All water quality parameters ( Tabl

All water quality parameters ( Table 1 ; Fig. 1 ) remained within
the appropriate range for the hatchery stage of L. vannamei.
These parameters were similar in the conventional production
system with high rates of daily exchange (control), and the BFT
production systems with both sources of organic carbon (dextrose
and molasses). Dissolved oxygen and pH ( Table 1 ) were statistically different between groups; however, these differences
were not large enough to affect cultivation. When heterotrophic
bacteria use ammonia for growth, the addition of carbon results
in an increase in the respiration rate of the growing community.
This reduces the amount of dissolved oxygen in the water of
bioflocs systems ( Moriarty, 1997 ). A decrease in pH, relative
with control, was also observed by Emerenciano et al. (2012)
in the culture water of Farfantepenaeus paulensis as postlarvae.
As bacterial respiration increased, so did CO 2 concentration due
to bacterial respiration. This resulted in a corresponding decrease
in pH. In bioflocs systems, alkalinity is also reduced by a small amount of inorganic carbon use ( Ebeling et al., 2006; Furtado et
al., 2011 ). This reduction in alkalinity might promote a decrease
in pH (Xu and Pan, 2012 ). However, we did not observe any
alkalinity reduction in the culture water of the bioflocs groups
in the present study ( Table 1 ).