manteau.
  • les arminacées (Arminina) : la surface du manteau est ridée (avec ou sans appendices dorsaux), les rhinophores rétractiles et les branchies se trouvent sous le manteau dans sa partie antérieure.

Très diversifiés et très colorés[1], ces animaux jouissent d’une grande popularité chez les photographes sous-marins, notamment les adeptes de la photo macro.

Écologie et comportement

Sens

Les nudibranches sont pourvus d'yeux minuscules et rudimentaires, situés à la base des rhinophores, inclus dans l'épiderme (alors que ceux de nombreux autres gastéropodes sont pédonculés et parfois complexes)[3]. Leur vision semble principalement limitée à la distinction entre le jour et la nuit, ou entre l'ombre et la lumière[4].

Les principaux organes sensoriels des nudibranches sont leurs rhinophores, qui détectent les particules chimiques présentes dans l'eau, notamment la nourriture, les phéromones d'un éventuel partenaire sexuel, ou la présence de certaines menaces[4]. Ils peuvent être lisses, mais le plus souvent annelés, lamellés ou enflés, ce qui permet de maximiser la surface d'échange et donc le nombre de récepteurs en contact avec l'eau[5].

Les tentacules oraux et propodiaux sont très innervés et permettent un toucher précis pour manipuler la nourriture avant de l'amener à la bouche[4].

Alimentation

src=
Un nudibranche de l'espèce Polycera capensis se nourrissant sur quelques ectoproctes.
src=
En Méditerranée, l'espèce Cratena peregrina se nourrit principalement d'hydraires.

La majorité des nudibranches sont carnivores, et se nourrissent en râpant la nourriture située sous eux au moyen de mâchoires parfois très puissantes et de leur radula, lamelle cartilagineuse sur laquelle se trouvent des « dents », de nombre et de formes très variables, voire absentes[1]. De nombreux types d'organismes sont consommés par ces mollusques. Leur nourriture est souvent très spécifique (avec des préférences selon les groupes[6]), constituée principalement d’animaux fixes comme des éponges, des bryozoaires, des ascidies et des hydraires, autant d'animaux souvent toxiques dont de nombreuses espèces arrivent à recycler les toxines dans des cellules spécialisées pour se protéger de leurs propres prédateurs (notamment les espèces du groupe des éolidiens, qui les stockent dans leurs cérates)[1].

Certains nudibranches consomment donc exclusivement des éponges, comme le font par exemple les espèces du genre Aegires ; d'autres consomment des ectoproctes, comme le font les espèces de la famille des Polyceridae (Tambja, Limacia, Plocamopherus et Triopha, par exemple)[6],[7]. Les cirripèdes sont les proies de nudibranches tels Onchidoris ; les anthozoaires (coraux et anémones) entrent au menu de certains éolidiens ; d'autres genres, comme Tambja, Nembrotha, Polycera ou Thecacera, se nourrissent de tuniciers[8]. Les deux espèces de la famille des Calmidae, Calma glaucoides et C. gobioophaga, se nourrissent uniquement d'œufs, principalement de pontes de poissons (notamment Parablennius, Gobius, Lepadogaster), mais aussi d'œufs de céphalopodes[6],[9].

Les hydrozoaires figurent parmi les proies préférentielles des éolidiens, qui abondent lorsque leurs proies pullulent également[10]. Certains de ces nudibranches, comme Glaucus atlanticus, stockent les nématocystes urticants de leurs proies pour leur propre défense[11]. Certains nudibranches, comme ceux des genres Favorinus ou Roboastra, mangent d'autres nudibranches ou leurs œufs ; d'autres se livrent au cannibalisme[8],[12]. Certaines espèces sont omnivores : l'étude de contenus stomacaux de deux nudibranches de l'Antarctique, Prodoris clavigera et Bathydoris hodgsoni, a par exemple révélé la consommation d'éponges, de plusieurs sortes d'échinodermes (épines d'oursins, ophiures et crinoïdes), d'octocoralliaires (gorgones du genre Keratoisis notamment), de foraminifères, d'ectoproctes et de crustacés[13]. Ces nudibranches peuvent aussi ingérer de petites pierres ou de la boue en broutant le substrat de leurs proies[13].

Reproduction

Les nudibranches sont hermaphrodites, ils sont porteurs d'un système génital mâle et d'un système génital femelle, mais ne peuvent pas s'auto-féconder. Lors de la reproduction, les deux individus mettent donc en contact leur organe génital pour se transmettre mutuellement des gamètes mâles, en vue de féconder leurs gamètes femelles situés dans une poche particulière, dans un échange parfaitement symétrique. En l'absence de partenaire il peut y avoir parthénogenèse, c'est-à-dire un développement des œufs sans accouplement, et ainsi naissance de clones.

La ponte se présente généralement comme un ruban enroulé constitué de petites perles colorées[1].

L'espèce Goniobranchus tinctorius a la particularité de se séparer de son pénis après avoir copulé pour s'en faire pousser un nouveau en 24h[14].

Défense

src=
Cette Phyllidia carlsonhoffi signale sa toxicité par des couleurs vives.

La différence de pression sur le corps, entraine systématiquement une réaction de protection : contraction du corps, rétraction des branchies, mise « en hérisson » des papilles, sécrétions de substances toxiques, acide ou autres[1]. Les couleurs souvent très voyantes de nombreux nudibranches sont dites « aposématiques » : elles servent de signal de défense contre les prédateurs (comme les poissons) pour les prévenir de la toxicité de ces limaces de mer capables de stocker les spicules et le venin toxique des éponges, ou les cellules urticantes des Hydraires dont elles se nourrissent[15].

Chez les éolidiens, ce sont les cérates dorsales qui accumulent les toxines présentes chez les animaux dont ils se nourrissent. Leur toxicité dépend donc de leur alimentation, et peut être importante[1].

D'autres espèces préfèrent passer inaperçues : elles ont une robe mimétique de leur environnement, et ne se déplacent que la nuit. Certaines espèces peuvent aussi nager quelques mètres en cas d'agression par un animal benthique.

Enfin quelques nudibranches ont de remarquables capacités de régénération et sont capables de pratiquer l'autotomie c'est-à-dire une auto-amputation d'une partie du corps qui se régénérera par la suite[1].

Locomotion

src=
Glaucus atlanticus, un des rares nudibranches vivant en pleine eau, près de la surface.

Les nudibranches sont souvent benthiques, vivants sur le fond, mais quelques rares espèces (comme Glaucus atlanticus[16]) sont pélagiques : celles-ci vivent en pleine eau ou en surface, et dérivent avec les courants ou les vents.

Les nudibranches sont des animaux très lents, ce qui justifie d'autant plus leur appellation de « limaces de mer ». Ils se déplacent en général par reptation sur leur pied musculeux qui sécrète un mucus collant, mais dans certains cas, lors d'une agression ou d'un danger, ils peuvent s'échapper par de brusques contractions (saccades) de tout le corps, et quelques-unes peuvent nager quelques mètres par ondulation du corps, comme la « danseuse espagnole » Hexabranchus sanguineus.

Du fait de leur mode de déplacement lent, les nudibranches vivent principalement sur leurs proies (éponges, hydraires, gorgones…) ou à proximité immédiate de celles-ci. La « mère » pond généralement ses œufs à même la nourriture qu'elle destine à sa progéniture.

Habitat et répartition

On trouve des nudibranches dans toutes les mers et à toutes les profondeurs, même si la plupart des espèces sont limitées à la zone euphotique[1], et que le pic de diversité est atteint dans les régions tropicales, notamment coralliennes.

Classification

Place au sein des gastéropodes

Phylogénie partielle des
Heterobranchia selon Bouchet & Rocroi (2005)[17] :

Les nudibranches sont classiquement placés parmi les Opisthobranchia, une infra-classe du principal groupe des gastéropodes, les Heterobranchia. Les opisthobranches regroupent les « limaces de mer » classiques, et sont classés par Bouchet & Rocroi (2005) aux côtés des Pulmonata, comprenant la majorité des limaces et escargots terrestres, et d'« hétérobranches inférieurs »[17]. Au sein de ce groupe, les Nudibranchia sont rapprochés des Pleurobranchomorpha (ou Pleurobranchoidea) dans le clade des Nudipleura[18],[17]. Ce rapprochement a été acté en 2000 avec la création des Nudipleura, mais confirmait des hypothèses antérieures de Luise Schmekel (1985) ou de Luitfried von Salvini-Plawen & Gerhard Steiner (1996)[19].

La monophylie du groupe des opisthobranches est remise en question par divers auteurs depuis la fin des années 1980[19]. En 2010 Jörger et al. publient le résultat d'analyses moléculaires utilisant quatre marqueurs génétiques : deux nucléaires, les sous-unités d'ARN ribosomique 18S et 28S, et deux mitochondriaux, l'ARNr 16S et la sous-unité I de la cytochrome c oxydase. Ces auteurs rapprochent des taxons comme les Sacoglossa et les Acochlidiacea des Pulmonata, les ressemblances morphologiques avec les limaces de mer classiques n'étant que des convergences évolutives. Les Nudipleura — dont les nudibranches — sont identifiés comme des plus basaux parmi les Heterobranchia[20].

Phylogénie partielle des
Heterobranchia selon Jörger et al. (2010)[20] :

On compte environ 5 000 espèces de nudibranches à l'échelle mondiale[21].

