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58-557: Agnotozoa is a subkingdom of simple animals. It is one of the three animal subkingdoms, along with Parazoa and Eumetazoa . It is nearly synonymous with Mesozoa . Agnotozoa was first used as one of the branches of the subkingdom Metazoa . It was then considered to contain only one group, Mesozoa. More recently, some have used the name to refer to a subkingdom of three small phyla of simple animals without organs, Placozoa , Orthonectida , and Rhombozoa . They are known as "simple" though they have differentiated tissue, because that tissue

116-445: A larva swims until it finds a good site, and then becomes a polyp. This grows normally but then absorbs its tentacles and splits horizontally into a series of disks that become juvenile medusae, a process called strobilation . The juveniles swim off and slowly grow to maturity, while the polyp re-grows and may continue strobilating periodically. The adult medusae have gonads in the gastroderm , and these release ova and sperm into

174-494: A diverse group that includes all the freshwater cnidarians as well as many marine forms, and has both sessile members such as Hydra and colonial swimmers such as the Portuguese Man o' War . Staurozoa have recently been recognised as a class in their own right rather than a sub-group of Scyphozoa, and the parasitic Myxozoa and Polypodiozoa are now recognized as highly derived cnidarians rather than more closely related to

232-496: A few are parasites . Many are preyed on by other animals including starfish , sea slugs , fish , turtles , and even other cnidarians. Many scleractinian corals—which form the structural foundation for coral reefs —possess polyps that are filled with symbiotic photo-synthetic zooxanthellae . While reef-forming corals are almost entirely restricted to warm and shallow marine waters, other cnidarians can be found at great depths, in polar regions , and in freshwater. Cnidarians are

290-488: A hydra's nematocysts are lost from its tentacles when capturing a brine shrimp . Used cnidocytes have to be replaced, which takes about 48 hours. To minimise wasteful firing, two types of stimulus are generally required to trigger cnidocytes: nearby sensory cells detect chemicals in the water, and their cilia respond to contact. This combination prevents them from firing at distant or non-living objects. Groups of cnidocytes are usually connected by nerves and, if one fires,

348-452: A maximum depth of 46 m (151 ft), temperatures between 20 and 28 °C (68 and 82 °F), high salinity , and low carbon dioxide levels. Stauromedusae , although usually classified as jellyfish, are stalked, sessile animals that live in cool to Arctic waters. Cnidarians range in size from a mere handful of cells for the parasitic myxozoans through Hydra' s length of 5–20 mm ( 1 ⁄ 4 – 3 ⁄ 4  in), to

406-424: A mix of calcified and uncalcified species). Cnidaria are diploblastic animals; in other words, they have two main cell layers, while more complex animals are triploblasts having three main layers. The two main cell layers of cnidarians form epithelia that are mostly one cell thick, and are attached to a fibrous basement membrane , which they secrete . They also secrete the jelly-like mesoglea that separates

464-474: A non-living, jelly-like substance, sandwiched between two layers of epithelium that are mostly one cell thick. Cnidarians are also some of the only animals that can reproduce both sexually and asexually. Cnidarians mostly have two basic body forms: swimming medusae and sessile polyps , both of which are radially symmetrical with mouths surrounded by tentacles that bear cnidocytes, which are specialized stinging cells used to capture prey. Both forms have

522-722: A single orifice and body cavity that are used for digestion and respiration . Many cnidarian species produce colonies that are single organisms composed of medusa-like or polyp-like zooids , or both (hence they are trimorphic ). Cnidarians' activities are coordinated by a decentralized nerve net and simple receptors . Cnidarians also have rhopalia , which are involved in gravity sensing and sometimes chemoreception. Several free-swimming species of Cubozoa and Scyphozoa possess balance-sensing statocysts , and some have simple eyes . Not all cnidarians reproduce sexually , but many species have complex life cycles of asexual polyp stages and sexual medusae stages. Some, however, omit either

580-402: A single phylum, Porifera , which lack muscles , nerves and internal organs , which in many cases resembles a cell colony rather than a multicellular organism itself. All other animals are eumetazoans , which do have differentiated tissues. On occasion, Parazoa reunites Porifera with Archaeocyatha , a group of extinct sponges sometimes considered a separate phylum. In other cases, Placozoa

