Abstract
In recent years shrimp culture farms have been one of the most growing sectors in aquaculture. Research has been carried out in order to establish a sustainable production maintaining profit and low environmental impact. Current investigation analyzed source and effluent water produced during the final grow-out phase of the Amazon shrimp (Macrobrachium amazonicum). Twelve natural-bottom ponds, with continuous water flow and stock density comprising 40, 60, 80 and 100 young shrimps/m² were analyzed. The experiment design comprised totally randomized blocks with four treatments and three replications. Microbiological analyses for Escherichia coli was attempted, coupled to physical and chemical analyses for pH, temperature, total suspended solids, total nitrogen, nitrite, nitrate, biochemical oxygen demand and chemical oxygen demand of water supply and pond effluents. Results show that whereas effluent quality complied with current legal rules, there was no significant difference between supply and effluent water for the analyzed variables and between stock densities. Under the conditions investigated and the intensification of culture in the final grow-out phase up to a density of 100 young shrimps/m², the production of M. amazonicum reveals low potential for environmental impact for the variables analyzed.
Highlights
Aquaculture, greatly developed worldwide, is based on sustainability
Results on the microbiological analysis for E. coli (MPN 100 mL-1) were 84.27, 47.27 (D40), 30.16 (D60), 77.14 (D80) and 53.16 (D100). These results failed to show any significant difference between the water supply and the effluents of different treatments and between the latter
PH failed to show any significant difference when water supply is compared to effluents from different treatments and between themselves
Summary
Aquaculture, greatly developed worldwide, is based on sustainability. According to Valenti[1], modern aquaculture has been founded on the concepts of profitable production, social development and preservation of the environment. The three concepts are intrinsically related and interdependent so that the activity will continue to develop. Direct release of agricultural effluents may cause chronic bio-accumulation and eutrophization in receiving water bodies, with high phytoplankton increase and, dissolved oxygen deficit during the night and possible death of local living organisms[2]. Changes in the receiving water bodies go beyond the environmental impacts and, public health issues become relevant. Several studies show that in eutrophic environments there is a predominance of cyanobacteria which, in turn, produces toxins[3]
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