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Portunus pelagicus - Wikipedia, the free encyclopedia

Portunus pelagicus

From Wikipedia, the free encyclopedia

Portunus pelagicus
A mating pair of P. pelagicus
A mating pair of P. pelagicus
Scientific classification
Kingdom: Animalia
Phylum: Arthropoda
Subphylum: Crustacea
Class: Malacostraca
Order: Decapoda
Infraorder: Brachyura
Family: Portunidae
Genus: Portunus
Species: P. pelagicus
Binomial name
Portunus pelagicus
Linnaeus, 1758

Portunus pelagicus, also known as the flower crab, blue crab, blue swimmer crab, blue manna crab or sand crab, is a large crab found in the intertidal estuaries of the Indian and Pacific Oceans (Asian coasts) and the Middle-Eastern coast of the Mediterranean Sea. The name "flower crab" is used in east Asian countries while the latter names are used in Australia. The crabs are widely distributed in eastern Africa, Southeast Asia, Japan, Australia and New Zealand.

The males are bright blue in colour with white spots and with characteristically long chelipeds, while the females have a duller green/brown, with a more rounded carapace. The carapace can be up to 20 cm in width.

They stay buried under sand or mud most of the time, particularly during the daytime and winter, which may explain their high tolerance to NH4+ and NH3 [1]. They come out to feed during high tide on various organsims such as bivalves, fish and, to a lesser extent, macroalgae. They are excellent swimmers, largely due to a pair of flattened legs that resemble paddles. However, in contrast to another portunid crab (Scylla serrata), they cannot survive for long periods out of the water.

The species is commercially important throughout the Indo-Pacific where they may be sold as traditional hard shells, or as "soft shelled" crabs, which are considered a delicacy throughout Asia. The species is highly prized as the meat is almost as sweet as the blue crab, although P. pelagicus is physically much larger.

These characteristics, along with their fast growth, ease of larviculture, high fecundity and relatively high tolerance to both nitrate [2]  [3] and ammonia [1], (particularly NH3-N, which is typically more toxic than NH4+, as it can more easily diffuse across the gill membranes), makes this species ideal for aquaculture.

P. pelagicus is not striclty marine as it commonly enters estuaries for food and shelter. Furthermore, its life cycle is dependent on estuaries as the larvae and early juveniles use these habitats for growth and development. Prior to hatching, the female moves into shallow marine habitats, releases her eggs and the newly hatched Zoea I larvae move into estuaries. During this time they feed on microscopic plankton and progress from the Zoea I stage to the Zoea IV stage (approximately 8 days) and then to the final larval stage of megalopa (duration of 4-6 days). This larval stage is characterised by having large chelipeds used to catch prey. Once the megalopa metamorphoses to the crab stage they continue to spend time in estuaries which provides a suitable habitat for shelter and food. However, evidence has shown that early juveniles cannot tolerate low salinities for extended periods, which is likely due to its weak hyper-osmoregulatory abilities [4]. This may explain their mass emigration from estuaries to seawater during the rainy season.

[edit] References

  1. ^ a b N. Romano & C. Zeng (2007). Ontogenetic changes in tolerance to acute ammonia exposure and associated histological alterations of the gill structure through the early juvenile development of the blue swimmer crab, Portunus pelagicus. Aquaculture 266: 246–254. doi:10.1016/j.aquaculture.2007.01.035. 
  2. ^ N. Romano & C. Zeng (2007). Acute toxicity of sodium nitrate, potassium nitrate and potassium chloride and their effects on the hemolymph composition and gill structure of early juvenile blue swimmer crabs (Portunus pelagicus Linnaeus 1758) (Decapoda, Brachyura, Portunidae). Environmental Toxicology and Chemistry 26: 1955–1962. doi:10.1897/07-144. 
  3. ^ N. Romano & C. Zeng (2007). Effects of potassium on nitrate mediated changes to osmoregulation in marine crabs. Aquatic Toxicology 85 202-208
  4. ^ N. Romano & C. Zeng (2006). The effects of salinity on the survival, growth and haemolymph osmolality of early juvenile blue swimmer crab, Portunus pelagicus. Aquaculture 260: 151–162. doi:10.1016/j.aquaculture.2006.06.019. 

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