Composition du groupe

Les nudibranches sont classiquement divisés en deux groupes, aisément distinguables par leur morphologie :

  • les « éolidiens », pourvus de papilles dorsales, couvrant typiquement la surface dorsale, et respirant essentiellement par la peau ;
  • les « doridiens », disposant de branchies ramifiées autour de l'anus, arrangées en panache.

Wägele et Willian réalisent en 2000 une première phylogénie des nudibranches, et distinguent deux clades reflétant cette séparation des éolidiens et doridiens[18] :

Dans leur taxinomie générale des mollusques publiée en 2005, Bouchet et Rocroi conservent plus ou moins ce découpage, avec des noms différents. Ils distinguent deux sous-ordres[17] :

Depuis 2020, les nudibranches sont divisés entre Cladobranchia (éolidiens et apparentés) et Doridina (doridiens et apparentés)[22].

Classification actuelle selon World Register of Marine Species, prenant pour base la taxinomie de Bouchet & Rocroi (2005)[22] :

Ancienne classification

Galerie

Autres groupes de « limaces de mer » communes n'appartenant pas au clade des nudibranches

Les images ci-après présentent des animaux rampants dépourvus de coquille apparente, mais ne font pas partie du groupe des nudibranches (voir section « description »)[1].

Annexes

Références taxinomiques

Notes et références
  1. a b c d e f g h i j k l m et n « Les nudibranches », sur blog.cpi-plongee.fr.
  2. a et b Philibert Bidgrain, « Les limaces de mer », sur VieOcéane, 2007.
  3. (en) Bill Rudman, « Do nudibranchs have eyes? », sur www.seaslugforum.net, 10 mai 2000.
  4. a b et c (en) Jessica Goodheart, « Sea Slug Senses », sur No Bones (Smithsonian Institute), 24 avril 2016.
  5. (en) Bill Rudman, « Rhinophore in nudibranchs », sur seaslugforum.net, 25 mars 1999.
  6. a b et c (en) Gary R. McDonald et James W. Nybakken, A List of the Worldwide Food Habits of Nudibranchs, 1996 (lire en ligne)
  7. (en) M. Domínguez, J.S. Troncoso et F.J. García, « The family Aeolidiidae Gray, 1827 (Gastropoda Opisthobranchia) from Brazil, with a description of a new species belonging to the genus Berghia Trinchese, 1877 », Zoological Journal of the Linnean Society, vol. 153, no 2,‎ 2008, p. 349–368 (DOI )
  8. a et b (en) Á. Valdés, « Phylogeography and phyloecology of dorid nudibranchs (Mollusca, Gastropoda) », Biological Journal of the Linnean Society, vol. 83, no 4,‎ 2004, p. 551–559 (DOI )
  9. (en) Gonçalo Calado et Victoriano Urgorri, « A new species of Calma Alder & Hancock, 1855 (Gastropoda: Nudibranchia) with a review of the genus », Journal of Molluscan Studies, vol. 68,‎ 2002, p. 311-317 (lire en ligne)
  10. (en) Nadine C. Folino, « The role of prey mobility in the population ecology of the nudibranch Cuthona nana (Gastropoda: Opisthobranchia) », American Malacological Bulletin,‎ 1997 (lire en ligne)
  11. (en) Thomas E. Thompson et Isobel Bennett, « Observations on Australian Glaucidae (Mollusca:Opisthobranchia) », Zoological Journal of the Linnean Society, vol. 49, no 3,‎ août 1970, p. 187–197 (DOI )
  12. (en) William B. Rudman, « Favorinus tsuruganus Baba & Abe, 1964 », Sea Slug Forum. Australian Museum, 1999
  13. a et b (en) Heike Wägele, « Diet of some Antarctic nudibranchs (Gastropoda, Opisthobranchia, Nudibranchia) », Marine Biology, vol. 100, no 4,‎ mars 1989, p. 439-441
  14. (en) A. Sekizawa, S. Seki, M. Tokuzato, S. Shiga et Y. Nakashima, « Disposable penis and its replenishment in a simultaneous hermaphrodite », Biology Letters, vol. 9, no 2,‎ 23 avril 2013, p. 20121150-20121150 (DOI )
  15. LAMARE Véronique, ROCHEFORT Gaël, in : DORIS, 28/12/2014 : Pearsonothuria graeffei (Semper, 1868)
  16. (en) Amelia MacLellan, « Glaucus atlanticus (blue sea slug) », sur Natural History Museum de Londres (consulté le 19 juillet 2011) : « The animals float upside down at the surface of the sea, keeping afloat by swallowing air which is stored in their stomachs. »
  17. a b c et d (en) Philippe Bouchet, Jean-Pierre Rocroi, Jiri Frýda, Bernhard Hausdorf, Winston Ponder, Ángel Valdés et Anders Warén, « Classification and nomenclator of gastropod families », Malacologia: International Journal of Malacology, Hackenheim, ConchBooks, vol. 47, nos 1-2,‎ 2005, p. 1–397 (ISBN 3925919724, ISSN , lire en ligne)
  18. a et b (en) Heike Wägele et R.C. Willan, « Phylogeny of the Nudibranchia », Zoological Journal of the Linnean Society, vol. 1, no 1,‎ septembre 2000, p. 83–181 (DOI )
  19. a et b (en) Heike Wägele, Annette Klussmann-Kolb, Verena Vonnemann et Monica Medina, « Heterobranchia I - The Opisthobranchia », dans Winston F. Ponder et David R. Lindberg, Phylogeny and Evolution of the Mollusca, University of California Press, 2008, 469 p. (ISBN 978-0-520-25092-5), p. 385-408
  20. a et b (en) Katharina M. Jörger, Isabella Stöger, Yasunori Kano, Hiroshi Fukuda, Thomas Knebelsberger et Michael Schrödl, « On the origin of Acochlidia and other enigmatic euthyneuran gastropods, with implications for the systematics of Heterobranchia », BMC Evolutionary Biology, vol. 10,‎ 2010, p. 323 (PMID , PMCID , DOI , lire en ligne)
  21. World Register of Marine Species
  22. a et b World Register of Marine Species, consulté le 14 février 2020

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Nudibranchia: Brief Summary ( French )

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Nudibranches, Limaces de mer

Les nudibranches (Nudibranchia) forment un ordre de mollusques gastéropodes. Ces animaux marins sont caractérisés par leur absence de coquille — d'où leur appellation fréquente de « limaces de mer » — et leurs branchies nues, origine de leur nom.

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Nudibranchia ( Indonesian )

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Nudibranchia adalah kelompok siput air terbesar dari ordo Opisthobranchia. Anggotanya lebih dari 3.000 spesies.

Deskripsi

src=
Nudibranch umumnya menyimpan telur mereka dalam motif spiral.

Hewan ini memiliki badan yang lunak. Bentuk dewasanya tidak memiliki cangkang atau operculum.

Kata nudibranchia berasal dari gabungan kata bahasa Latin nudus yang berarti telanjang, dan kata bahasa Yunani brankhia yang berarti insang. Kelompok ini memang memiliki insang yang dapat dilihat dengan mata karena tidak tersembunyi di dalam tubuh. Dalam bahasa Indonesia, hewan ini dikenal dengan nama kelinci laut atau "sea rabbit".

Nudibranchia memiliki kepala bertentakel, yang sangat sensitif terhadap sentuhan, rasa, dan bau. Seperti siput darat, ia memiliki rhinophora berbentuk seperti pentungan dan berperan untuk mendeteksi bau.

Semua anggotanya hermafrodit, tetapi jarang melakukan pembuahan sendiri.

Nudibranchia karnivora. Beberapa memangsa spons, yang lain Hydroida, atau Bryozoa, dan beberapa kanibal, memakan siput air lainnya, dan pada situasi tertentu, bahkan anggota spesies mereka sendiri.

Bentuk tubuh bervariasi. Ukuran berkisar antara 40 hingga 600 mm.

Mereka terdapat di seluruh dunia pada semua kedalaman, tetapi mereka mencapai ukuran terbesar dan bervariasi pada perairan hangat dan dangkal.

Di antara mereka, dapat ditemukan makhluk paling berwarna-warni di bumi. Karena siput air, karena evolusi, telah kehilangan cangkang mereka, mereka perlu mencari cara melindungi diri: yaitu kamuflase, melalui warna yang membuat mereka tidak kelihatan atau menakuti predator karena mereka rasanya tidak enak atau beracun.

Taksonomi

src=
"Nudibranchia", dari Ernst Haeckel's Artforms of Nature, 1904.

Taksonomi Nudibranchia masih berevolusi.

Referensi

  • H. Wägele and R. C. Willan (September 2000). "Phylogeny of the Nudibranchia". Zoological Journal of the Linnean Society. 1 (1): 83–181.

Pranala luar

Gambar

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Nudibranchia: Brief Summary ( Indonesian )

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Nudibranchia adalah kelompok siput air terbesar dari ordo Opisthobranchia. Anggotanya lebih dari 3.000 spesies.

