Metanephrops

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Metanephrops
Temporal range: Late Cretaceous–Recent
Metanephrops japonicus edit.jpg
Metanephrops japonicus
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Malacostraca
Order: Decapoda
Suborder: Pleocyemata
Family: Nephropidae
Genus: Metanephrops
Jenkins, 1972
Type species
Nephrops japonicus
Species

see Text

Metanephrops is a genus of lobsters, commonly known as scampi. Important species for fishery include Metanephrops australiensis (Australian scampi) and Metanephrops challengeri (New Zealand scampi). It differs from other lobsters such as Homarus and Nephrops norvegicus in that its two main claws are of equal size, rather than being differentiated into a crusher and a pincher. [1] There are 18 extant species recognised in the genus: [2]

Contents

A further three species are known from fossils: [3] [4]

Habitat

Metanephrops inhabit burrows located in sticky soft substrate that they build themselves. [5] They typically live at depths ranging between 50-994m below the surface of the ocean, but are found in greater abundances at 150m or deeper. [4] This classifies them as a "deep sea lobster" since they inhabit a region below 50m under the surface of the ocean. [6] Occurrences of Metanephrops are prevalent on the west side of ocean basins, especially the Indo-West-Pacific, ranging from latitudes of 35N to 50S. Only two of the extant species of Metanephrops inhabit the western basin of the Atlantic Ocean. M. binghami resides in the Gulf of Mexico and around the Caribbean and Cuba; while M. rubellus resides off of the southern coast of Brazil and off the coast of Uruguay. [4]

Diet

Metanephrops are scavengers like most lobsters. They consume a diet largely consisting of the corpses of pelagic and benthic species that have fallen to the sea floor. Specific examples of their typical diet include small marine organisms such as plankton and parasites, ghost shark (Hydrolagus novaezealandiae), silver warehou (Seriolella punctata), tall sea pen (Funiculina quadrangularis) and the salp (Ihlea racovitzai). [6]

Reproduction

The unique reproductive habits of Metanephrops are poorly understood due to the difficulty of getting individuals of Metanephrops to mate in captivity. However, their mating habits appear to follow that of most genera of lobster, with copulation occurring after a female moults. Successful instances of copulation were observed to occur when the male was larger and stronger than the female and was able to turn the female over and pin her down in order for copulation to occur. In one study, viable eggs were produced 3 days following an instance where sperm uptake was successful after copulation. However, the eggs did not hatch for another 222 days, meaning that the total time from spawning to hatch was 225 days. [7]

Development and morphology

Metanephrops begin their lives in a platonic larval stage that must undergo several cycles of multing to reach maturity. During these molting phases, some postlarval aspects of a mature Metanephrops become apparent with each subsequent molt. The Metanephrops larva is a zoea larva shared by many other crustaceans, and the time spent in this state is approximately 4–8 days. [5] [7] Before entering the zoea stage of larval development, newly hatched instances of Metanephrops are surrounded by a cuticle that encompass all appendages, though this stage lacks armed process on the first and second antenna and telson. This stage, like the zoea larval stage, is also typical in decopods. [5] This pre-zoea stage is extremely short lived in individuals that will proceed to enter the zoea larval stage, lasting for only a few minutes to a few hours. [7] Upon entering the zoea larval stage individuals of Metanephrops are typically 10-15mm long and bear notably well developed eyes that are stalked with small cornea. The zoea larva of Metanephrops are semi-opaque, but a system of red/orange chromatophores create a visible spot on the abdomen. After the zoea larval stage, Metanephrops enter a juvenile post larval stage characterized by the presence of all adult characteristics. This is especially apparent in the transferring of locomotion to the abdominal by use of pleopods to walk like other genera of lobsters, as opposed to primary locomotion being swimming as in the larval stage. However, it is likely that they retain some ability to swim through their pleopods and uropods. [5]

Origin

Metanephrops first appeared in the fossils record in the late Cretaceous. Specimens were found on the eastern side of the Antarctic peninsula. Stratigraphic, geographic and cladistic evidence suggest that Metanephrops developed in high southern latitudes. [4]

Fishing

Certain species of Metanephrops, such as Metanephrops challengeri, support commercial fisheries on and off the continental shelf and slope of New Zealand. [8] Scampi make burrows in muddy substrates, and fisheries use a number of methods such as photographic and burrow analysis methods to determine scampi emergence patterns in order to assess catchability. This data suggests that roughly half of all scampi burrows are occupied at any given time. [8] [9] Scampi have been targeted by trawl fisheries since the late 1980s. At that time landings were between 800-1000 tons per year for the species Metanephrops challengeri. Since then landings for M. challengeri have fallen to between 600 - 800 tons per year in recent years. [9]    

Related Research Articles

<span class="mw-page-title-main">Lobster</span> Family of large marine crustaceans

Lobsters are malacostracans of the family Nephropidae or its synonym Homaridae. They have long bodies with muscular tails and live in crevices or burrows on the sea floor. Three of their five pairs of legs have claws, including the first pair, which are usually much larger than the others. Highly prized as seafood, lobsters are economically important and are often one of the most profitable commodities in the coastal areas they populate.

