Effect of stocking density of Crassostrea sp. in a multitrophic biofloc system with Litopenaeus vannamei in nursery

In recent years, the coculture of organisms from different trophic levels has been practiced to improve water quality and nutrient consumption. In this context, this study evaluated the effect of Crassostrea stocking density on zootechnical performance and water quality of Litopenaeus vannamei reare...

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Bibliographic Details
Published in:Aquaculture 2021-01, Vol.530, p.735913, Article 735913
Main Authors: Lima, Priscilla Celes Maciel, Silva, Allyne Elins Moreira, Silva, Danielle Alves, Silva, Suzianny Maria Bezerra Cabral, Brito, Luis Otavio, Gálvez, Alfredo Olivera
Format: Article
Language:English
Subjects:
IMTA
Oyster
Shrimp
Vibrio spp
Water quality
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Summary:In recent years, the coculture of organisms from different trophic levels has been practiced to improve water quality and nutrient consumption. In this context, this study evaluated the effect of Crassostrea stocking density on zootechnical performance and water quality of Litopenaeus vannamei reared in a multitrophic biofloc system during the nursery phase. The experimental design was completely randomized with four treatments: control (shrimp monoculture) and three treatments with oysters (3.21 ± 1.26 cm) at densities of 100, 200 and 300 oyster m−2, for 45 days. Water quality, zootechnical performance parameters of shrimp and oysters, proximate composition of microbial flocs, Vibrio count from water, shrimp and oysters samples and total hemocyte counts from shrimp and oyster samples were evaluated. For water quality, multitrophic biofloc system treatments had the lowest amounts of settleable solids, resulting in lower settling chamber use than the control. However, a high density of oysters (300 oysters m−2) increased total ammonia nitrogen and nitrite-N levels, which had maximum values of 4.01 and 4.63 mg L−1, respectively. The final average weight and cumulative growth of oysters were 16.23 ± 3.45 g and 18.91 ± 5.24%, respectively, corresponding to an average growth of 4.07 ± 0.34 mm month−1. In shrimp performance, the higher density treatment (300 oysters m−2) had the lowest values of final weight and yield (0.94 ± 0.03 g and 2.26 ± 0.05 Kg m−3) and the lowest nutritional quality of the microbial floc (14.96% protein and 3.71% lipid). The Vibrio count was significantly lower in all the multitrophic biofloc system treatments compared to the control, with an average reduction of 37.32% in water and 75.69% in shrimp hepatopancreas. Stocking densities of up to 200 oysters m−2 did not affect shrimp growth in the multitrophic biofloc systems evaluated. The multitrophic biofloc system used in this research is a viable option for controlling nitrogen compounds and solids and reducing Vibrio in a shrimp biofloc system during the nursery phase. •Analyzes potential of a multitrophic biofloc system with shrimp and oysters.•Multitrophic biofloc culture with oysters is efficient for maintaining water quality.•Oysters can control total suspended solids and settleable solids.•Changes in the proximate composition of microbial flocs were observed.•Use of adjacent tanks for oysters is efficient for a multitrophic system.
ISSN:0044-8486
1873-5622
DOI:10.1016/j.aquaculture.2020.735913