Panulirus ornatus

Panulirus ornatus
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Malacostraca
Order: Decapoda
Suborder: Pleocyemata
Family: Palinuridae
Genus: Panulirus
Species:
P. ornatus
Binomial name
Panulirus ornatus
(Fabricius, 1798)
Synonyms[2]

Panulirus ornatus (known by a number of common names, including tropical rock lobster,[3][4] ornate rock lobster,[5] ornate spiny lobster[2] and ornate tropical rock lobster[6]) is a large edible spiny lobster with 11 larval stages that has been successfully bred in captivity.[7]

Panulirus ornatus has a wide geographical range in the Indo-Pacific, from the Red Sea and KwaZulu-Natal in the west to Japan and Fiji in the east.[2] These lobsters can be found at shallow depths, typically no deeper than 50 m.[citation needed] In most parts of its range, the lobster is netted or speared, while in Northeast Australia, a commercial fishery has existed since 1966 and the harvesting of the species is regulated by the Great Barrier Reef Marine Park Authority.[2][4] The species now also occurs in the Mediterranean, having invaded as a Lessepsian migrant through the Suez Canal.[8]

The species is responsible for supporting a number of fisheries in Vietnam, Papua New Guinea, the Torres Strait in Australia, and other Indo-Pacific regions.[9] With such stress on a single species for commercial purposes, countries like Australia and Indonesia have started successful aquaculture practices.

Description[edit]

The ornate rock lobster is a large specimen with a blue-green carapace. It is characterized by its large frontal horns, as well as distinct patterning with stripes and spots of various colors throughout its body. Its walking legs have intricate stripe patterns, making it appear almost spider-like.[10]

Diet[edit]

The P. ornatus diet consists of a variety of invertebrates, from bivalves to gastropods and even other small crustaceans. These lobsters depend on carotenoids for energy as well as other functional benefits, including reproductive success, post-larval development, antioxidants, and even stress resistance. Many of these lobster species rely on crustacean feeds upon breeding in an aquaculture facility. Within these feeds, one of the most components is carotenoids, specifically astaxanthin. Many feeds also rely on nutrients from blue and green-lipped mussels, but experiments have shown that the carotenoid level offered from these feeds alone is not sufficient for the lobsters' development.[11]

Breeding and migration[edit]

Panulirus ornatus migrates annually from the Torres Strait to Yule Island in the Gulf of Papua in order to breed.[9][12] Migration begins in mid to late August,[13] during which ovary development, mating, and initial oviposition occur. Larval release occurs when the Panulirus ornatus population ends migration and arrives on the reefs of the eastern seaboard of the Gulf of Papua.

The breeding season for Panulirus ornatus stretches from November to March or April.[9][12] After migration to the Gulf of Papua, the sexes segregate by water depth. Males enter shallower water and females enter deeper water until the eggs have hatched. Female Panulirus ornatus produce up to three broods with a reduction in size of each subsequent brood.[9]

Most breeding adults are three years old. Mating males tend to be larger than females, with carapace lengths ranging from 100–⁠150 mm, and that of females ranging from 90–⁠120 mm. After breeding, there is high mortality in breeding adults.[12]

There is no return migration of breeding adults. Reproductive migration across the Gulf of Papua occurs in order to disperse larvae in oceanic currents that favor their distribution near the Torres Strait. Dispersed throughout the eastern coast of Australia, Panulirus ornatus larvae must migrate as juveniles to the adult habitat in the northern Torres Strait. From there, they remain in specific reef complex for 1–2 years until they are of breeding age and undertake the annual mass migration to breed.[13]

Aquaculture/farming[edit]

These lobsters are great candidates for aquafarming because of their ability to grow very quickly: it only takes 18 months for P. ornatus to grow up to 1 kg in the wild.[11] Those that exceed this 1 kg baseline are most desirable and are worth the most profit.[14] Therefore, many Southeast Asian countries, including Vietnam and the Philippines, have tested feeding pellets in order to ensure marketable growth.

Seed lobsters (pueruli)[edit]

Selling wild-caught, out-grown rock lobster originated in countries like Vietnam and China. In the early 2000s, it was discovered that the waters surrounding Indonesia hosted the largest P. ornatus communities ever seen and therefore, Indonesia had the potential to host the world's largest lobster aquaculture industry. P. ornatus is now the most valuable resource in Indonesian fisheries.[14]

These lobsters are extremely abundant, specifically in their puerulus stage: the transition stage between phyllosoma larva and juvenile lobster. This is also when they can be referred to as ‘seed lobsters.’ Pueruli are much more abundant than juveniles, so it is extremely efficient to gather members of this group. Fishers dive down to artificial habitats created specifically for pueruli settlement and manually remove them periodically. These specimens then are moved to grow-out sectors to mature for industry purposes. This is a mutually beneficial practice, as humans are able to export (and eat) large sums of P. ornatus, and meanwhile this species is subjected to much lower mortality rates in the process. In nature, pueruli mortality rates are about 99%, whereas in capture and on-grown practices, the mortality rate is lowered to under 25%. Hence, aquaculture practices are providing ways of increased lobster production and enhancing natural populations.[14]

