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Macrobrachium vollenhoveni

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Macrobrachium vollenhoveni
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Malacostraca
Order: Decapoda
Suborder: Pleocyemata
Infraorder: Caridea
Family: Palaemonidae
Genus: Macrobrachium
Species:
M. vollenhoveni
Binomial name
Macrobrachium vollenhoveni
(Herklots, 1857)
Synonyms[1]
  • Palaemon vollenhovenii Herklots, 1857

Macrobrachium vollenhoveni, the African river prawn, is a species of large, commercially important prawn from the family Palaemonidae from West Africa. It is a catadromous species that moves from freshwater to brackish water to spawn returning to freshwater as larvae. Recent research has shown that it could potentially be used as a biological control to reduce the rates of infection people living near rivers where this species occurs with schistosomiasis.

Description

Macrobrachium vollenhoveni is a large prawn which grows up to 189mm, but is more usually 100-150mm in length. It is generally a pale colour without any spots but with a thin dark longitudinal line on the carapace and transverse stripes across the abdomen and a thin line across the rear margin of the carapace. The third maxillipeds are bright yellow and the fingers of 2nd cheliped is dark blue with a yellow patch at the joint with the palm.[2]

Other identification features include the rostrum being equal to or shorter than the antennal scale; with the dorsal edge being convex over the eye and the tip having a short toothless portion. On the legs the second chelipeds have the Carpus shorter than palm, movable dactyls with a single large tooth at midlength of the dactyl.[2]

Distribution

Macrobrachium vollenhoveni is endemic to West Africa from Senegal to Angola,[3] as well as the islands of Bioko, São Tomé and Cape Verde.[4]

Biology

Macrobrachium vollenhoveni occurs in fresh and brackish waters, including mangrove creeks and inland rivers except for acidic waters.[2] A pre-copulatory form of ritualised behaviour which involves olfactory and tactile cues has been observed, fertilisation involves indirect sperm transfer.[3] Mating in the genus Macrobrachium involves the male depositing spermatophores on the ventral side of the female's thorax, between the pereiopods. The female then releases eggs which pass through the spermatophores and are fertilised.[5] After mating the females carry the eggs downstream from freshwater to the estuarine areas to spawn as the larvae must develop in saline water.[3] As the eggs are unable to hatch at higher salinities the females migrate downstream in the rainy season when salinity in the estuarine areas has been lowered.[4] The larvae then move back upstream into freshwater to complete their development.[6]

M. vollenhoveni is omnivorous and the major part of its diet consists of plant materials, algae, diatoms, protozoa and invertebrates.[citation needed] They are non-selective opportunistic feeders, feeding on plankton, especially Chlorophyta and Bacillariophyta. It has been described as s detritus feeder with a preference for animal remains and has been observed feeding on tadpoles and fish fry.[7]

Fisheries and Aquaculture

Macrobrachium vollenhoveni is fished for using leaf and brush traps in both freshwater and brackish water environments. It is not the primary target in most fisheries which are usually targeting the related species of Macrobrachium felicinum and Macrobrachium macrobrachion, although there are reported to be full-time M. vollenhovenii fisheries in Lagos Lagoon, Nigeria at peak season.[2]

M. vollenhoveni has been assessed as being very suitable for aquaculture in numerous studies as one of the largest species in the genus Macrobrachium, because it tolerates a wide range of environments and is an omnivore. The methods of aquaculture are very similar to those used to farm the cultured species Macrobrachium rosenbergii. Studies have looked at the nutritional value of the prawns and the possible use of the rather unappetising shells as a sustainable source of meal to use as food in aquaculture systems. As at 2017, large scale aquaculture of M. vollenhoveniihas not taken off, possibly because the requirement for more saline water for hatching eggs has not been understood.[4][2][7]

Use as a biological control for schistosomiasis

Macrobrachium vollenhoveni is an omnivore but larger individuals will prey on freshwater snails, including those species which act as intermediate hosts to the parasitic flatworms of the genus Schistosoma which can infect humans and cause the chronic parasitic infection schistosomiasis,also known as bilharzia.[6][8] On the Senegal River the Diama Dam was built about 50 km form the mouth of the river and blocked the access of prawns up stream of the dam to the brackish water of the estuary for breeding so these populations of prawns eventually collapsed, this in turn led to a huge increase in the rates of infection with Schistosoma of people living near the river up stream of the dam. This inferred that the loss of prawn populations may be linked to the huge increases in rates of infection with Schistosoma.[8] with infection rates attaining 71.8% in some villages.[6]

As M. rosenbergii has been shown to be an effective predator of the snails which act as intermediate hosts to the parasites under laboratory conditions it was thought that the similar M.vollenhoveni potentially would too, and this was shown to be the case. The larger males were more effective in predating the snails so efforts were focussed on producing single sex generations which could be used to populate rivers. As these were males they would grow faster and larger, they would not tend to migrate downstream and they would stay close to where they were introduced to the river. They could also be corralled into shallow water where the snails were concentrated increasing the effectiveness of their predation.[6] The prawns could still be harvested for food as the parasite cannot be passed to humans after being consumed by the prawns.[8] The use of prawns shows potential in helping to control infection rates of schistosomiasis in conjunction with drugs and other biological controls such as catfish and domestic ducks.[8]

References

  1. ^ "Synonyms of Macrobrachium vollenhovenii (Herklots, 1857)". SeaLifeBase. Retrieved 18 January 2017.
  2. ^ a b c d e C.B. Powell (1983). "The Fresh and Brackish Water Shrimps of Economic Importance in the Niger Delta". The proceedings of the 2nd Annual conference of the Fisheries Society of Nigeria held on 25th -27th January, 1982,at Calabar, Nigeria. Kainji Lake Research Institute Research Institute, New Bussa, Nigeria (PDF). University of Port Harcourt. pp. 254–285.
  3. ^ a b c "Macrobrachium vollenhovenii (Herklots, 1857)". Sea Life Base. Retrieved 18 January 2017.
  4. ^ a b c Jutta Willführ-Nast; Harald Rosenthal; Paul J. Udo; Friedrich Nast (1993). "Laboratory cultivation and experimental studies of salinity effects on larval development in the African River prawn Macrobrachium vollenhovenii (Decapoda, Palaemonidae)" (PDF). Aquatic Living Resources. 6: 115–137.
  5. ^ Forrest Wynne (May 2000). "Grow-out culture of freshwater prawns in Kentucky". Archived from the original on August 21, 2008. Retrieved July 4, 2005.
  6. ^ a b c d Amit Savaya Alkalay; Ohad Rosen; Susanne H. Sokolow; et al. (2014). "The Prawn Macrobrachium vollenhovenii in the Senegal River Basin: Towards Sustainable Restocking of All-Male Populations for Biological Control of Schistosomiasis". PLoS Neglected Tropical Diseases. 8 (8): e3060. doi:10.1371/journal.pntd.0003060. PMC 4148216. PMID 25166746.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  7. ^ a b I. E. Marioghae (1987). An appraisal of the cultivability of Nigerian palaemonid prawns (Report). Food and Agriculture Organization.
  8. ^ a b c d Jonathan Amos. "Recruiting prawns to fight river parasite". BBC. Retrieved 19 January 2017.