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Bertálkni ( Icelandic )

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Bertálkni (eða nakintálkni) er heiti snigla sem er undirættbálkur Nudibranchia. Bertálkni er án kuðungs og hefur óeiginleg tálkn á bakinu.

src= Þessi líffræðigrein er stubbur. Þú getur hjálpað til með því að bæta við greinina.
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Nudibranchia ( Italian )

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I nudibranchi (Nudibranchia Cuvier, 1817) sono un ordine di molluschi gasteropodi della sottoclasse Heterobranchia, che comprende più di 7000 specie.[1]

Etimologia

La parola nudibranchia viene dal latino nudus (nudo) e dalla parola greca brankhia (branchia), e significa con le branchie nude. Il termine "lumache di mare" è spesso riferito ai nudibranchi, sebbene non tutte le lumache di mare appartengano allo stesso gruppo tassonomico dei nudibranchi. Ad esempio le lumache della famiglia Aglajidae sono spesso confuse con i nudibranchi per il loro aspetto vistoso ed i colori sgargianti.

Descrizione

I nudibranchi sono dotati di corpo morbido e flessibile. La forma adulta non ha conchiglia, che viene persa durante il primissimo periodo vitale, alla fine della vita planctonica, né dispongono quindi di opercoli[2].

Le forme e i colori possono variare enormemente, le dimensioni variano da 1 a 60 centimetri. Tra i nudibranchi si possono trovare le creature più colorate sulla Terra.

Hanno dei chemiorecettori sulla nuca, detti rinofori, usati come organi sensoriali. Talvolta presentano cerati sul corpo, piccole protuberanze del sistema digerente utilizzate anche per la respirazione.

L'adattamento evolutivo dei nudibranchi ha portato ad un'enorme varietà di forme e colori, sia a scopo mimetico che difensivo.

Biologia

Riproduzione

src=
Deposizione delle uova spiraliforme.
src=
Deposizione delle uova a nastro.

Sono animali ermafroditi, ma non possono autofecondarsi[3][4].

La riproduzione avviene per via sessuata interna, tramite copula. Tipicamente depongono le uova in spirali gelatinose o in velature nastriformi, spesso in prossimità o sopra le loro prede alimentari. Lo sviluppo dell'individuo avviene nell'uovo, che viene abbandonato dalla forma larvale, chiamata veliger e dotata di ciglia, che pratica una breve vita planctonica per poi perdere la conchiglia ed iniziare la vita bentonica.

Alimentazione

Sono animali carnivori; alcuni si nutrono di spugne, di idrozoi, di briozoi, altri sono cannibali[5][6], nutrendosi di altri opistobranchi o di nudibranchi anche della stessa specie. Altri ancora si nutrono di tunicati, crostacei o anche di pesci morti.

Meccanismi di difesa

Per via della perdita della conchiglia esterna hanno dovuto sviluppare[2], tramite l'evoluzione, altri sistemi di protezione: in particolare il camuffamento attraverso colori che li rendano invisibili, come ad esempio Phyllodesmium longicirra o Melibe mirifica, o tramite colorazioni che li identifichino come non commestibili o velenosi (aposematismo), come Hypselodoris infucata.

Altri ancora, in particolare i nudibranchi del sottordine degli Aeolidacea, utilizzano le cellule urticanti delle loro prede per la difesa, dopo averle immagazzinate nei cerata dell'apparato digerente[2]. Un altro sistema di difesa, non molto diffuso ma rivoluzionario[2], è la produzione cutanea di sostanze tossiche per i possibili predatori. Alcune specie dei Dorididae, ad esempio, producono acido solforico, utilizzato anche da Hexabranchus sanguineus per la difesa delle ovature.

Distribuzione e habitat

Si possono incontrare in tutti i mari del pianeta, dall'Artico, ai mari temperati e tropicali, fino all'oceano Antartico[7][8]. Sebbene vivano normalmente in acque salate, alcune specie sono note sopravvivere in acque salmastre[9].

I nudibranchi possono sopravvivere virtualmente a tutte le profondità, dalla zona intertidale fino a profondità superiori ai 700 metri. La maggior parte delle specie vive in acque calde e poco profonde, sebbene siano state trovate specie anche ad una profondità di 2500 metri[10]. Sono animali bentonici, che si spostano sul fondale marino. Fanno eccezione i nudibranchi appartenenti al genere Glaucus, i quali galleggiano subito al di sotto della superficie marina, i nudibranchi pelagici Cephalopyge trematoides, i quali nuotano in colonne d'acqua[11][12], e Phylliroe bucephalum[13].

Tassonomia

Magnifying glass icon mgx2.svgLo stesso argomento in dettaglio: Indice sistematico dei Nudibranchia.

Nella classificazione di Ponder e Lindbergh (1997)[14] i nudibranchi venivano considerati come un sottordine dell'ordine Opistobranchia, che veniva suddiviso in due infraordini e 8 superfamiglie:

Nella classificazione cladistica di Bouchet & Rocroi nel 2005 il clade Nudibranchia veniva suddiviso in base al seguente cladogramma:[15]

Nudibranchia  

Euctenidiacea

Dexiarchia

Pseudoeuctenidiacea

Cladobranchia

Euarminida

   

Dendronotida

   

Aeolidida

       

Nel 2017 gli stessi autori hanno proposto una radicale revisione della loro classificazione reintroducendo i tradizionali ranghi linneani al posto di cladi [16]. Tale nuova classificazione assegna ai Nudibranchi il rango di ordine, suddiviso in due sottordini: Cladobranchia e Doridina. Tale impostazione è quella attualmente seguita dal World Register of Marine Species (WoRMS)[1]. A questa classificazione si attiene Wikipedia in italiano.

Acquariofilia

I Nudibranchi sono molto amati dagli acquariofili ma in vasca, se non cibati correttamente, muoiono entro poco tempo.

Alcune specie tendono ad adattarsi molto bene in quanto sono polifaghe, altre ancora compaiono con il loro cibo sulle rocce vive. Le monofaghe sono quasi impossibili da allevare.

Bibliografia

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Nudibranchia: Brief Summary ( Italian )

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I nudibranchi (Nudibranchia Cuvier, 1817) sono un ordine di molluschi gasteropodi della sottoclasse Heterobranchia, che comprende più di 7000 specie.

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Kailžaungliemeži ( Latvian )

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Kailžaungliemeži (Nudibranchia)[1] ir jūras gliemju klada, kuras pārstāvji pēc kāpura attīstības stadijas nomet čaulu. Tie ir vieni no skaistākajiem bezmugurkaulniekiem pasaulē, kurus bieži rotā visneparastākie un visneiedomājamākie krāsu salikumi. Zināmas vairāk nekā 3000 kailžaungliemežu sugas, un nepārtraukti tiek atklāti jauni šīs kladas pārstāvji.[2]

Kailžaungliemju žaunas, t.s. sekundārās žaunas, ir atklātas un atrodas daudzajos izaugumos uz gliemežu muguras.

Nosaukums

Vārds nudubranchia ir saliktenis, kas sastāv no latīņu nudus ("kails") un grieķu βραyχια ("žaunas").[3]

Angliski izdotajā literatūrā Nudibranchia pārstāvjus dēvēja arī par "jūras gliemjiem" (sea slugs), uzskatot abus nosaukumus par savstarpēji aizstājamiem. Taču, lai arī visi kailžaungliemeži ir jūras gliemji, ne visi jūras gliemji ir kailžaungliemeži. Un Nudibranchia ir tikai daļa no vienas gliemežu klases pamatkladas Heterobranchia, kurai pieder arī liels skaits citu jūrās mītošu gliemežu, ieskaitot tādus, kurus klāj čaulas.[3]

Izskats

src=
Kailžaungliemežu attēli Ernsta Haeckela grāmatā Kunstformen der Natur ("Mākslas veidojumi dabā", 1904)

Kailžaungliemežu izmēri un formas ir atšķirīgas. Lielāko pārstāvju garums pārsniedz 30 cm, kamēr mazākie nav garāki par 6 mm.[2] Tie ir vieni no košākajiem un krāšņākajiem okeānu iemītniekiem, kurus rotā spilgts krāsojums un sarežģīti raksti. Daudzi līdzinās skaistiem jūras ziediem. Citiem lielais skaits muguras izaugumu atgādina spalvas.

Visiem pieaugušiem kailžaungliemežiem iztrūkst jebkāda veida čaula. Dažu mīkstos ķermeņus cietina kaļķa daļiņas, kas aizvieto skeletu. Uz galvas novietoti divi vai vairāku pāru taustekļi, ar kuru palīdzību tie veic taustes, garšas un smaržas funkcijas. Daļai sugu žaunas veido deviņu vai vairāk spalvveidīgu formu vainags ap izvadatveri, citām — muguras izaugumi.

Pārtiek no medūzām vai polipiem, bieži pārņem to dedzinošās šūnas. Tās no gremošanas orgāniem pārvietojas pa ķermeni un paliek muguras izaugumos, veidojot efektīvu aizsardzības sistēmu.[3]

Kailžaungliemežiem ir atšķirīgs mutes aparāts. Daudzas sugas nograuž barību ar zobainu, ragveida mēli jeb radulu, kas darbojas līdzīgi rīvei. Savukārt citi ar žiletveidīgiem žokļiem tikai apgrauž sava upura mīksto ķermeni.

Izplatība un uzbūve

Sastopami visos pasaules okeānos.

Mitinās dažādu dziļumu sālsūdeņos, no plūdmaiņu zonas līdz vairāk nekā 700 m dziļumam. Jaunas kailžauņgliemju sugas ir atklātas 2500 m dziļumā.[4] Vislielākā sugu daudzveidība ir seklos ūdeņos, tā sauktajos kontinentālajos šelfos.

