Assessment of benthic macroinvertebrates at Nile tilapia production using artificial substrate samplers.

M S G Moura E Silva,M E Losekann,T S Graciano,A J B Luiz

doi:10.1590/1519-6984.02815

Abstract

Biomonitoring is a cheap and effective tool for evaluation of water quality, and infer on the balance of aquatic ecosystems. The benthic macroinvertebrates are bioindicators sensitive to environmental changes, and can assist in detecting and preventing impacts such as organic enrichment and imbalance in the food chain. We compared the structure of benthic communities on artificial substrate samplers located in places near and far from net cages for production of Nile tilapia (Oreochromis niloticus). Samplers were manufactured with nylon net, using substrates such as crushed stone, gravel, loofah and cattail leaves. Samples were collected after 30 days of colonization, rinsed and then the specimens were identified and quantified. The following metrics were calculated: richness of Operational Taxonomic Units, Margalef richness, abundance of individuals, Shannon index and evenness index. The macrobenthic community structure was strongly modified according to the proximity of the net cages. Metrics showed significant differences (p < 0.05) between near and distant sites, for both periods (dry and rainy seasons). The position of the samplers significantly affected the structure of macroinvertebrate community, as near sites showed higher values for the community metrics, such as richness and diversity. Near sites presented a larger number of individuals, observed both in the dry and rainy seasons, with a predominance of Chironomidae (Diptera) in the dry season and Tubificidae (Oligochaeta) in the rainy season.

Highlights

Aquaculture is the farming activity that had the highest rate of growth in recent years when compared to other categories of livestock such as pig, cow, and chicken
The objective of this study was to know the composition of the assembly of benthic macroinvertebrates in sites directly and indirectly influenced by farming cages of Nile tilapia (Oreochromis niloticus), in Rio do Corvo, located at Rosana Reservoir, Paraná State, Brazil
Changes in water quality resulting from processes of natural evolution or anthropogenic activities may cause disruption and are manifested by changes in the structure and dynamics of biological communities, as well as by the marked reduction in aquatic biodiversity

Summary

Introduction

Aquaculture is the farming activity that had the highest rate of growth in recent years when compared to other categories of livestock such as pig, cow, and chicken. Besides that, it stands as one of the best alternatives to meet the growing demand for aquatic food (FAO, 2010). When proper management is lacking, the deterioration of water quality resulting from intensive farming can compromise the stability of the ecosystem causing disturbances to the physical and chemical environments, and changes in the structure and dynamics of biological communities, manifested by marked reduction in aquatic biodiversity. Benthic macroinvertebrates stand out as an important component of the substrates of rivers and lakes, playing a key role in the dynamics of nutrients, transformation of matter, and flow of energy (Silveira and Queiroz, 2006), and according to Matsumura-Tundisi (1999), aquatic invertebrates are those that best respond to changing environmental conditions

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Conclusion