Abstract
OBJECTIVE: Aquaculture generates social and economic benefits, but also causes impacts on the environment. One of the major impacts is the release of untreated effluents into rivers, reservoirs, and lakes, which can affect aquatic populations and communities. In this study, we tested the hypothesis that effluent from aquaculture favors the growth of the floating aquatic macrophyte Salvinia molesta; METHODS: The study was carried out in a non-impacted reservoir (NIR) and in another reservoir (IR) that is impacted by discharges of aquaculture effluents, and lasted for nine months. In each of the reservoirs, we installed four experimental units containing 10 ramets of S. molesta. Monthly, we measured limnological variables of the water and the biomass of S. molesta in both reservoirs; RESULTS: The temperature, turbidity, electrical conductivity, alkalinity, chlorophyll-a, total Kjeldahl nitrogen, and total phosphorus were higher in the IR in all the collection months. At the end of the experiment, the concentrations of total nitrogen and phosphorus in the biomass of S. molesta from the IR were higher than those in plants from the NIR. The estimated support capacity (K) for S. molesta in the NIR was 3.0 ± 0.7 g DM.m-2 and in the IR was 37.4 ± 2.4 g DM.m-2; CONCLUSIONS: It was concluded that the discharge of aquaculture effluent modifies the limnological characteristics of the water of the receiving reservoir, and that the growth of Salvinia molesta is favored by the aquaculture effluent, because of the increases in the concentrations of nitrogen and phosphorus in the water.
Highlights
Aquaculture production generates social and economic benefits; like other productive activities, it causes changes in the environment
A study on competition among floating aquatic macrophytes cultured in effluents from freshwater-shrimp breeding tanks (Macrobrachium amazonicum) found that Pistia stratiotes showed a competitive disadvantage in relation to Eichhornia crassipes (Henry-Silva and Camargo, 2005)
The values of temperature, turbidity, electrical conductivity, alkalinity, chlorophyll-a, total Kjeldahl nitrogen, and total phosphorus were higher in the reservoir impacted by the discharge of effluents (IR) in all the months of the study
Summary
Aquaculture production generates social and economic benefits; like other productive activities, it causes changes in the environment. The effluents contain feces, excreta, unconsumed feed, and plankton, which can alter the limnological characteristics of the receiving waterbodies and accelerate the eutrophication process. This artificial eutrophication, in turn, tends to reduce water quality and limit its use by humans, in addition to decreasing the biodiversity and richness of animal and plant species in the environment Henry-Silva and Camargo (2006) observed an increase in the biomass of species of floating aquatic macrophytes subjected to effluents of Nile tilapia (Oreochromis niloticus). A study on competition among floating aquatic macrophytes cultured in effluents from freshwater-shrimp breeding tanks (Macrobrachium amazonicum) found that Pistia stratiotes showed a competitive disadvantage in relation to Eichhornia crassipes (Henry-Silva and Camargo, 2005)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
