Abstract
In the zero-water exchange shrimp culture pond maintained with the application of indigenous bioaugmentor, low levels of total ammonia–nitrogen were reported, indicating the relevance of indigenous microbial communities. Sediments (0–5 cm layer) were sampled from the pond (85th day) and the bacterial and archaeal communities; specifically, the ammonia oxidizers (ammonia-oxidizing bacteria, ammonia-oxidizing archaea, and anaerobic ammonia-oxidizing bacteria) in the sediment metagenome of the pond were analysed using the 16S rRNA and functional genes. Bacterial and archaeal 16S rRNA genes showed the relative abundance of Delta-Proteobacteria and Bacteroidetes groups performing sulphur respiration and organic matter degradation, archaeal groups of anaerobic sulphur respiring Crenarchaeotae, and chemolithoautotrophic ammonia oxidizers belonging to Thaumarchaeota. The presence of these diverse bacterial and archaeal communities denotes their significant roles in the cycling the carbon, nitrogen, and sulphur thereby bringing out efficient bioremediation in the bioaugmented zero-water exchange shrimp culture pond. Similarly, the functional gene-specific study showed the predominance of Nitrosomonas sp. (ammonia-oxidizing bacteria), Nitrosopumilus maritimus (ammonia-oxidizing archaea), and Candidatus Kuenenia (anaerobic ammonia-oxidizing bacteria) in the system, which points to their importance in the removal of accumulated ammonia. Thus, this study paves the way for understanding the microbial communities, specifically the ammonia oxidizers responsible for maintaining healthy and optimal environmental conditions in the bioaugmented zero-water exchange shrimp culture pond.
Highlights
Zero-water exchange (ZWE) shrimp culture ponds are environmentally sustainable, bio-secured systems developed as an alternative to traditional open aquaculture production
Prior to the harvest (85th day), when there were maximum nutrient and biomass load, an interesting observation was the low level of total ammonia–nitrogen (TAN)
The low level of TAN was attained by the microbial degradative processes being carried out by the microbial community in the sediment of the ZWE pond
Summary
Zero-water exchange (ZWE) shrimp culture ponds are environmentally sustainable, bio-secured systems developed as an alternative to traditional open aquaculture production. Water quality is maintained through frequent exchange of water [110]. Frequent release of water into the nearby aquatic systems often causes eutrophication due to excess nutrient contents [93], and the uptake of water for culturing from the neighbouring water bodies leads to horizontal transfer of pathogens causing subsequent disease outbreak and mortality of shrimp [24]. ZWE aquaculture ponds have been developed to abate the negative impacts of open shrimp farming on the environment.
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