Performance of WSSV-infected and WSSV-negative Penaeus monodon postlarvae in culture ponds

In a survey of 27 Penaeus monodon culture ponds stocked with postlarvae (similar to PL10) at medium density (similar to 40 shrimp m(-2)), single-step nested white spot syndrome virus (WSSV) PCR was used to measure the WSSV infection rates in the shrimp populations within 1 mo after stocking. Seven ponds were initially WSSV-free, and the shrimp in 5 of these were harvested successfully. In the ponds (n = 6) where detection rates were higher than 50 %, mass mortality occurred during the growth period, and none of these ponds was harvested successfully. In a subsequent study, P. monodon brooders were classified into 3 groups according to their WSSV infection status before and after spawning brooders that were WSSV-positive before spawning were assigned to group A; spawners that became WSSV-positive only after spawning were assigned to group B; and group C consisted of brooders that were still WSSV-negative after spawning. WSSV screening showed that 75, 44 and 14 %, respectively, of group A, B and C brooders produced nauplii that were WSSV-positive. Most (57 %; 16/28) of the brooders in group A produced nauplii in which the WSSV prevalence was high (> 50 %). When a pond was stocked with high-prevalence nauplii from 1 of these group A brooders, an outbreak of white spot syndrome occurred within 3 wk and only similar to 20 % of the initial population survived through to harvest (after 174 d). By contrast, 2 other ponds stocked with low-prevalence and WSSV-negative nauplii (derived respectively from 2 brooders in group B), both had much higher survival rates (70 to 80 %) and yielded much larger (similar to3 x by weight) total harvests, We conclude that testing the nauplii is an effective and practical screening strategy for commercially cultured P. monodon.