<span class="mw-page-title-main">Caridea</span> Infraorder of shrimp

The Caridea, commonly known as caridean shrimp or true shrimp, from the Greek word καρίς, καρίδος, are an infraorder of shrimp within the order Decapoda. This infraorder contains all species of true shrimp. They are found widely around the world in both fresh and salt water. Many other animals with similar names – such as the mud shrimp of Axiidea and the boxer shrimp of Stenopodidea – are not true shrimp, but many have evolved features similar to true shrimp.

<i>Homarus</i> Genus of lobsters

Homarus is a genus of lobsters, which include the common and commercially significant species Homarus americanus and Homarus gammarus. The Cape lobster, which was formerly in this genus as H. capensis, was moved in 1995 to the new genus Homarinus.

<span class="mw-page-title-main">Lobster fishing</span> Aspect of the fishing industry

Lobsters are widely fished around the world for their meat. They are often hard to catch in large numbers, but their large size can make them a profitable catch. Although the majority of the targeted species are tropical, the majority of the global catch is in temperate waters.

<i>Nephrops norvegicus</i> Species of lobster

Nephrops norvegicus, known variously as the Norway lobster, Dublin Bay prawn, langoustine or shrimp, is a slim, coral colored lobster that grows up to 25 cm (10 in) long, and is "the most important commercial crustacean in Europe". It is now the only extant species in the genus Nephrops, after several other species were moved to the closely related genus Metanephrops. It lives in the north-eastern Atlantic Ocean, and parts of the Mediterranean Sea, but is absent from the Baltic Sea and Black Sea. Adults emerge from their burrows at night to feed on worms and fish.

<span class="mw-page-title-main">Slipper lobster</span> Family of crustaceans

Slipper lobsters are a family (Scyllaridae) of about 90 species of achelate crustaceans, in the Decapoda clade Reptantia, found in all warm oceans and seas. They are not true lobsters, but are more closely related to spiny lobsters and furry lobsters. Slipper lobsters are instantly recognisable by their enlarged antennae, which project forward from the head as wide plates. All the species of slipper lobsters are edible, and some, such as the Moreton Bay bug and the Balmain bug are of commercial importance.

<i>Nephrops</i> Genus of lobsters

Nephrops is a genus of lobsters comprising a single extant species, Nephrops norvegicus, and several fossil species. It was erected by William Elford Leach in 1814, to accommodate N. norvegicus alone, which had previously been placed in genera such as Cancer, Astacus or Homarus. Nephrops means "kidney eye" and refers to the shape of the animal's compound eye.

<span class="mw-page-title-main">Astacidea</span> Infraorder of crustaceans

Astacidea is an infraorder of decapod crustaceans including lobsters, crayfish, and their close relatives.

<span class="mw-page-title-main">Cape lobster</span> Species of crustacean

The Cape lobster, Homarinus capensis, is a species of small lobster that lives off the coast of South Africa, from Dassen Island to Haga Haga. Only a few dozen specimens are known, mostly regurgitated by reef-dwelling fish. It lives in rocky reefs, and is thought to lay large eggs that have a short larval phase, or that hatch directly as a juvenile. The species grows to a total length of 10 cm (3.9 in), and resembles a small European or American lobster; it was previously included in the same genus, Homarus, although it is not very closely related to those species, and is now considered to form a separate, monotypic genus – Homarinus. Its closest relatives are the genera Thymops and Thymopides.

<i>Metanephrops challengeri</i> Species of crustacean

Metanephrops challengeri is a species of slim, pink lobster that lives around the coast of New Zealand. It is typically 13–18 cm (5–7 in) long and weighs around 100 g (3.5 oz). The carapace and abdomen are smooth, and adults are white with pink and brown markings and a conspicuous pair of long, slim claws. M. challengeri lives in burrows at depths of 140–640 m (460–2,100 ft) in a variety of sediments. Although individuals can live for up to 15 years, the species shows low fecundity, where small numbers of larvae hatch at an advanced stage.

<i>Amphionides</i> Monotypic species of planktonic crustacean

Amphionides reynaudii is a species of caridean shrimp, whose identity and position in the crustacean system remained enigmatic for a long time. It is a small planktonic crustacean found throughout the world's tropical oceans, which until 2015 was considered the sole representative of the order Amphionidacea, due to unusual morphological features. Molecular data however confirm it as a member of the caridean family Pandalidae, and the confusion of morphology is because only larval phases have so far been studied.

<span class="mw-page-title-main">Reef lobster</span> Genus of crustaceans

Reef lobsters, Enoplometopus, are a genus of small lobsters that live on reefs in the Indo-Pacific, Caribbean and warmer parts of the Atlantic Ocean.

<i>Metanephrops australiensis</i> Species of lobster

Metanephrops australiensis, commonly known as Australian scampi or the northwest lobster, is a species of lobster. It is found off the north-west coast of Western Australia, ranging from the city of Eucla to Indonesia. It is prolific near Port Hedland.

Metanephrops binghami, the Caribbean lobster or Caribbean lobsterette, is a lobster that inhabits the western Atlantic region: from the Bahamas and southern Florida to French Guiana, including the Gulf of Mexico and the Caribbean Sea.