Dzīvesveids

Būdami vēderkāju klases pārstāvji, daudzi kailžaungliemeži pārvietojas uz vienas muskuļotas kājas, lienot pa zemūdens klintīm starp aļģu audzēm. Citas sugas var ātri peldēt, jo tām ir muskuļotas spuras ķermeņa sānos. Daži Glaucus ģints kailžaungliemeži paliek ūdens virspusē un dreifē ar galvu lejup.

Barība

Visi kailžaungliemeži ir plēsēji. Lai arī tie gausi mēdz mieloties ar aļģēm, pamatbarību veido sūkļi, hidrozoji, jūras anemones, koraļļi, tunikāti, sprogkāji, kā arī citi kailžaungliemeži. Dažkārt tie tika raksturoti kā strikti aļģu ēdāji. Tāpēc akvārijos kailžaungliemeži kļūdainās informācijas dēļ bieži ātri gāja bojā, jo akvāristi pilnībā nesaprata, kā tos pareizi turēt.[2][3]

Daži kailgliemeži ēd koraļļus, kuriem uz ķermeņa ir mikroskopiski matiņi. Šie matiņi no ūdens un ogļskābās gāzes gaismas iedarbībā veido barības vielas. Apēstais korallis daļēji tiek transportēts uz izaugumiem, kas atrodas uz gliemeža muguras, un mikroskopiskie matiņi turpina dzīvot. Kad gliemezis uz sēkļa saules gaismā izpleš savu muguru, matiņi nepārstāj veidot barības vielas — tā gliemezis iegūst būtisku daļu barības.

Vairošanās

Izņemot galvkājus, lielākā daļa gliemju ir hermafrodīti jeb divdzimumu dzīvnieki. Tomēr, lai apaugļotos, tiem nepieciešama sveša sperma.

Daudzas kailžaungliemežu sugas vasarā pulcējas uz sēkļiem, kur visi izlaiž spermu un dēj oliņas. Šie gliemji izdēj milzīgu daudzumu oliņu — reizēm pat trīssimts tūkstošus vienā reizē. No apaaugļotajām oliņām izšķiļas neizteiksmīgas krāsas kāpuri (veligeri). Katram kāpuram ir divas krokas, ko klāj liels daudzums izaugumu, tāpēc ūdenī tas spēj pārvietoties, izmantojot jūras straumes, — kā planktons.

Pēs dažām nedēļām no kāpura ķermeņa pazūd abas krokas, un viņš nogrimst jūras dibenā. Tur tas pakāpeniski pārveidojas par pieauguša gliemeža kopiju.

Sistemātika

src=
Dorīdi elpo ar zarveida vai spalvveida izaugumu, kas atrodas pie izvadatveres. Chromodoris willani
src=
Aeolīdi elpo ar daudziem izaugumiem, kas atrodas muguras virsdaļā. Hermissenda crassicornis
Kailžaungliemežus bieži izdala dorīdos un aeolīdos

Parasti izdala divu veidu kailžaungliemežus — "dorīdos" un "aeolīdos"[5]

  • Dorīdiem (kladas Anthobranchia, Doridacea vai Doridoedea) ir sazarotas spalvveidīgas formas sekundārās žaunas, kas novietotas ķermeņa aizmugurējā daļā ap izvadatveri.
  • Aeolīdiem (klada Cladobranchia) muguru klāj izaugumi jeb ceratas, kas veic dažādas funkcijas, ieskaitot elpošanu, gremošanu un aizsardzību. Ceratas būt visdažādākās formas — pavedienveida, spalvveida, zarveida, ķekarveida, čemurveida, nūjveida.

Agrākais iedalījums

Sākotnēji kailžaungliemeži veidoja Nudibranchia kārtu, kuru izdalīja dorīdu un aeolīdu apakškārtās:

Saskaņā ar 2001. gadā[6][7] veikto iepriekšējās klasifikācijas revīziju, klada Nudibranchia tika iedalīta divās lielās kladās:

Mūsdienu iedalījums

src=
Flabellina iodinea no Dexiarchia kladas
src=
Goniobranchus geminus no Doridacea kladas

Taču pēc jaunākās, 2005. gada klasifikācijas,[8] Nudubranchia līdztekus kladai Pleurobranchomorpha pieder pie kladas Nudipleura.

Savukārt Nunubranchia tālāk iedalās divās kladās Euctenidiacea un Dexiarchia, katra no kurām sastāv no vairākām kladām un virsdzimtām:

Galerija

Atsauces

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Kailžaungliemeži: Brief Summary ( Latvian )

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Kailžaungliemeži (Nudibranchia) ir jūras gliemju klada, kuras pārstāvji pēc kāpura attīstības stadijas nomet čaulu. Tie ir vieni no skaistākajiem bezmugurkaulniekiem pasaulē, kurus bieži rotā visneparastākie un visneiedomājamākie krāsu salikumi. Zināmas vairāk nekā 3000 kailžaungliemežu sugas, un nepārtraukti tiek atklāti jauni šīs kladas pārstāvji.

Kailžaungliemju žaunas, t.s. sekundārās žaunas, ir atklātas un atrodas daudzajos izaugumos uz gliemežu muguras.

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Nudibranchia ( Dutch; Flemish )

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Nudibranchia of zeenaaktslakken vormen een orde van in zee levende slakken (Gastropoda). Anders dan de huisjesslakken bezitten ze geen schelp. Niet alle in zee levende naaktslakken behoren echter tot de Nudibranchia.

Kenmerken

Zeenaaktslakken komen in allerlei kleuren en vormen voor, waarbij zowel de kleur als de vorm een waarschuwingsfunctie of een camouflagefunctie heeft. De lichaamsgrootte kan variëren tussen enkele centimeters tot exemplaren die meer dan 1.5 kg kunnen wegen. Zeenaaktslakken stammen af van voorouders met een schelp. In hun huid zijn vaak kalknaalden ingebed. Het lichaam bestaat uit een ingewandszak, een mantel en een (soms langgerekte) voet. Op de kop bevinden zich twee paar tentakels. Met een van de paar tentakels, rinoforen genoemd, kunnen zij geurdeeltjes chemisch analyseren. De rinoforen hebben vaak een prominente wormachtige vorm, en kunnen allerlei kleine uitsteeksels of lamellen dragen. Zij kunnen bij gevaar ook worden teruggetrokken. Aan de achterzijde bevinden zich een soort huidplooien, of kieuwen (pseudobranchia). Soms hebben deze de vorm van vingervormige uitwassen rond de anus. Op de flanken van sommige soorten treft men ten slotte trossen van tentakels aan met een defensieve functie, die cerata worden genoemd. De afscheiding van hun huidklieren kan soms een branderig gevoel of blaren op de huid van vijanden veroorzaken. Zeenaaktslakken zijn meestal carnivoor en voeden zich met andere zeedieren.

Taxonomie

De volgende taxa zijn bij de orde ingedeeld:

Afbeeldingen

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Nudibranchia of zeenaaktslakken vormen een orde van in zee levende slakken (Gastropoda). Anders dan de huisjesslakken bezitten ze geen schelp. Niet alle in zee levende naaktslakken behoren echter tot de Nudibranchia.

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Nakensnegler ( Norwegian )

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Nakensnegler eller nakengjellesnegler er en gruppe marine snegler. Mange arter har vakre og sterke farger. Størrelsen varierer fra 4 mm til 600 mm. Nakensneglene er rovsnegler. De beiter mellom annet på hydroider, mosdyr, lærkoraller og svamper. I Norge er det registrert 85 arter, bl.a. Goniaeolis typica.

Tradisjonelt blir de marine nakensneglene gruppert som en orden.

Eksterne lenker

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Nakensnegler: Brief Summary ( Norwegian )

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Nakensnegler eller nakengjellesnegler er en gruppe marine snegler. Mange arter har vakre og sterke farger. Størrelsen varierer fra 4 mm til 600 mm. Nakensneglene er rovsnegler. De beiter mellom annet på hydroider, mosdyr, lærkoraller og svamper. I Norge er det registrert 85 arter, bl.a. Goniaeolis typica.

Tradisjonelt blir de marine nakensneglene gruppert som en orden.

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Nagoskrzelne ( Polish )

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Ilustracja
Berghia coerulescens Systematyka Królestwo zwierzęta Typ mięczaki Gromada ślimaki Podgromada Heterobranchia Nadrząd Nudipleura
src=
Nagoskrzelne (Nembrotha kubaryana) jedzą clavelina kolonii osłonic. Spożywają one również kłujące komórki meduz.
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Nagoskrzelny ślimak w czarne plamki z północy Haiti
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Chromodoris willani
Cieśnina Lembeh, Indonezja

Ślimaki nagoskrzelne to szeroko rozpowszechniony rząd ślimaków morskich, należący do podgromady tyłoskrzelnych. Są to pozbawione muszli ślimaki, słynące ze wspaniałych kolorów. Istnieje ponad 3000 znanych gatunków.

Biologia

Postaci ciała nagoskrzelnych różnią się znacznie. Są to opisthobranchia, klad, który zrzuca muszle po stadium larwalnym.

W przeciwieństwie do większości innych ślimaków są obustronnie symetryczne. Zostały poddane wtórnemu skręcaniu. Większość gatunków ma u boku jadowite przydatki. Są one wykorzystywane do odstraszania drapieżników. Wiele z nich ma proste jelita i usta z tarką.