638-451: A type of muscle that, in more complex animals, arises from the middle cell layer . As a result, some recent text books classify ctenophores as triploblastic , and it has been suggested that cnidarians evolved from triploblastic ancestors. Most adult cnidarians appear as either free-swimming medusae or sessile polyps , and many hydrozoans species are known to alternate between the two forms. Both are radially symmetrical , like

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696-511: A very ancient phylum, with fossils having been found in rocks formed about 580  million years ago during the Ediacaran period , preceding the Cambrian Explosion . Other fossils show that corals may have been present shortly before 490  million years ago and diversified a few million years later. Molecular clock analysis of mitochondrial genes suggests an even older age for

754-469: A wheel and a tube respectively. Since these animals have no heads, their ends are described as "oral" (nearest the mouth) and "aboral" (furthest from the mouth). Most have fringes of tentacles equipped with cnidocytes around their edges, and medusae generally have an inner ring of tentacles around the mouth. Some hydroids may consist of colonies of zooids that serve different purposes, such as defense, reproduction and catching prey. The mesoglea of polyps

812-514: A worldwide range: some, such as Hydra , live in freshwater; Obelia appears in the coastal waters of all the oceans; and Liriope can form large shoals near the surface in mid-ocean. Among anthozoans , a few scleractinian corals , sea pens and sea fans live in deep, cold waters, and some sea anemones inhabit polar seabeds while others live near hydrothermal vents over 10 km (33,000 ft) below sea-level. Reef -building corals are limited to tropical seas between 30°N and 30°S with

870-568: Is a phylum under kingdom Animalia containing over 11,000 species of aquatic animals found both in fresh water and marine environments (predominantly the latter), including jellyfish , hydroids , sea anemones , corals and some of the smallest marine parasites . Their distinguishing features are a decentralized nervous system distributed throughout a gelatinous body and the presence of cnidocytes or cnidoblasts, specialized cells with ejectable flagella used mainly for envenomation and capturing prey . Their bodies consist of mesoglea ,

928-492: Is a stub . You can help Misplaced Pages by expanding it . Parazoa Parazoa ( Parazoa , gr. Παρα-, para, "next to", and ζωα, zoa, "animals") are a taxon with sub-kingdom category that is located at the base of the phylogenetic tree of the animal kingdom in opposition to the sub-kingdom Eumetazoa ; they group together the most primitive forms, characterized by not having proper tissues or that, in any case, these tissues are only partially differentiated. They generally group

986-592: Is based, in part, on the presence in the hydra genome of genes homologous to genes in other genetically well studied species that have been demonstrated to play key roles in these DNA repair pathways. Cnidarians were for a long time grouped with Ctenophores in the phylum Coelenterata , but increasing awareness of their differences caused them to be placed in separate phyla. Modern cnidarians are generally classified into four main classes : sessile Anthozoa ( sea anemones , corals , sea pens ); swimming Scyphozoa (jellyfish) and Cubozoa (box jellies); and Hydrozoa ,

1044-540: Is included, depending on the authors. Porifera and Archaeocyatha show similarities such as benthic and sessile habitat and the presence of pores, with differences such as the presence of internal walls and septa in Archaeocyatha. They have been considered separate phyla, however, the consensus is growing that Archaeocyatha was in fact a type of sponge that can be classified into Porifera. Some authors include in Parazoa

1102-412: Is not known how long these can survive. In some species the ova release chemicals that attract sperm of the same species. The fertilized eggs develop into larvae by dividing until there are enough cells to form a hollow sphere ( blastula ) and then a depression forms at one end ( gastrulation ) and eventually becomes the digestive cavity. However, in cnidarians the depression forms at the end further from

1160-842: Is now considered paraphyletic. When referenced, it is sometimes considered an equivalent to the Porifera. Some authors include the Placozoa , a phylum long thought to consist of a single species, Trichoplax adhaerens , in the division, but sometimes it is also placed in the Agnotozoa subkingdom. According to the most up-to-date phylogeny, Porifera should not have a direct relationship with Placozoa. In any case, placozoans have simplified coelenterates without common characteristics with sponges. Porifera Ctenophora Bilateria Cnidaria Placozoa Cnidaria Cnidaria ( / n ɪ ˈ d ɛər i ə , n aɪ -/ nih- DAIR -ee-ə, NY - )

