Advances in reproduction and broodstock management of mangrove crabs (Scylla spp.): A review
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2025-09-25Page views
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The mangrove or mud crab (Scylla spp.) is among the most commercially important aquaculture species owing to its high demand in both local and international markets. However, the rapid expansion of farming activities has resulted in the intensive collection of wild stocks, posing a significant threat to natural populations. To address this, the Southeast Asian Fisheries Development Center Aquaculture Department (SEAFDEC/AQD) has developed basic larval rearing and nursery protocols for the farming of mangrove crabs. Despite these advancements, the hatchery production of seedstock remains insufficient to meet the growing demand for farming. One major challenge is the inconsistent larval quality in hatcheries, which is largely attributed to inconsistent broodstock performance. While numerous studies have explored both internal and external factors influencing the reproductive performance of mangrove crab broodstock in captivity, the findings remain fragmented. This review compiles existing research on mangrove crab maturation, providing a comprehensive overview of advancements in broodstock conditioning. It aims to identify research gaps and encourage further studies to develop improved protocols for managing captive broodstock effectively.
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Pates, G. S., Jr., Maceren-Pates, M., Quinitio, E. T., Parado-Estepa, F. D., & Caballero, P. A. (2025). Advances in reproduction and broodstock management of mangrove crabs (Scylla spp.): A review. Fisheries Science. https://doi.org/10.1007/s12562-025-01920-3
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ArticleISSN
0919-9268; 1444-2906Collections
- Journal Articles [1267]
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Showing items related by title, author, creator and subject.
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Reproductive biology of mud crab Scylla tranquebarica found in Ratnagiri coast, Maharashtra, India
(Rajiv Gandhi Centre for Aquaculture (MPEDA), 2015)The study was carried out to determine the reproductive biology of the mud crab Scylla tranquebarica to provide baseline information that are useful in the seed production activities. Size at first maturation was observed in male crabs with 11 cm carapace width (CW) and in female crabs with 10 cm CW. The highest GSI values in male crabs (6.17) and females (5.12) were observed in October. The maximum number of eggs produced by females was up to 5 million. The egg diameter ranged from 0.69 to 0.76 mm at the heartbeat stage. Embryonic development was classified into five major stages: blastula, gastrula, nauplius pigmentation and heartbeat. The color of newly spawned eggs was orange. As the embryo developed, the color changed from orange to brown and finally to black prior to hatching. The incubation period was 11-13 days and the hatching success was 80%. The temperature and salinity during the incubation period ranged from 27 to 30°C and 30 to 35 ppt, respectively. -
Breeding and culture of the polychaete, Marphysa mossambica, as feed for the mud crab
; ; Mandario, Mary Anne
(Aquaculture Department, Southeast Asian Fisheries Development Center, 2017)
Marine worms (Annelida: Polychaeta) are considered as important food for crustacean broodstock because they contain hormones and correct balance of essential nutrients for reproduction. Marphysa mossambica (Peters, 1854) occurs in muddy coastal areas and is abundant in fish farms where it builds burrows in nutrient-rich sediments. This species encapsulates their eggs and larvae in gelatinous masses (jelly cocoons). It is a multiple spawner, and breeders are repeatedly spawning in tanks. Culture techniques have also been developed and established in tanks. Based on dry weight, cultured M. mossambica contained 62-66% crude protein and 7-12% lipids with levels of highly unsaturated fatty acids (HUFAs) such as arachidonic (20:4n-6), eicosapentaenoic (20:5n-3) and docosahexaenoic acid (22:6n-3) at 0.2-0.5%, 0.2-0.3% and 0.3-0.5%, respectively. Stocks were monitored for the presence of white spot syndrome virus (WSSV) using polymerase chain reaction-based diagnostic methods. The WSSV-free polychaetes mass-produced in tanks were utilized as live food for mud crab S. serrata broodstock. Mud crab broodstock fed natural food (mussel, fish, and squid) with live Marphysa on daily feed rotation produced higher number of crab zoeae, larval survival, total lipids and HUFAs than those fed natural food without live Marphysa. Production of nutrient-rich WSSV-free polychaetes in captivity can play a significant role in supporting crustacean hatcheries that supply seeds to the nursery and grow-out. -
Reproductive performance, lipids and fatty acids of mud crab Scylla serrata (Forsskål) fed dietary lipid levels
; Quinitio, Emilia T.; ; ; (Blackwell Publishing, 2007)
Natural food (NF, control), artificial diets (AD) containing total lipid levels of 10%, 12% and 14% (AD10, AD12 and AD14) and their combinations (AD10+NF, AD12+NF and AD14+NF) were fed for 112 days to pond-sourced eyestalk-ablated mud crab Scylla serrata (625±6.4 g) in tanks in order to determine their effects on reproduction and lipid profiles in broodstock tissues and zoeae. Crabs fed NF had the highest number of spawning followed by crabs fed AD10+NF and AD14+NF. Higher offspring production (number of zoeae) was obtained from crabs fed NF and AD+NF than from AD. As dietary total lipid levels increased, total lipid of broodstock ovaries, hepatopancreas, muscle and zoeae correspondingly increased in which AD+NF promoted higher levels than AD. Increased dietary total lipid levels enhanced lipid classes such as triacylglycerols and phosphatidyl choline levels in zoeae, all higher in crabs fed AD+NF than in AD. The major fatty acids in zoeae, particularly 16:0, 18:0, 18:1n-9 and 20:4n-6, 20:5n-3 and 22:6n-3, were higher in crabs fed AD+NF than in AD, the contents corresponding to broodstock dietary total lipid levels. A 10% total lipid in AD in combination with NF was sufficient to provide the essential lipids in crabs in the improvement of larval production and quality.
