There is an urgent need in aquacult

There is an urgent need in aquaculture to develop disease control strategies. Disease outbreaks are being increasingly recognized as a significant constraint on aquaculture production and trade, affecting the economic development of the sector in many countries (Kannapiran et al., 2009). The development of antibiotic resistance has also become a matter of growing concern. The massive use of antimicrobials for disease control encourages the natural emergence of bacterial resistance and could pose a particularly significant hazard to human health (Verschuere et al., 2000).

One promising method of managing bacterial diseases that does not use antibiotics is the use of microalgae. There is accumulating evidence that microalgae are effective at inhibiting a wide range of pathogens. Studies made by Murakami et al. (1988) proved that microalgae have the capacity to suppress bacteria and virus proliferation. Commercially spray-dried preparation of unicellular alga, Tetraselmis suecica, used as feed for penaeids and as feed-additive for salmonids reduced level of bacterial diseases ( Austin and Day, 1990 and Austin et al., 1992).

Supamattaya et al. (2005) showed that shrimps fed with 300 mg of the Dunaliella extract per kg diet exhibited higher resistance to WSSV infection and became more tolerant to stress. Therefore, Chaetoceros calcitrans, a unicellular floating marine diatom and one of the widely used, available, and easily cultivable phytoplankton species as live food for penaeid larvae and many other juvenile aquaculture organisms could be explored for such potentials.

Hatcheries, for over 20 years now, still use Chaetoceros calcitrans as live feeds for their production ( Brown, 2002). It is one of the most common unicellular and eukaryotic diatoms used for prawn larval rearing (Scala and Bowler, 2001). The metabolites percentage dry weight of Chaetoceros calcitrans cell is composed of 35% protein, 6.6% carbohydrates and 6.9% fats ( Parsons et al., 1961). This proximate analysis in dry matter confirmed the potential of Chaetoceros calcitrans as larval food.

Several species of Chaetoceros contain biotechnologically relevant products, such as thiamine ( Brown et al., 1997) antibiotics, enzyme inhibitors, pharmacology active compounds and toxins (Lincoln et al., 1990). The study of Lio-Po et al. (2005) has shown that Chaetoceros calcitrans has an antibacterial action against luminous Vibrio and Delaporte et al. (2003) have shown its immunoenhancer potentials

This study is conducted to provide a scientific basis for the use of the microalgae, Chaetoceros calcitrans as an alternative to antibiotics in the treatment of fish/shrimp diseases, particularly on luminous vibriosis. Vibrio harveyi is one of the causative agents of luminous bacterial diseases ( Lavilla-Pitogo, 1995 and Nithimathochoke et al., 1995). Serious outbreaks of vibriosis in hatcheries and grow-out ponds are potentially devastating with mortalities of up to 100% (Lightner et al., 1992).

The effects of supplementation of diets with freeze-dried Chaetoceros calcitrans to control Vibrio harveyi infection are evaluated through the immune enhancement potential, and on disease resistance of juvenile Penaeus monodon. Total lipid and fatty acid profile of Chaetoceros calcitrans is also analyzed to determine the presence of polyunsaturated fatty acids (PUFAs) considered important in the treatment and prevention of diseases