2.1 Removal of nitrogen from flound

2.1 Removal of nitrogen from flounder aquaculture
wastewater
Samples of wastewater were collected from different stages
of flounder aquaculture fishery in Dalian, China to assess
the potential of algae cultivation. The characteristics of
wastewater in terms of nitrogen and phosphorus are shown
in Table 1.
Figure 1 depicts the time course of removal nitrogen
when the microalgae cultivated in flounder aquaculture
wastewater taken from the initial stage and the final stage.
The removal rates of NH4
+
-N, NO2
−
-N, NO3
−
-N and total
nitrogen reached 0.12, 0.04, 0.35 and 0.51 mg/(L·day)
in the 4-day culture, respectively. The concentration of
total nitrogen was reduced from 2.39 to 0.32 mg/L (87%
removal efficiency), while the removal rates of NO3
−
-N
reached 3.35 mg/(L·day) in the 14-day culture and the
concentration of nitrogen was reduced from 47.8 to 0.82
mg/L (98% removal efficiency), respectively.
2.2 Removal of phosphate from flounder aquaculture
wastewater
The time course of removal phosphate is shown in Fig.
2 when the microalgae cultivated in flounder aquaculture
wastewater taken from the initial stage and the final
stage. As shown Fig. 2a, the concentration of PO4
3−
-P
was drastically reduced from 0.213 to 0.005 mg/L (95%
removal efficiency) in the 4-day culture and from 8.8 to
0.05 mg/L (99% removal efficiency) in the 14-day culture.
The removal rate of PO4
3−
-P reached 0.05 mg/(L·day)
in the 4-day culture and 0.63 mg/(L·day) in the 14-day
culture. The removal of phosphorous was probably due
to both algal metabolic uptake and phosphate precipitation
(Chinnasamy, 2010a).
2.3 Algae growth in wastewater media
The effects of wastewater nutrient on the growth of P.
subcordiformis are shown in Fig. 3. The growth was rapid
in the beginning and remained constant after 4 days. The
biomass of algae was 1.5 times in the 4-day culture and
8.9 times in the 14-day culture higher than the initial level.
The result indicated that phosphate and nitrate are taken