P. Giovannini et Rh. Piedrahita, MODELING PHOTOSYNTHETIC PRODUCTION OPTIMIZATION FOR AQUACULTURE PONDS, Aquacultural engineering, 13(2), 1994, pp. 83-100
In an aquaculture pond, the primary production system serves both as t
he basis for the natural food chain, and as a primary source of dissol
ved oxygen (DO). As the productivity of the pond system and the standi
ng crop of phytoplankton increases, so does the degree of fluctuation
in diel DO concentrations, water quality, and the degree of vertical s
tratifications of the water column. In highly turbid pond systems the
rapid extinction of incident light in the surface layers results in be
nthic zones serving only as a net oxygen sinks, even while the surface
is exposed to full sunlight and is a net oxygen source. As the standi
ng phytoplankton crop is reduced, self shading decreases, as does tota
l food availability and gross production of oxygen, but the stability
of the system, in terms of DO fluctuations and water quality, increase
s. Therefore, in this respect, the trade-off in balancing the pond sys
tem is in terms of gross productive potential versus water-quality sta
bility.