Dissolved
oxygen fluctuations in organically and inorganically fertilized walleye (Stizostedion
vitreum) hatchery ponds
R.J.
Middleton, B.C. Reeder-2003
Aquaculture, 219(4): 337-345
Abstract:
We
compared autotroph productivity and fish production in walleye (Stizostedion
vitreum) hatchery ponds under two fertilization regimes. Three ponds
were fertilized with inorganic N and P (experimental) and three ponds were
fertilized with a combination of organic chopped hay, soybean meal, alfalfa
meal, and inorganic N and P (control). Daily dissolved oxygen (DO) changes
were monitored at three depths. Chlorophyll a concentrations and
Secchi depth measurements were taken twice per week. Mean DO concentrations
were significantly lower (P<0.0001, n=684) in the control
ponds. Average productivity, calculated by either dawn–dusk–dawn DO
changes, or diel DO changes measured at 15-min intervals, were not
significantly different between the treatments (P>0.05) however,
chlorophyll a concentrations were significantly higher in control
ponds (19.21 vs. 7.09 µg/l in experimental ponds). Secchi depth did not
correlate with algal productivity or biomass. Higher alkalinity did not
increase algal production or biomass. Even with cooler than normal
temperatures, one of the control ponds required aeration to avoid a fish
kill. Overall, fish yield and survival were higher in control ponds,
suggesting that some other factors associated with organic fertilizers
(increased protozoan production, slower release of nutrients) may make them
necessary for optimum yields. Adjusting the ratio of organic to inorganic
fertilizer could reduce cost and anoxia without reducing fish production.
(Minor
Clark Fish Hatchery, 120 Fish Hatchery Road, Morehead, KY 40351, USA, e-mail
of B.C. Reeder: b.reeder@morehead-st.edu)