Litcius/Paper detail

Growth, survival, body composition and amino acid profile of<i>Macrobrachium borellii</i>against the limitation of feeds with different C:N ratios with comments about application in integrated multi‐trophic aquaculture

Débora de Azevedo Carvalho, Paula Sofía Reyes, Verónica Williner, María C. Mora, María Florencia Viozzi, Cristian Javier De Bonis, Pablo Collins

2020Aquaculture Research10 citationsDOI

Abstract

One way to attain more sustainable aquaculture systems is through the species diversification and optimization of the feed input, such as obtained by integrated multi-trophic aquaculture (IMTA). Macrobrachium borellii is a native freshwater prawn that reunites many useful features to be implemented in an IMTA. The aim of this study was to gather information about to which extent M. borellii can survive, grow and maintain body composition against feed limitation. The C:N ratios of feedstuffs were variable in order to simulate a hypothetical scenario of an integrated culture with fish of different trophic habits. The nutritional aspects (amino acid profile and proximal composition) of feeds and prawns were also analysed. Macrobrachium borellii could grow, survive and maintain the proximal content and C:N ratio of its muscle tissue with all feedstuffs but exhibited higher biomass gain and specific growth rate consuming feeds with lower C:N ratios. In this view, the integration of this prawn with omnivore or carnivore fish species should be recommended. The amino acid profile exhibited little variation before and after the experimental period, and was rich in lysine, leucine and arginine. In this study, it was also discussed the nutritional aspects of M. borelliii as a valuable by-product to human and animal nutrition.

Topics & Concepts

BiologyAquacultureTrophic levelPrawnMacrobrachiumOmnivoreFisherySelective breedingCrustaceanFood scienceAnimal scienceZoologyEcologyDecapodaFish <Actinopterygii>PredationAquaculture Nutrition and GrowthAquatic life and conservationCrustacean biology and ecology