Abstract
Juvenile giant clams (Hippopus spp. and Tridacna spp.) are highly valuable and popular in the aquarium trade due to their brightly colored mantles with various patterns. Giant clams are unique bivalves in that they possess symbiotic zooxanthellae (Symbiodinium). A previous study by the authors demonstrated the feasibility of culturing giant clams in aquaculture effluent. Among the four species tested (Tridacna derasa, T. gigas, T. maxima, and T. squamosa), T. derasa was the most suitable for culturing in effluent. The present study compared the growth, survivorship, and condition indexes of T. derasa (mean initial shell length about 83 mm) cultured in fish culture effluent or seawater for six months. The clams grew significantly faster (1.29 vs. 0.93 mm shell length/month) and had marginally significant (p = 0.076) higher survivorship (94.1% vs. 77.7%) than those in control seawater. Total (shell and tissue) and tissue weight indexes (g/mm shell length), and mitotic index (% dividing zooxanthellae) were similar between the treatment and control clams; whereas zooxanthellae density (number of zooxanthellae/g clam tissue) of the clams in the effluent tanks was 2.5 times higher than that in control tanks.
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