Many government officials do not recognize the mutual benefits of this practice and have implemented regulations in an attempt to increase already-stable populations of adult lobsters. In 2015, a law was put into place ending the practice of seed fishing, as it required all caught lobsters weigh at least 200 g. Later, in 2016, a new policy was announced that prohibited grow-out opportunities for lobsters. At this point, lobster seed fishing had been providing livelihood to thousands of Indonesian households for years. These practices then continued in secret, as fishers risked major penalty and arrest. In 2019, it was estimated that there were more puerulus fishers active than there had been before the new laws were implemented.[14]

See also[edit]

References[edit]

  1. ^ Cockcroft, A.; Butler, M.; MacDiarmid, A. (2011). "Panulirus ornatus". IUCN Red List of Threatened Species. 2011: e.T169987A6700058. doi:10.2305/IUCN.UK.2011-1.RLTS.T169987A6700058.en. Retrieved 19 November 2021.
  2. ^ a b c d Lipke B. Holthuis (1991). "Panulirus ornatus". FAO Species Catalogue, Volume 13. Marine Lobsters of the World. FAO Fisheries Synopsis No. 125. Food and Agriculture Organization. pp. 148–149. ISBN 978-92-5-103027-1.
  3. ^ "Tropical rock lobsters. Home". Australian Institute of Marine Science. 18 August 2008. Retrieved 26 January 2012. The technological barrier to sustainable aquaculture of lobsters is their very long and complex larval life (up to six months and 11 stages in the tropical lobster) and their high larval mortality under current culture practices.
  4. ^ a b "Great Barrier Reef Marine Park Authority (GBRMPA), Detailed maps, MPZ8 - Townsville". Australian Government, Great Barrier Reef Marine Park Authority. 24 April 2006. Retrieved 4 January 2011.
  5. ^ "Marine fish picture gallery. Ornate rock lobster picture". Scuba Equipment USA. Division of Express Water Sports. Retrieved 26 January 2012. The Ornate Rock Lobster (Panulirus ornatus) belongs to the crustacean family Palinuridae. The Ornate Rock Lobster is also known as the painted lobster or coral crayfish.
  6. ^ Matthew S. Payne; Mike R. Hall; Raymond Bannister; Lindsay Sly & David G. Bourne (2006). "Microbial diversity within the water column of a larval rearing system for the ornate rock lobster (Panulirus ornatus)". Aquaculture. 258 (1–4): 80–90. doi:10.1016/j.aquaculture.2006.04.001. The ornate tropical rock lobster, Panulirus ornatus has substantial potential as an aquaculture species though disease outbreaks during the animal's extended larval lifecycle are major constraints for success.
  7. ^ "World-leading aquaculture breakthrough to transform lobster production". Institute for Marine and Antarctic Studies - University of Tasmania, Australia. Retrieved 3 May 2018.
  8. ^ Rodríguez, G.; Suárez, H. (2001). "Anthropogenic dispersal of decapod crustaceans in aquatic environments". Interciencia. 26 (7): 282–288.
  9. ^ a b c d MacFarlane, J. W. (1986). "Reproduction of the Ornate Rock Lobster, Panulirus ornatus (Fabricius), in Papua New Guinea". Australian Journal of Marine and Freshwater Research. 37: 55–65. doi:10.1071/MF9860055.
  10. ^ Ranjan, Ritesh (2017). Prioritized Species for Mariculture in India. India: Central Marine Fisheries Research Institute. pp. 221–225. ISBN 978-93-82263-14-2.
  11. ^ a b Barclay, M. C.; Irvin, S. J.; Williams, K. C.; Smith, D. M. (2006). "Comparison of diets for the tropical spiny lobster Panulirus ornatus: astaxanthin-supplemented feeds and mussel flesh". Aquaculture Nutrition. 12 (2): 117–125. doi:10.1111/j.1365-2095.2006.00390.x. ISSN 1365-2095.
  12. ^ a b c Dennis, D. M.; Skewes, T. D.; Pitcher, C. R. (1997). "Habitat use and growth of juvenile ornate rock lobsters, Panulirus ornatus (Fabricius, 1798), in Torres Strait, Australia". Marine and Freshwater Research. 48 (8): 663–670. doi:10.1071/mf97184. ISSN 1448-6059.
  13. ^ a b Moore, R; MacFarlane, Jw (1984). "Migration of the Ornate Rock Lobster, Panulirus ornatus (Fabricius), in Papua New Guinea". Marine and Freshwater Research. 35 (2): 197. doi:10.1071/MF9840197. ISSN 1323-1650.
  14. ^ a b c d Priyambodo, Bayu; Jones, Clive M.; Sammut, Jesmond (15 November 2020). "Assessment of the lobster puerulus (Panulirus homarus and Panulirus ornatus, Decapoda: Palinuridae) resource of Indonesia and its potential for sustainable harvest for aquaculture". Aquaculture. 528: 735563. doi:10.1016/j.aquaculture.2020.735563. ISSN 0044-8486. S2CID 219916367.

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