Nietypowo jak na mięczaki brakuje im wnęki na płaszcz. Ślimaki nagoskrzelne są hermafrodytami, a zatem mają zestaw narządów rozrodczych obojga płci, ale rzadko są w stanie zapłodnić się samodzielnie.

Większość ślimaków nagoskrzelnych jest mięsożerna. Niektóre żywią się gąbkami, inne polipami, inne mszywiołami, a niektóre jedzą inne ślimaki morskie, lub, w niektórych przypadkach, członków własnego gatunku. Inne grupy żywią się osłonkami, pąklami lub ukwiałami.

Nagoskrzelny zamieszkujący powierzchnię, Glaucus atlanticus, jest wyspecjalizowanym drapieżnikiem meduz, takim jak żeglarz portugalski. Drapieżny mięczak zasysa powietrze do żołądka, aby utrzymać się na powierzchni i przy użyciu swojej muskularnej stopy przylega do powierzchniowej błony. Jeśli znajdzie małą ofiarę, Glaucus po prostu otacza ją swymi wielkimi ustami, ale jeśli ofiara jest większa, mięczak odgryza macki, które zawierają najsilniejsze parzydełka. Podobnie jak wiele podobnych, Glaucus nie trawi parzydełek; zamiast tego używa ich, by się obronić, przepuszczając je z jelit do powierzchni jego skóry[1].

Kolory i obrona

src=
Flabellina pedata , ślimak nagoskrzelny z Timoru Wschodniego

Wśród tej grupy można znaleźć najbardziej kolorowe stworzenia na ziemi. W trakcie ewolucji ślimaki morskie straciły swoją skorupę i rozwinęły inne mechanizmy obronne. Ich anatomia może przypominać fakturę i kolor otaczających roślin, nadając im kamuflaż (crypsis). Wiele z nich ma intensywną i jasną kolorystykę, służącą jakozabarwienie ostrzegawcze.

Ślimaki nagoskrzelne, które żywią się stułbiopławami mogą przechowywać ich parzydełka w grzbietowej ścianie ciała[2]. Parzydełka wędrują przez przewód pokarmowy, nie uszkadzając ślimaka nagoskrzelnego. Następnie komórki są przenoszone w określone miejsca na tylnym ciele stwora. Nie jest jeszcze jasne, w jaki sposób ślimaki mogą chronić się przed parzydełkami, ale specjalne komórki z dużymi wakuolami prawdopodobnie odgrywają ważną rolę. Mogą również przejmować chloroplasty roślin i wykorzystywać je do przygotowywania żywności dla siebie.

Inną metodą ochrony jest uwalnianie śluzu ze skóry. Gdy okaz zostanie fizycznie podrażniony lub dotknięty przez inne stworzenie, automatycznie uwolni śluz.

Taksonomia

Taksonomia Nudibranchia jest nadal tematem badań. Obecnie nudibranchia dzieli się na dwie główne kategorie, dorid i aeolid/eolid : [3][4][5]

Przypisy

src=
"Oszroniony" ślimak nagoskrzelny Dirona albolineata
  1. Piper, Ross 2007. Extraordinary animals: an encyclopedia of curious and unusual animals. Greenwood Press.
  2. Frick K. 2003. Predator suites and Flabellinid Nudibranch nematocyst complements in the Gulf of Maine. In: SF Norton (ed). Diving for Science. Proceedings of the American Academy of Underwater Sciences, 22nd Annual Scientific Diving Symposium. url=http://archive.rubicon-foundation.org/4744
  3. Hans Bertsch, Nudibranchs: Marine slugs with verve. Navanax inermis[..] is the bane of all nudibranchs, because it is one of the few known predators on this group of slugs. [...] Dorids mainly eat sponges, bryozoans and tunicates, whereas eolids principally eat cnidarians.
  4. What You Don't Know About Nudibranch Sea Slugs, marinelife.about.com [dostęp 2019-01-19] .
  5. http://marinelife.about.com/od/invertebrates/tp/Facts-About-Nudibranchs.htm
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Nagoskrzelne: Brief Summary ( Polish )

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src= Nagoskrzelne (Nembrotha kubaryana) jedzą clavelina kolonii osłonic. Spożywają one również kłujące komórki meduz. src= Nagoskrzelny ślimak w czarne plamki z północy Haiti src= Chromodoris willani
Cieśnina Lembeh, Indonezja

Ślimaki nagoskrzelne to szeroko rozpowszechniony rząd ślimaków morskich, należący do podgromady tyłoskrzelnych. Są to pozbawione muszli ślimaki, słynące ze wspaniałych kolorów. Istnieje ponad 3000 znanych gatunków.

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Nudibranchia ( Portuguese )

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src=
Lesma do mar Nembrotha kubaryana.
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Os nudibrânquios constituem uma subordem de moluscos gastrópodes marinhos pertencente à ordem dos opistobrânquios, na qual se encontram, por exemplo, as lesmas-do-mar.[1]

Estes animais possuem as brânquias desprotegidas, fato que legitima seu nome. Sua variedade é enorme e chega a atingir 3000 espécies diferentes. Uma característica destes animais é a riqueza da paleta de cores que cobre o seu corpo e que lhes permite uma camuflagem eficaz nos recifes de coral que constituem o seu habitat.

Algumas espécies comem anêmonas e aproveitam os seus arpões urticantes integralmente transferindo-os funcionais para o seu próprio corpo. O mais interessante é que algumas espécies, por não conseguirem nadar com muita velocidade para fugir de predadores, secretam ácido sulfúrico para se protegerem.

Referências

  1. «Incríveis lesmas marinhas são animais mais coloridos do mar». Consultado em 25 de janeiro de 2011. Arquivado do original em 2 de outubro de 2009

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Nudibranchia: Brief Summary ( Portuguese )

provided by wikipedia PT
src= Lesma do mar Nembrotha kubaryana. src= Lesma do mar Diaphorodoris olakhalafi.

Os nudibrânquios constituem uma subordem de moluscos gastrópodes marinhos pertencente à ordem dos opistobrânquios, na qual se encontram, por exemplo, as lesmas-do-mar.

Estes animais possuem as brânquias desprotegidas, fato que legitima seu nome. Sua variedade é enorme e chega a atingir 3000 espécies diferentes. Uma característica destes animais é a riqueza da paleta de cores que cobre o seu corpo e que lhes permite uma camuflagem eficaz nos recifes de coral que constituem o seu habitat.

Algumas espécies comem anêmonas e aproveitam os seus arpões urticantes integralmente transferindo-os funcionais para o seu próprio corpo. O mais interessante é que algumas espécies, por não conseguirem nadar com muita velocidade para fugir de predadores, secretam ácido sulfúrico para se protegerem.

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Nakensnäckor ( Swedish )

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Nakensnäckor (Nudibranchia) är en systematisk grupp bland de bakgälade snäckorna (Opisthobranchia) som i sin tur tillhör underklassen Orthogastropoda. De listas beroende på systematik som ordning eller underordning. I gruppen finns omkring 3 000 kända arter som alla lever i havet.

Beskrivning

Dessa snäckor saknar som alla bakgälade snäckor både skal och fot. De andas genom huden, eller genom särskilda organ på ryggen som liknar gälar. För att försvara sig mot fiender har de nässelceller.

Storleken varierar mellan 4 mm och 60 cm. De förekommer i alla hav och är mycket färgglada. De flesta arter lever i varma havsområden i grunda regioner. Ofta finns ett par antenner på huvudet och flera mask- eller fjäderformiga bihang vid kroppen. Ögonen är täckta av hud, och det antas att dessa snäckor bara kan skilja mellan ljus och mörker. Alla nakensnäckor är hermafroditer, men saknar förmåga att befrukta sig själva.

Dessa snäckor livnär sig av andra blötdjur, svampdjur, koralldjur och mossdjur. I vissa fall är de specialiserade på en enskild art eller typ av byte, som till exempel violsnäckan, som uteslutande äter hydrozoer. En del nakensnäckor äter andra arter av nakensnäcka, och hos vissa arter förekommer kannibalism. Vissa arter är specialiserade på att livnära sig på manteldjur.

Utbredning

Totalt finns omkring 3 000 kända arter nakensnäckor. De lever alla i havet. Av nakensnäckor förekommer 90 arter i svenska vatten.[1]

Bildgalleri

  • Ett urval av nakensnäckor
  • src=

    Aegires gardineri

  • src=

    Chromodoris coi

  • src=

    Glaucus atlanticus, violsnäcka

  • src=

    Pteraeolidia ianthina

  • src=

    Thecacera spec.

  • src=

    Diaphorodoris olakhalafi

Referenser

Den här artikeln är helt eller delvis baserad på material från tyskspråkiga Wikipedia, 16 augusti 2009.
  • Baensch/Patzner: Mergus Meerwasser-Atlas Bände 2, 4 + 5, Mergus-Verlag, Melle
  • S. A. Fosså, & A. J. Nilsen: Korallenriff-Aquarium, Band 5, Birgit Schmettkamp Verlag, Bornheim, ISBN 3-86659-014-8
  • KORALLE, Meerwasseraquaristik-Fachmagazin, Nr. 26 april/maj 2007, Natur und Tier Verlag Münster, ISSN 1439-779X
  • Behrens, David W.. Paul Humann och Ned DeLoach. red (på engelska). Nudibranch Behavior. Jacksonville, Florida: New World Publications. ISBN 1-878348-41-8

Noter

  1. ^ P4 Göteborg/Kossornas planet (2015-08-08): "Nakensnäckor ser ut som roliga godisar!". sverigesradio.se. Läst 8 augusti 2015.