1218-499: Is only organized in simple ways; for example, by being layered. The Orthonectida and Rhombozoa are grouped into the Mesozoa. Biologists today generally do not use the taxon Agnotozoa because it is doubted that placozoans are closely related to mesozoans and that orthonectids and rhombozoans are related to each other. Even if the two are related, there is little need for another name in addition to mesozoa. This animal-related article

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1276-410: Is still struggling. The mesoglea contains small numbers of amoeba -like cells, and muscle cells in some species. However, the number of middle-layer cells and types are much lower than in sponges. Polymorphism refers to the occurrence of structurally and functionally more than two different types of individuals within the same organism. It is a characteristic feature of Cnidarians, particularly

1334-409: Is usually thin and often soft, but that of medusae is usually thick and springy, so that it returns to its original shape after muscles around the edge have contracted to squeeze water out, enabling medusae to swim by a sort of jet propulsion . In medusae, the only supporting structure is the mesoglea . Hydra and most sea anemones close their mouths when they are not feeding, and the water in

1392-697: The Lion's mane jellyfish , which may exceed 2 m (6 ft 7 in) in diameter and 75 m (246 ft) in length. Prey of cnidarians ranges from plankton to animals several times larger than themselves. Some cnidarians are parasites , mainly on jellyfish but a few are major pests of fish. Others obtain most of their nourishment from endosymbiotic algae or dissolved nutrients. Predators of cnidarians include: sea slugs , flatworms and comb jellies , which can incorporate nematocysts into their own bodies for self-defense (nematocysts used by cnidarian predators are referred to as kleptocnidae); starfish , notably

1450-465: The bilaterians . Stauromedusae, small sessile cnidarians with stalks and no medusa stage, have traditionally been classified as members of the Scyphozoa, but recent research suggests they should be regarded as a separate class, Staurozoa. The Myxozoa , microscopic parasites , were first classified as protozoans . Research then found that Polypodium hydriforme , a non-Myxozoan parasite within

1508-451: The corals Hetroxenia and Leptogorgia , depend almost completely on their endosymbionts and on absorbing dissolved nutrients. Cnidaria give their symbiotic algae carbon dioxide , some nutrients, and protection against predators. Predatory species use their cnidocytes to poison or entangle prey, and those with venomous nematocysts may start digestion by injecting digestive enzymes . The "smell" of fluids from wounded prey makes

1566-517: The crown group of cnidarians, estimated around 741  million years ago , almost 200 million years before the Cambrian period, as well as before any fossils. Recent phylogenetic analyses support monophyly of cnidarians, as well as the position of cnidarians as the sister group of bilaterians . The term cnidaria derives from the Ancient Greek word knídē ( κνίδη “nettle”), signifying

1624-432: The medusae . These "nettle cells" function as harpoons , since their payloads remain connected to the bodies of the cells by threads. Three types of cnidocytes are known: The main components of a cnidocyte are: It is difficult to study the firing mechanisms of cnidocytes as these structures are small but very complex. At least four hypotheses have been proposed: Cnidocytes can only fire once, and about 25% of

1682-511: The phase of the moon . Many species of Cnidaria may spawn simultaneously in the same location, so that there are too many ova and sperm for predators to eat more than a tiny percentage — one famous example is the Great Barrier Reef , where at least 110 corals and a few non-cnidarian invertebrates produce enough gametes to turn the water cloudy. These mass spawnings may produce hybrids , some of which can settle and form polyps, but it

1740-509: The polyp and medusa forms, or of zooids within colonial organisms like those in Hydrozoa . In Hydrozoans , colonial individuals arising from individual zooids will take on separate tasks. For example, in Obelia there are feeding individuals, the gastrozooids ; the individuals capable of asexual reproduction only, the gonozooids, blastostyles and free-living or sexually reproducing individuals,