Metanephrops boschmai, known as the Bight lobster, Bight scampi or Boschma's scampi, is a species of lobster endemic to Western Australia.

<i>Gilvossius tyrrhenus</i> Species of crustacean

Gilvossius tyrrhenus is a species of mud shrimp which grows to a length of 70 mm (2.8 in). It lives in burrows in shallow sandy parts of the sea-bed in the Mediterranean Sea and northern Atlantic Ocean. It is the most common thalassinidean in the Mediterranean, and has been used as bait by fishermen for at least 200 years.

<i>Parribacus japonicus</i> Species of crustacean

Parribacus japonicus, the Japanese mitten lobster, is a species of slipper lobster. Though the common name for this lobster is the Japanese mitten lobster, it is locally called zōri-ebi (ゾウリエビ) – zōri denoting the Japanese sandal it resembles, and ebi meaning shrimp or lobster.

<span class="mw-page-title-main">Crustacean larva</span> Crustacean larval and immature stages between hatching and adult form

Crustaceans may pass through a number of larval and immature stages between hatching from their eggs and reaching their adult form. Each of the stages is separated by a moult, in which the hard exoskeleton is shed to allow the animal to grow. The larvae of crustaceans often bear little resemblance to the adult, and there are still cases where it is not known what larvae will grow into what adults. This is especially true of crustaceans which live as benthic adults, more-so than where the larvae are planktonic, and thereby easily caught.

<i>Panulirus ornatus</i> Species of crustacean

Panulirus ornatus is a large spiny lobster with 11 larval stages.

<span class="mw-page-title-main">Crustacean</span> Subphylum of arthropods

Crustaceans are invertebrate animals that constitute one group of arthropods that are a part of the subphylum Crustacea, a large, diverse group of mainly aquatic arthropods including decapods, seed shrimp, branchiopods, fish lice, krill, remipedes, isopods, barnacles, copepods, opossum shrimps, amphipods and mantis shrimp. The crustacean group can be treated as a subphylum under the clade Mandibulata. It is now well accepted that the hexapods emerged deep in the Crustacean group, with the completed pan-group referred to as Pancrustacea. The three classes Cephalocarida, Branchiopoda and Remipedia are more closely related to the hexapods than they are to any of the other crustaceans.

References

  1. Lipke Holthuis (1991). FAO species catalogue Vol. 13: Marine lobsters of the world. FAO.
  2. Tin-Yam Chan (2010). "Metanephrops Jenkins, 1972". World Register of Marine Species . Retrieved October 17, 2010.
  3. Sammy De Grave; N. Dean Pentcheff; Shane T. Ahyong; et al. (2009). "A classification of living and fossil genera of decapod crustaceans" (PDF). Raffles Bulletin of Zoology . Suppl. 21: 1–109. Archived from the original (PDF) on 2011-06-06.
  4. 1 2 3 4 Dale Tshudy, Tin-Yam Chan & Ulf Sorhannus (2007). "Morphology-based clasdistic analysis of Metanephrops: the most diverse extant genus of clawed lobster (Nephropidae)". Journal of Crustacean Biology . 27 (3): 463–476. doi: 10.1651/S-2777.1 .
  5. 1 2 3 4 Wear, Robert G. (1976). "Studies on the Larval Development of Metanephrops challengeri (Balss, 1914) (Decapoda, Nephropidae)". Crustaceana. 30 (2): 113–122. doi:10.1163/156854076X00521. ISSN   0011-216X. JSTOR   20102305.
  6. 1 2 van der Reis, Aimee L.; Laroche, Olivier; Jeffs, Andrew G.; Lavery, Shane D. (2018-09-20). "Preliminary analysis of New Zealand scampi (Metanephrops challengeri) diet using metabarcoding". PeerJ. 6: e5641. doi: 10.7717/peerj.5641 . ISSN   2167-8359. PMC   6151254 . PMID   30258728.
  7. 1 2 3 Heasman, K. G.; Jeffs, A. G. (2019-09-15). "Fecundity and potential juvenile production for aquaculture of the New Zealand Scampi, Metanephrops challengeri (Balss, 1914) (Decapoda: Nephropidae)". Aquaculture. 511: 634184. doi:10.1016/j.aquaculture.2019.05.069. ISSN   0044-8486. S2CID   190906154.
  8. 1 2 Verry, Alexander J. F.; Walton, Kerry; Tuck, Ian D.; Ritchie, Peter A. (2020-04-02). "Genetic structure and recent population expansion in the commercially harvested deep-sea decapod, Metanephrops challengeri (Crustacea: Decapoda)". New Zealand Journal of Marine and Freshwater Research. 54 (2): 251–270. doi:10.1080/00288330.2019.1707696. ISSN   0028-8330. S2CID   214087460.
  9. 1 2 Tuck,Parsons,Hartill,Chiswell (July 2015). "Scampi (Metanephrops challengeri) emergence patterns and catchability". ICES Journal of Marine Science. 72: 199–210. doi: 10.1093/icesjms/fsu244 .{{cite journal}}: CS1 maint: multiple names: authors list (link)


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