Abstract
Lysmata debelius , commonly known as the Fire Shrimp or Scarlet Cleaner Shrimp is a highly demanded, pricy marine crustacean exported from Sri Lanka. However, information on captive breeding technology has not been reported so far in the country. Currently, majority of L. debelius exported from Sri Lanka, is captured from the Indian Ocean, thus creating a threat of extinction of this indigenous species if not sustainably managed. Even in the global scale, the major obstacle in commercial production of L. debelius is the poor survival of larvae accompanied by the lengthy larval life. Hence, this study was conducted with the objective of developing a captive breeding protocol and a larviculture technology as viable solutions to those problems. Purified natural sea water was used and natural environment was simulated. An effective broodstock diet was identified. Spawning chamber where water was conditioned with the diatom Chaetoceros gracillis was used for spawning. Larviculture was performed in glass aquariums of 108 L. Feeding regime was developed for day 1-4, day 5-12, and day 13 to juvenile stage. Under the newly developed protocol, the duration of metamorphosis of larvae to juveniles was 50-90 days post hatching with the survival rate of 12.7 ± 0.1% to 18.35 ± 0.15%, reporting the lowest larval duration and the highest survival rate reported so far for captive breeding of L. debelius anywhere in the world. Survival of juvenile shrimps was 100%. Experience of larviculture trials over the years was instrumental in developing this successful methodology. These results lay a firm foundation for future research and development of marine ornamental shrimp culture technology in Sri Lanka.
Highlights
Since the trading of marine ornamental species has become a highly profitable and a fastest growing industry in the world, the pressure on wild populations is building up creating a wide array of environmental implications
Captive Breeding of Lysmata debelius in Sri Lanka species being collected from coral reefs (Tlusty, 2002)
Collection of wild marine ornamental species has been estimated to be responsible for 2% of coral reef destruction in the world (McManus et al, 1997)
Summary
Since the trading of marine ornamental species has become a highly profitable and a fastest growing industry in the world, the pressure on wild populations is building up creating a wide array of environmental implications. The marine segment of the aquarium industry still predominantly relies collection of wild specimens amounting to over 90% of the traded. Captive Breeding of Lysmata debelius in Sri Lanka species being collected from coral reefs (Tlusty, 2002). Collection of wild marine ornamental species has been estimated to be responsible for 2% of coral reef destruction in the world (McManus et al, 1997). Live marine animals worth of US$ million 200-330 are traded annually throughout the tropics (Wabnitz, 2003). Developing mariculture technologies as well as improved biological studies will facilitate further growth in the trade of marine ornamental organisms
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