one publication added to basket [8491] | Production and application of on-grown Artemia in freshwater ornamental fish farm
Lim, L.C.; Soh, A.; Dhert, P.; Sorgeloos, P. (2001). Production and application of on-grown Artemia in freshwater ornamental fish farm. Aquaculture Economics and Management 5(3-4): 211-228
In: Aquaculture Economics and Management. The International Association of Aquaculture Economics and Management (IAAEM): Brisbane. ISSN 1365-7305; e-ISSN 1551-8663, more
| |
Keywords |
Aquaculture techniques Aquatic organisms > Food organisms Arthropods > Crustacea > Branchiopoda > Cladocera > Moinidae > Moina Composition > Biochemical composition Cultures > Fish culture Diets Fauna > Aquatic organisms > Aquatic animals > Fish > Ornamental fish Fishery sciences > Economics > Fishery economics > Aquaculture economics Nutritive value Artemia Leach, 1819 [WoRMS] Marine/Coastal; Fresh water |
Authors | | Top |
- Lim, L.C.
- Soh, A.
- Dhert, P., more
- Sorgeloos, P., more
|
|
|
Abstract |
This paper describes a pilot culture system for the production of on-grown Artemia in freshwater ornamental fish farms. The system had 21 culture units, each consisting essentially of three components: an oval-shaped raceway, an air-water lift system and two waste collectors. Using artificial seawater at 20 ppt for culture and at a mean production rate of 3 kg/m3 of water in a 12-day cycle, the system had a production capacity of 8 metric tons of on- grown Artemia a year. Biochemical analyses were preformed to evaluate the nutritional value of the on-grown Artemia against three conventional live feeds, viz. live Artemia nauplii, live Moina and frozen bloodworms. Cost-benefit analysis showed that with a capital investment of US$ 82,000 and an annual cost of production of US$ 81,000, the system achieved a high internal rate of return of 88% over a 10-year period and a short payback period of 1.23 years. The availability of on-grown Artemia would not only offer farmers and exporters a better alternative live food organism for feeding to their fish, but more importantly the possibility of enhancing the fish performance and quality through bioencapsulation. |
|