Externa länkar

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Nakensnäckor: Brief Summary ( Swedish )

provided by wikipedia SV

Nakensnäckor (Nudibranchia) är en systematisk grupp bland de bakgälade snäckorna (Opisthobranchia) som i sin tur tillhör underklassen Orthogastropoda. De listas beroende på systematik som ordning eller underordning. I gruppen finns omkring 3 000 kända arter som alla lever i havet.

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Голозяброві ( Ukrainian )

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Голожаберные ( Russian )

provided by wikipedia русскую Википедию
Царство: Животные
Подцарство: Эуметазои
Без ранга: Первичноротые
Надтип: Спиральные
Класс: Брюхоногие
Подкласс: Heterobranchia
Надотряд: Nudipleura
Отряд: Голожаберные
Международное научное название

Nudibranchia Cuvier, 1817

Синонимы
  • Nudibranchiata
  • Gymnobranhiata
  • Gymnobranhia
Wikispecies-logo.svg
Систематика
на ВикивидахCommons-logo.svg
Изображения
на Викискладе ITIS 78156NCBI 70849EOL 2538FW 61455

Голожаберные[1] (лат. Nudibranchia) — отряд морских брюхоногих моллюсков из подкласса Heterobranchia[2]. К особенностям строения относятся отсутствие как раковины, так и выраженной мантии[3]. Их вторичные кожные жабры представляют собой мягкие незащищённые выросты покровов различной формы и располагаются по бокам или на спинной стороне тела; У некоторых видов жабры вовсе отсутствуют. Населяют преимущественно тёплые моря и океаны. Некоторые виды ядовиты и имеют яркую окраску[4]. Все голожаберные моллюски — гермафродиты. Очень разборчивы в питании.

Классификация

На июль 2018 года в отряд включают следующие подотряды и надсемейства[2]:

См. также

Примечания

  1. Голожаберные // Гермафродит — Григорьев. — М. : Большая российская энциклопедия, 2007. — С. 353. — (Большая российская энциклопедия : [в 35 т.] / гл. ред. Ю. С. Осипов ; 2004—2017, т. 7). — ISBN 978-5-85270-337-8.
  2. 1 2 Nudibranchia (англ.) в базе данных MolluscaBase. (Проверено 8 августа 2018).
  3. Голожаберные // Энциклопедический словарь Брокгауза и Ефрона : в 86 т. (82 т. и 4 доп.). — СПб., 1890—1907.
  4. Красота обитателей подводного мира — голожаберные моллюски


Наутилус Это заготовка статьи по малакологии. Вы можете помочь проекту, дополнив её.
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Голожаберные: Brief Summary ( Russian )

provided by wikipedia русскую Википедию

Голожаберные (лат. Nudibranchia) — отряд морских брюхоногих моллюсков из подкласса Heterobranchia. К особенностям строения относятся отсутствие как раковины, так и выраженной мантии. Их вторичные кожные жабры представляют собой мягкие незащищённые выросты покровов различной формы и располагаются по бокам или на спинной стороне тела; У некоторых видов жабры вовсе отсутствуют. Населяют преимущественно тёплые моря и океаны. Некоторые виды ядовиты и имеют яркую окраску. Все голожаберные моллюски — гермафродиты. Очень разборчивы в питании.

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裸鰓類 ( Chinese )

provided by wikipedia 中文维基百科

裸鰓目(學名:Nudibranchia/ˈnjdbræŋk/[1])是原來裸鰓亞目下的軟體動物。牠們身體柔軟、沒有外殼及棲於水中,其顏色非常鮮艷。裸鰓類原是後鰓目之下的一個亞目級分類,2005年《布歇特和洛克羅伊的腹足類分類》將裸鰓亞目改為異鰓類支序之下的不分等支序[2],但到了2017年《布歇特等人的腹足類分類》又再改為目級分類單元[3]

裸鰓類有時會被簡單的稱為海蛞蝓,但海蛞蝓卻包含了多類不同及相距很遠的動物。一些海蛞蝓也像裸鰓類般色彩鮮艷,很容易造成混淆。

雖然同為腹足綱軟體動物,但一般的貝類分類學圖鑑都不包括裸鰓類物種[4][5]

分佈及棲息地

裸鰓類分佈在全球的海洋。牠們可以在鹹水環境生活,但在溫暖及淺水區可以生長到最大的體型。

特徵

裸鰓類的身體形態可以有很大不同,但都是兩側對稱的。牠們沒有外套腔。成年的裸鰓類長2-60厘米,沒有外殼或蓋。

裸鰓類的眼睛構造簡單,只能分辨光與暗[6]。 眼睛直徑長四分之一毫米,只有晶體及五個光感受體[7]。 牠們是以背部突出的鰓羽來呼吸,而不是用鰓的。牠們的頭觸角對觸覺味覺嗅覺很敏感,而棒狀的嗅角則用來偵測氣味。

生活習性

src=
正在交配Nembrotha rutilans

繁殖

裸鰓類是雌雄同體的,擁有兩性的生殖器官,但很少會自行受精。牠們一般會將其排在一條膠質螺旋管道中[8]。 通常是几只甚至十几只裸鰓類联体、成串地交合: 最前的第一个的雌性器与第二个的雄性器官交合, 而第二个的雌性器官又与第三个的雄性器官交合, 如此一个挨着一个与一前后不同的性器官交合。 它们交合常常持续数小时,甚至数天之久。

攝食

大部份裸鰓類都是肉食性的:有些會吃海綿動物,有些會吃水螅綱,另外有些會吃外肛動物,一些甚至是同類相食或吃同種的。其他食物包括尾索動物藤壺海葵

src=
紫色變翼海蛞蝓鰓中的蟲黃藻會不斷進行光合作用來供應養份。

水螅綱的裸鰓類(例如:紅扇羽鰓)會將刺絲胞儲存在背部的角突[9]。 刺絲胞會經過裸鰓類的消化道而對其沒有傷害。裸鰓類會以腸臟膨隆來將刺絲胞置放在下身的特別位置。故此中螅綱及其刺絲胞並不會對裸鰓類造成傷害。已知裸鰓類的一種有著很大的液胞的特別細胞,在過程中有著重要的角色,但並不知道怎樣。牠們也會吃植物葉綠素,利用它們來製造食物。

顏色及偽裝

裸鰓類是地球上最富色彩的生物。牠們沒有殼,且發展了另一種保護機制。牠們可以變成周邊環境的顏色及質地,偽裝後避開掠食者。其他的如霓虹海兔般,有著非常鮮艷的顏色,警告敵人牠們的毒性。牠們另一種保護自己的方法是在皮膚上分泌硫酸

分類

裸鰓類原為後鰓亞綱之下九個目之一[10],但現時的分類已有所改變。以下為現時其下的分類:

2005年分類

2017年分類

根據2017年12月出版的《布歇特等人的腹足類分類》,裸鰓類從原來的不分等支序改為目級分類單元,依然是裸側類支序的成員,而裸側類亦升為總目級分類單元;但在這次的分類修訂中,裸側類不再是直接隸屬直神經類,而是與露齒螺總目共同組成Ringipleura Subterclass這個新成立的分類單元[3][13]。裸鰓類依然分為枝鰓亞目海牛亞目兩個亞目[3][14]

參考文獻

  1. ^ Longman Pronunciation Dictionary (2nd edition), ISBN 0-582-36467-1
  2. ^ Frýda, J.; Hausdorf, B.; Ponder, W.; Valdés, Á.; Warén, A. Bouchet P.; Rocroi J.-P., 编. Classification and nomenclator of gastropod families. Malacologia: International Journal of Malacology (Hackenheim, Germany / Ann Arbor, USA: ConchBooks). 2005, 47 (1-2): 397 pp. ISBN 3-925919-72-4. ISSN 0076-2997.
  3. ^ 3.0 3.1 3.2 Bouchet, P.; Rocroi, J.P.; Hausdorf, B.; Kaim , A.; Kano , Y.; Nützel , A.; Parkhaev, P.; Schrödl, M.; Strong , E.E. Revised classification, nomenclator and typification of gastropod and monoplacophoran families. Malacologia. 2017, 61 (1-2): 1–526. doi:10.4002/040.061.0201 (英语).
  4. ^ 賴景陽. 台灣貝類圖鑑. 貓頭鷹出版社. 2005-10. ISBN 986-7415-58-2 (中文(繁體)‎).
  5. ^ 彼得·當斯(S. Peter Dance). 自然珍藏系列《貝殼圖鑑》 第二版. 貓頭鷹出版社. 2008年 (中文(繁體)‎).
  6. ^ National Geographic Magazine. Nudibranchs. 2008-06 [2009-03-06].
  7. ^ Chase, Ronald. The Electrophysiology of Photoreceptors in the Nudibranch Mollusc, Tritonia Diomedia. Journal of experimental biology. 1974, 60: 707–719 (英语).
  8. ^ Klussmann-Kolb A. The Reproductive Systems of the Nudibranchia (Gastropoda, Opisthobranchia): Comparative Histology and Ultrastructure of the Nidamental Glands with Aspects of Functional Morphology. Zoologischer Anzeiger. 2001, 240 (2): 119–136. doi:10.1078/0044-5231-00011.
  9. ^ Frick, K. SF Norton, 编. Predator Suites and Flabellinid Nudibranch Nematocyst Complements in the Gulf of Maine.. Diving for Science. 2003,. Proceedings of the American Academy of Underwater Sciences (22nd Annual Scientific Diving Symposium) [2008-07-03].
  10. ^ 引用错误:没有为名为shelldoc_000161的参考文献提供内容
  11. ^ 11.0 11.1 尤仲杰; 林光宇 (動物學家). 中国近海枝鳃亚目、蓑海牛亚目(软体动物)区系的研究. Marine Sciences. 2005-04-06, 29 (8): 23–26 [2016-12-30] (中文(简体)‎).
  12. ^ 12.0 12.1 12.2 香港後鰓類動物 Opisthobranch Molluscs of Hong Kong. 香港的海洋生物 Marine Life in Hong Kong. : 4 [2018-05-15] (中文(繁體)‎及英语).
  13. ^ WoRMS. Ringipleura. World Register of Marine Species. [2018-04-18].
  14. ^ WoRMS. Nudibranchia. World Register of Marine Species.
  15. ^ WoRMS. Doridoidei. World Register of Marine Species. [2018-05-02].
  16. ^ WoRMS. Phyllidioidea Rafinesque, 1814. World Register of Marine Species. [2018-05-16].
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裸鰓類: Brief Summary ( Chinese )

