Cobia culture in Taiwan:
current status and problems
I. Chiu Liao, Ting-Shih Huang, Wann-Sheng Tsai,
Cheng-Ming Hsueh, Su-Lean Chang, E.M. Leaρo-2004
Aquaculture, 237(1-4): 155-165
Abstract:
Cobia, Rachycentron canadum, is a widely
distributed species from the Indo-Pacific waters to the southern Atlantic
Ocean. In Taiwan, it is an indigenous and an ideal species for cage culture.
Due to its high market value in both domestic and international markets, the
technology for its culture has rapidly developed in the past few years.
These include mass propagation through natural spawning of captive
broodstocks, larval rearing techniques, nursery production in tanks, ponds
and nearshore cages, and grow-out culture in offshore cages. Reproduction in
captivity is relatively easy because sexual maturity often occurs within 2
years of culture. Spontaneous spawning occurs year around at water
temperatures of 2327 °C, with peak during spring and autumn. Fertilized
eggs hatch within 2137 h at water temperature of 3122 °C. Larval
growth is fast, and larvae are vitally robust and environment tolerant
compared to other marine fishes. Fry can be mass-produced in outdoor ponds
at relatively low cost. Weaning of fry from 20 days old onwards to pellet
feeds is feasible. Nursery rearing from 1030 to 1000 g can be done in
either outdoor ponds or nearshore cages. Major diseases affecting cobia
include bacterial (pasteurellosis, vibriosis and streptococcosis), parasitic
(myxosporidea, Trichodina, Neobenedenia and Amyloodinium
infestations), and viral (lymphocystis) ones.
In recent years, intensive and super-intensive
recirculation systems for nursery (from 2 to 100150 g) were developed
with survival rates of more than 90%. In nursery and grow-out offshore
cages, 100600 g cobia were cultured within 11.5 years when they
reached 68 kg for export to Japan, or 810 kg for the domestic market.
Currently, around 80% of marine cages in Taiwan are devoted to cobia
culture. However, some problems still exist in cobia culture that needs to
be addressed and solved to increase production. These include high mortality
due to stress during transport from nursery tanks/inshore cages to grow-out
cages and diseases during nursery and grow-out culture resulting in low
survival, and consequently poor harvest.
(National Taiwan Ocean University, Keelung 202,
Taiwan, e-mail: ichiu619@yahoo.com)