1798-844: The coiled thread reminiscent of cnidocytes. The word was first coined in 1766 by the Swedish naturalist Peter Simon Pallas . Cnidarians form a phylum of animals that are more complex than sponges , about as complex as ctenophores (comb jellies), and less complex than bilaterians , which include almost all other animals. Both cnidarians and ctenophores are more complex than sponges as they have: cells bound by inter-cell connections and carpet-like basement membranes ; muscles ; nervous systems ; and some have sensory organs. Cnidarians are distinguished from all other animals by having cnidocytes that fire harpoon -like structures that are mainly used to capture prey. In some species, cnidocytes can also be used as anchors. Cnidarians are also distinguished by

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1856-505: The connecting tunnels, so that gastroderm cells can absorb the nutrients. Absorption may take a few hours, and digestion within the cells may take a few days. The circulation of nutrients is driven by water currents produced by cilia in the gastroderm or by muscular movements or both, so that nutrients reach all parts of the digestive cavity. Nutrients reach the outer cell layer by diffusion or, for animals or zooids such as medusae which have thick mesogleas , are transported by mobile cells in

1914-420: The digestive cavity then acts as a hydrostatic skeleton , rather like a water-filled balloon. Other polyps such as Tubularia use columns of water-filled cells for support. Sea pens stiffen the mesoglea with calcium carbonate spicules and tough fibrous proteins , rather like sponges . In some colonial polyps, a chitinous epidermis gives support and some protection to the connecting sections and to

1972-440: The digestive cavity without opening the mouth. This improves respiration after feeding and allows these animals, which use the cavity as a hydrostatic skeleton , to control the water pressure in the cavity without expelling undigested food. Cnidaria that carry photosynthetic symbionts may have the opposite problem, an excess of oxygen, which may prove toxic . The animals produce large quantities of antioxidants to neutralize

2030-620: The egg cells of sturgeon , is closely related to the Myxozoa and suggested that both Polypodium and the Myxozoa were intermediate between cnidarians and bilaterian animals. More recent research demonstrates that the previous identification of bilaterian genes reflected contamination of the Myxozoan samples by material from their host organism, and they are now firmly identified as heavily derived cnidarians, and more closely related to Hydrozoa and Scyphozoa than to Anthozoa. Some researchers classify

2088-556: The excess oxygen. All cnidarians can regenerate , allowing them to recover from injury and to reproduce asexually . Medusae have limited ability to regenerate, but polyps can do so from small pieces or even collections of separated cells. This enables corals to recover even after apparently being destroyed by predators. Cnidarian sexual reproduction often involves a complex life cycle with both polyp and medusa stages. For example, in Scyphozoa (jellyfish) and Cubozoa (box jellies)

2146-580: The extinct conulariids as cnidarians, while others propose that they form a completely separate phylum . Current classification according to the World Register of Marine Species : Many cnidarians are limited to shallow waters because they depend on endosymbiotic algae for much of their nutrients. The life cycles of most have polyp stages, which are limited to locations that offer stable substrates. Nevertheless, major cnidarian groups contain species that have escaped these limitations. Hydrozoans have

2204-454: The eyes probably do not form images, Cubozoa can clearly distinguish the direction from which light is coming as well as negotiate around solid-colored objects. Cnidarians feed in several ways: predation , absorbing dissolved organic chemicals, filtering food particles out of the water, obtaining nutrients from symbiotic algae within their cells, and parasitism. Most obtain the majority of their food from predation but some, including

2262-543: The fact that they have only one opening in their body for ingestion and excretion i.e. they do not have a separate mouth and anus. Like sponges and ctenophores, cnidarians have two main layers of cells that sandwich a middle layer of jelly-like material, which is called the mesoglea in cnidarians; more complex animals have three main cell layers and no intermediate jelly-like layer. Hence, cnidarians and ctenophores have traditionally been labelled diploblastic , along with sponges. However, both cnidarians and ctenophores have

2320-647: The freshwater cnidarians as well as many marine forms, and which has both sessile members, such as Hydra , and colonial swimmers (such as the Portuguese man o' war )). Staurozoa have recently been recognised as a class in their own right rather than a sub-group of Scyphozoa, and the highly derived parasitic Myxozoa and Polypodiozoa were firmly recognized as cnidarians only in 2007. Most cnidarians prey on organisms ranging in size from plankton to animals several times larger than themselves, but many obtain much of their nutrition from symbiotic dinoflagellates , and