provided by wikipedia 中文维基百科

裸鰓目(學名:Nudibranchia;/ˈnjuːdᵻbræŋk/)是原來裸鰓亞目下的軟體動物。牠們身體柔軟、沒有外殼及棲於水中,其顏色非常鮮艷。裸鰓類原是後鰓目之下的一個亞目級分類,2005年《布歇特和洛克羅伊的腹足類分類》將裸鰓亞目改為異鰓類支序之下的不分等支序,但到了2017年《布歇特等人的腹足類分類》又再改為目級分類單元

裸鰓類有時會被簡單的稱為海蛞蝓,但海蛞蝓卻包含了多類不同及相距很遠的動物。一些海蛞蝓也像裸鰓類般色彩鮮艷,很容易造成混淆。

雖然同為腹足綱軟體動物,但一般的貝類分類學圖鑑都不包括裸鰓類物種。

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裸鰓類 ( Japanese )

provided by wikipedia 日本語
裸鰓類 Spanish shawl.JPG
Flabellina iodinea
分類 : 動物界 Animalia : 軟体動物門 Mollusca : 腹足綱 Gastropoda 亜綱 : 直腹足亜綱 Orthogastropoda 下綱 : Apogastropoda 上目 : 異鰓上目 Heterobranchia : 裸鰓目 Nudibranchia 学名 Nudibranchia Blainville, 1814 英名 Nudibranch 亜目
  • Anthobranchia
  • Cladobranchia

裸鰓類(らさいるい)は、軟体動物門腹足綱巻貝の仲間)直腹足亜綱異鰓上目に属する分類群である。階級裸鰓目、希に裸鰓亜目を当てる。後鰓類のうち貝殻がないもの、すなわちいわゆるウミウシに属する。

伝統的分類では、腹足綱後鰓亜綱裸鰓目とされていた。近年は異鰓上目の1目とするが、希に、後鰓目裸鰓亜目とすることがある。

かつてはドーリス目とも言った。これはドーリス属 Doris に代表させた呼び名だが、現在では分類階級が流動的なせいで意味が曖昧になることもあり、あまり使われない。

特徴[編集]

[icon]
この節の加筆が望まれています。

系統[編集]

裸鰓類は大きく AnthobranchiaCladobranchia の2つの系統に分かれる。

ミトコンドリアDNAの解析によると、裸鰓類は単系統でなく、側鰓類 Pleurobranchomorpha(背楯類の一部だったが、現在は独立したグループとすることが多い)が AnthobranchiaCladobranchia のいずれかと姉妹群であるという結果が出ていた[1]。しかし核遺伝子の解析によると裸鰓類は単系統という結果が出ている。[2][3]

また、裸鰓類と側鰓類の全体をヌディプレウラ Nudipleura と呼ぶ。


ヌディプレウラ 裸鰓類

Anthobranchia



Cladobranchia




側鰓類(カメノコフシエラガイ科)




Architechtibranchia(オオシイノミガイ上科)



分類[編集]

裸鰓類の分類はきわめて流動的である。

新しい分類の例 (腹足類の分類より)[編集]

Bouchet, P. & Rocroi, J.-P., 2005. より。

新しい分類の例 (wikispeciesより)[編集]

wikispeciesより。Grandea et al. 2004[4]と思われる。科を細かく分けている点に注意。

伝統的な分類の例[編集]

  • 裸鰓目(ドーリス目) Nudibranchia
    • ドーリス亜目 Doridina
      • ネコジタウミウシ科
      • ラメリウミウシ科
      • フジタウミウシ科
      • キヌハダウミウシ科
      • センヒメウミウシ科
      • オカダウミウシ科
      • ミカドウミウシ科
      • アマクサウミウシ科
      • ドーリス科
      • イロウミウシ科
      • クロシタナシウミウシ科
      • イボウミウシ科
    • スギノハウミウシ亜目
      • ホクヨウウミウシ科
      • ユビウミウシ科
      • マリアニナ科
      • スギノハウミウシ科
      • マツカサウミウシ科
      • オキウミウシ科
      • メリベウミウシ科
      • ハンコッキア科
      • コノハウミウシ科
      • ロマノータス科
    • タテジマウミウシ亜目
      • タテジマウミウシ科
      • ドリドモルファ科
      • ショウジョウウミウシ科
      • コヤナギウミウシ科
      • アケボノウミウシ科
      • ピヌフィウス科
    • ミノウミウシ亜目
      • サキシマミノウミウシ科
      • ホリミノウミウシ科
      • オオミノウミウシ科
      • アオミノウミウシ科
      • ヨツマタミノウミウシ科
      • オショロミノウミウシ科
      • ヒダミノウミウシ科

出典[編集]

  1. ^ Grande, Cristina; et al. (2004), “Molecular Phylogeny of Euthyneura (Mollusca: Gastropoda)”, Mol. Biol. Evol. 21 (2): 303-313, http://mbe.oxfordjournals.org/cgi/content/full/21/2/303
  2. ^ Vonnemann, Verena; et al. (2005), “Reconstruction of the phylogeny of the Opisthobranchia (Mollusca: Gastropoda) by means of 18s and 28s rRNA gene sequences”, Journal of Molluscan Studies 71: 113-125, doi:10.1093/mollus/eyi014, http://mollus.oxfordjournals.org/cgi/content/abstract/71/2/113?maxtoshow=&HITS=10&hits=10&RESULTFORMAT=&fulltext=Gymnosomata&searchid=1134298245194_3&stored_search=&FIRSTINDEX=0&journalcode=mollus
  3. ^ Klussmann-Kolb, Annette; et al. (2008), “From sea to land and beyond – New insights into the evolution of euthyneuran Gastropoda (Mollusca)”, BMC Evolutionary Biology: 57, doi:10.1186/1471-2148-8-57, http://www.biomedcentral.com/1471-2148/8/57
  4. ^ Cristina Grandea, Josè Templadoa, J. Lucas Cerverab and Rafael Zardoya (2004). “Phylogenetic relationships among Opisthobranchia (Mollusca: Gastropoda) based on mitochondrial cox 1, trnV, and rrnL genes”. Molecular Phylogenetics and Evolution 33 (2): 378–388. doi:10.1016/j.ympev.2004.06.008. http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6WNH-4D2WMC3-2&_user=10&_coverDate=11%2F01%2F2004&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=8d8d0d6571bfce984ca4c209669ba07c.
title=
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裸鰓類: Brief Summary ( Japanese )

provided by wikipedia 日本語

裸鰓類(らさいるい)は、軟体動物門腹足綱巻貝の仲間)直腹足亜綱異鰓上目に属する分類群である。階級は裸鰓目、希に裸鰓亜目を当てる。後鰓類のうち貝殻がないもの、すなわちいわゆるウミウシに属する。

伝統的分類では、腹足綱後鰓亜綱裸鰓目とされていた。近年は異鰓上目の1目とするが、希に、後鰓目裸鰓亜目とすることがある。

かつてはドーリス目とも言った。これはドーリス属 Doris に代表させた呼び名だが、現在では分類階級が流動的なせいで意味が曖昧になることもあり、あまり使われない。

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갯민숭달팽이 ( Korean )

provided by wikipedia 한국어 위키백과

갯민숭달팽이 혹은 나새류(nudibranchs, sea rabbit)는 화려하고 밝은 색상의 해양 복족류이다.

해조류와 해저찌꺼기를 섭취하며 자세포를 갖추고 악취를 풍겨 포식자들에게서 꺼려진다.

주로 "바다청소기", "광대", "금잔화", "춤추는 사람", "용"과 같은 다채로운 별명을 가지고 있다. 전 세계 바다 곳곳에 분포되어 있으며, 현재 3,000마리의 종이 유효한 것으로 알려져 있다. 대부분 피부에 독을 가지고 있지만 만져도 영향이 없을 정도이다.[1]

학명(nudibranchia)은 라틴어 '벌거벗은'이란 뜻을 가진 'nudus'와 그리스어로 '아가미'란 뜻을 가진 'brankhia'에서 왔다.

한국에는 전 연안의 조하대에 주로 분포한다.

바다민달팽이라고 불리기도 하지만, 그에 속하는 어떤 동물들은 갯민숭달팽이와 밀접한 관련은 없는 분류학적 그룹에 속한다.

분포 및 서식지

갯민숭달팽이는 북극에서 온대 및 열대 지역에 이르기까지 전 세계의 바다에서 남극 주변의 남극해에 이르기까지 분포한다. 일부 종은 낮은 염도의 기수에서 서식하는 것으로 알려져 있지만 소금물로 서식지가 제한된다.조간대에서 700m가 훨씬 넘는 깊이까지 서식한다. 2500m 근처에서 한 종이 발견이 되긴 했지만, 아직 미등재종이다.

저서동물로 기질 위로 기어 다니는 것으로 발견되는데, 파란갯민숭달팽이는 해수면 바로 아래에 거꾸로 떠 다니며 독성이 강한 편이다.[2] 수층을 오가며 헤엄치는 Cephalopyge trematoidesPhylliroe bucephalum도 있다.

방어 메커니즘

진화 과정에서 갯민숭달팽이는 껍데기를 잃는 대신 다른 방어 메커니즘을 개발했다.

일부 종은 포식자(위장)를 피하기 위해 주변의 고착성 무척추 동물 (종종 먹이 스폰지 또는 부드러운 산호)을 모방한 질감과 색상으로 외부 해부학을 진화 시켰습니다. 다른 누디 브랜치는 크로모도리드에서 특히 잘 볼 수있는 강렬하게 밝고 대조되는 색상 패턴을 가지고 있어 주변 환경에서 특히 두드러집니다. 갯민숭달팽이는 해양 생태계에서 연체 동물의 가장 일반적으로 인용되는 경계색의 예이다. 그러나 이것에 대한 증거는 논쟁의 여지가 있는데, 대부분 종들 사이에서 의태하는 예가 거의 보이지 않기 때문이다.

많은 종은 야행성이거나 비밀스럽고 스펙트럼의 붉은 색 끝에서 밝은 색은 수심의 기능으로 빠르게 감쇠됩니다.

예를 들어, 가장 큰 열대 해양 민달팽이 중 가장 큰 스페인 무용수 누디 브랜치 ( Hexabranchus 속 )는 화학적으로 강력하게 방어되고 눈부시게 붉은 색과 흰색을 띠며 야행성이며 흉내내지 않습니다.

누디 브랜치 연체 동물에 대한 다른 연구에서는 인도-태평양 산호초에 서식하는 Phylidiidae과의 민달팽이와 그들의 색이 특별한 방어효과가 있는 걸로 결론지었습니다.

하이드로 조이드를 먹는 누디 브랜치는 하이드로 조이드의 선충 (stinging cell)을 등쪽 체벽 인 cerata에 저장할 수 있습니다. kleptocnidae 라고 불리는 훔친 선충은 갯민숭달팽이를 해치지 않고 소화기관을 돌아 다닙니다. 장기로 더 들어가면 세포는 장 돌출부에 의해 동화되어 생물의 뒷몸에 특정 위치로 이동합니다. Nudibranchs는 hydrozoids 및 nematocysts로부터 자신을 보호 할 수 있습니다.

구체적인 메커니즘은 아직 알려지지 않았지만 큰 액포를 가진 특수 세포도 아마 중요한 역할을 할 것입니다.

유사하게, 일부 갯민숭달팽이는 식물 세포 (연산호의 공생 조류)를 흡수하여 이를 재사용하여 스스로 음식을 만들 수 있습니다. 관련 그룹의 sacoglossan(바다 민달팽이)는 조류를 먹고 엽록체만을 보유하여 광합성으로 사용합니다.

이 과정을 도벽 성형이라고 합니다.

Nudibranchs는 보호를 돕기 위해 다양한 화학적 방어를 사용하지만 전략이 치명적 일 필요는 없습니다.

사실, 화학적 방어는 독성이 아니라 불쾌하게 진화 해야한다는 좋은 주장이 존재합니다. 일부 스폰지 먹는 갯민숭달팽이는 포식자에 입맛에 맞지 않는 자신을 렌더링, 그들의 몸에서 그들의 먹이 스폰지의 화학 방어를 집중합니다.

dorid nudibranchs가 사용하는 화학 화합물이 실제로 식이 스폰지에서 나온다는 증거는 각각 먹이와 nudibranch의 대사 산물 사이의 유사성에 있습니다. 또한, nudibranchs는 여러 식품 공급원이있을 때 스폰지 화학 물질의 혼합물을 포함할 뿐만 아니라 식단의 동시 변경으로 방어 화학 물질을 변경합니다. 그러나, 이것은 갯민숭달팽이의 화학 방어를 개발하기위한 유일한 방법은 아닙니다. 어떤 종들은 식이요법의 영향 없이 새로이 그들 자신의 화학 물질을 생산할 수 있다.

다양한 화학 생산 방법에 대한 증거는 매우 다른 환경과 전체적으로 발견되는 지리적 위치에 걸쳐 화학적 구성의 특징적인 균일 성과 함께 제공됩니다. 새로이 생산하는 종은 다양한 식이 및 환경 의존적인 화학 조성과 비교됩니다.

또 다른 보호 방법은 피부에서 산을 방출하는 것으로, 물리적으로 자극을 받거나 다른 생물이 건드리면 자동으로 점액을 방출한다.

일생

  • 갯민숭달팽이는 자웅동체 생물로 암수의 생식 기관을 가지고 있지만 스스로 수정할 수는 없다.
  • 짝짓기는 보통 몇 분 정도로 소요되며, 춤과 같은 구애를 포함한다.
  • 일반적으로 리본처럼 보이는 젤라틴 모양의 나선형 물체 안에 알을 낳는다.
  • 알의 수는 적을 땐 한두 개, 많을 땐 2,500만 개 정도이다.
  • 알에는 포식자를 저지하는 수단으로 해면동물의 독소가 포함되어 있다.
  • 부화한지 얼마 안 된 갯민숭달팽이는 크기는 작지만 다 큰 갯민숭달팽이와 거의 비슷하게 생겼다. 다만 뿔의 갯수가 적을 수 있다.
  • 갯민숭달팽이의 수명은 종에 따라 몇 주에서 1년까지 다양하다.

먹이와 생태적 역할

알려진 모든 갯민숭달팽이는 육식성이다.

주로 먹이로는 스폰지, 히드라 (예 Cuthona ), 태형동물 중 일부는 다른 바다 슬러그 또는 알을 먹고 (예: 파 보리 너스 )

또는 어떤 경우에는 식인종이며 자신의 종족을 잡아 먹습니다.

수면에 서식하는 갯민숭달팽이인 파란갯민숭달팽이는 작은부레관해파리와 같은 관해파리목을 주로 먹는다.

이 포식성 연체 동물은 공기를 뱃속으로 빨아 들여 물에 띄우고, 근육질의 발을 사용하여 표면 필름에 달라 붙습니다.

작은 먹이를 찾으면 Glaucus는 큰 입으로 그것을 감싸지만, 만약 그 먹이가 더 큰 관해파리라면, 연체 동물은 가장 강력한 선충낭을 가지고 있는 낚시 촉수를 뜯어냅니다. 다른 종류와 마찬가지로 Glaucus는 자포을 소화하지 않습니다. 대신 장에서 피부 표면으로 독을 전달하여 스스로를 방어합니다.

분류

누디 브랜치는 일반적으로 dorid와 aeolid (eolid라고도 함)의 두 가지 주요 종류로 나뉩니다.

  • Dorids (clade Anthobranchia , Doridacea , 또는 Doridoidea )는 항문 주변의 신체 뒤쪽 부분에 형성하는 아기미같은 깃털로 인식됩니다. 껍질의 프린지 안에는 내장이 없습니다.
  • Aeolids (clade Cladobranchia )는 아가미같은 깃털 대신 cerata(뿔모양의 호흡기관)를 가지고 있습니다. 껍질이 없습니다.
분류

각주

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갯민숭달팽이: Brief Summary ( Korean )

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갯민숭달팽이 혹은 나새류(nudibranchs, sea rabbit)는 화려하고 밝은 색상의 해양 복족류이다.

해조류와 해저찌꺼기를 섭취하며 자세포를 갖추고 악취를 풍겨 포식자들에게서 꺼려진다.

주로 "바다청소기", "광대", "금잔화", "춤추는 사람", "용"과 같은 다채로운 별명을 가지고 있다. 전 세계 바다 곳곳에 분포되어 있으며, 현재 3,000마리의 종이 유효한 것으로 알려져 있다. 대부분 피부에 독을 가지고 있지만 만져도 영향이 없을 정도이다.

학명(nudibranchia)은 라틴어 '벌거벗은'이란 뜻을 가진 'nudus'와 그리스어로 '아가미'란 뜻을 가진 'brankhia'에서 왔다.

한국에는 전 연안의 조하대에 주로 분포한다.

바다민달팽이라고 불리기도 하지만, 그에 속하는 어떤 동물들은 갯민숭달팽이와 밀접한 관련은 없는 분류학적 그룹에 속한다.

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Wikipedia 작가 및 편집자
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wikipedia 한국어 위키백과
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