2378-435: The involvement of sexual reproduction process, was observed in both Hydrozoa ( Turritopsis dohrnii and Laodicea undulata ) and Scyphozoa ( Aurelia sp.1 ). Anthozoa have no medusa stage at all and the polyps are responsible for sexual reproduction. Spawning is generally driven by environmental factors such as changes in the water temperature, and their release is triggered by lighting conditions such as sunrise, sunset or

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2436-407: The layers. The layer that faces outwards, known as the ectoderm ("outside skin"), generally contains the following types of cells: In addition to epitheliomuscular, nerve and interstitial cells, the inward-facing gastroderm ("stomach skin") contains gland cells that secrete digestive enzymes . In some species it also contains low concentrations of cnidocytes, which are used to subdue prey that

2494-556: The lower parts of individual polyps. A few polyps collect materials such as sand grains and shell fragments, which they attach to their outsides. Some colonial sea anemones stiffen the mesoglea with sediment particles. A mineralized exoskeleton made of calcium carbonate is found in subphylum Anthozoa in the order Scleractinia (stony corals; class Hexacorallia) and the class Octocorallia , and in subphylum Medusozoa in three hydrozoan families in order Anthoathecata ; Milleporidae , Stylasteridae and Hydractiniidae (the latter with

2552-631: The margin of the bell that work together to control the motor nerve net, that directly innervates the swimming muscles. Most cnidarians also have a parallel system. In scyphozoans, this takes the form of a diffuse nerve net, which has modulatory effects on the nervous system. As well as forming the "signal cables" between sensory neurons and motoneurons, intermediate neurons in the nerve net can also form ganglia that act as local coordination centers. Communication between nerve cells can occur by chemical synapses or gap junctions in hydrozoans, though gap junctions are not present in all groups. Cnidarians have many of

2610-645: The medusae of some hydrozoans can divide down the middle. Scyphozoan polyps can both bud and split down the middle. In addition to both of these methods, Anthozoa can split horizontally just above the base. Asexual reproduction makes the daughter cnidarian a clone of the adult. The ability of Cnidarians to asexually reproduce ensures a greater number of mature medusa that can mature to reproduce sexually. Two classical DNA repair pathways, nucleotide excision repair and base excision repair , are present in hydra , and these repair pathways facilitate unhindered reproduction. The identification of these pathways in hydra

2668-580: The mesoglea. Indigestible remains of prey are expelled through the mouth. The main waste product of cells' internal processes is ammonia , which is removed by the external and internal water currents. There are no respiratory organs, and both cell layers absorb oxygen from and expel carbon dioxide into the surrounding water. When the water in the digestive cavity becomes stale it must be replaced, and nutrients that have not been absorbed will be expelled with it. Some Anthozoa have ciliated grooves on their tentacles, allowing them to pump water out of and into

2726-447: The movements of internal mineral grains called statoliths. If the body tilts in the wrong direction, the animal rights itself by increasing the strength of the swimming movements on the side that is too low. Most species have ocelli ("simple eyes"), which can detect sources of light. However, the agile box jellyfish are unique among Medusae because they possess four kinds of true eyes that have retinas , corneas and lenses . Although

2784-486: The parents are immobile, these feeding capabilities extend the larvae's range and avoid overcrowding of sites. Scyphozoan and hydrozoan larvae have little yolk and most lack endosymbiotic algae, and therefore have to settle quickly and metamorphose into polyps. Instead, these species rely on their medusae to extend their ranges. All known cnidaria can reproduce asexually by various means, in addition to regenerating after being fragmented. Hydrozoan polyps only bud, while

2842-403: The phylum Porifera , and Trichoplax in the phylum Placozoa . Parazoa do not show any body symmetry (they are asymmetric); all other groups of animals show some kind of symmetry. There are currently 5000 species, 150 of which are freshwater. The larvae are planktonic and the adults are sessile. The Parazoa–Eumetazoa division has been estimated to be 940 million years ago. The Parazoa group

2900-529: The polyp or the medusa stage, and the parasitic classes evolved to have neither form. Cnidarians were formerly grouped with ctenophores , also known as comb jellies, in the phylum Coelenterata , but increasing awareness of their differences caused them to be placed in separate phyla. Cnidarians are classified into four main groups: the almost wholly sessile Anthozoa ( sea anemones , corals , sea pens ); swimming Scyphozoa ( jellyfish ); Cubozoa (box jellies); and Hydrozoa (a diverse group that includes all

2958-450: The polyp stage completely, and cubozoan polyps produce only one medusa. Hydrozoa have a variety of life cycles. Some have no polyp stages and some (e.g. hydra ) have no medusae. In some species, the medusae remain attached to the polyp and are responsible for sexual reproduction; in extreme cases these reproductive zooids may not look much like medusae. Meanwhile, life cycle reversal, in which polyps are formed directly from medusae without

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3016-411: The poriferous or sponge phyla and Placozoa on the basis of shared primitive characteristics: Both are simple, show a lack of true tissues and organs, have both asexual and sexual reproduction , and are invariably aquatic. As animals, they are a group that in various studies are at the base of the phylogenetic tree, albeit in a paraphyletic form. Of this group only surviving sponges, which belong to

3074-1273: The rest of the group requires a weaker minimum stimulus than the cells that fire first. Medusae swim by a form of jet propulsion: muscles, especially inside the rim of the bell, squeeze water out of the cavity inside the bell, and the springiness of the mesoglea powers the recovery stroke. Since the tissue layers are very thin, they provide too little power to swim against currents and just enough to control movement within currents. Hydras and some sea anemones can move slowly over rocks and sea or stream beds by various means: creeping like snails, crawling like inchworms , or by somersaulting . A few can swim clumsily by waggling their bases. Cnidarians are generally thought to have no brains or even central nervous systems. However, they do have integrative areas of neural tissue that could be considered some form of centralization. Most of their bodies are innervated by decentralized nerve nets that control their swimming musculature and connect with sensory structures, though each clade has slightly different structures. These sensory structures, usually called rhopalia, can generate signals in response to various types of stimuli such as light, pressure, chemical changes, and much more. Medusa usually have several of them around

3132-586: The same neurotransmitters as bilaterians, including chemicals such as glutamate, GABA, and glycine. Serotonin, dopamine, noradrenaline, octopamine, histamine, and acetylcholine, on the other hand, are absent. This structure ensures that the musculature is excited rapidly and simultaneously, and can be directly stimulated from any point on the body, and it also is better able to recover after injury. Medusae and complex swimming colonies such as siphonophores and chondrophores sense tilt and acceleration by means of statocysts , chambers lined with hairs which detect

3190-452: The tentacles and oral arms often have rows of cilia whose beating creates currents that flow towards the mouth, and some produce nets of mucus to trap particles. Their digestion is both intra and extracellular. Once the food is in the digestive cavity, gland cells in the gastroderm release enzymes that reduce the prey to slurry, usually within a few hours. This circulates through the digestive cavity and, in colonial cnidarians, through

3248-673: The tentacles fold inwards and wipe the prey off into the mouth. In medusae, the tentacles around the edge of the bell are often short and most of the prey capture is done by "oral arms", which are extensions of the edge of the mouth and are often frilled and sometimes branched to increase their surface area. These "oral arms" aid in Cnidarians ability to move prey towards their mouth once it has been poisoned and entangled. Medusae often trap prey or suspended food particles by swimming upwards, spreading their tentacles and oral arms and then sinking. In species for which suspended food particles are important,

3306-487: The water in the breeding season. This phenomenon of succession of differently organized generations (one asexually reproducing, sessile polyp, followed by a free-swimming medusa or a sessile polyp that reproduces sexually) is sometimes called "alternation of asexual and sexual phases" or "metagenesis", but should not be confused with the alternation of generations as found in plants. Shortened forms of this life cycle are common, for example some oceanic scyphozoans omit

3364-504: The yolk (at the animal pole ), while in bilaterians it forms at the other end ( vegetal pole ). The larvae, called planulae , swim or crawl by means of cilia . They are cigar-shaped but slightly broader at the "front" end, which is the aboral, vegetal-pole end and eventually attaches to a substrate if the species has a polyp stage. Anthozoan larvae either have large yolks or are capable of feeding on plankton , and some already have endosymbiotic algae that help to feed them. Since

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