Microbiota succession, species interactions, and metabolic functions during autotrophic biofloc formation in zero-water-exchange shrimp farming without organic carbon supplements.

Autotrophic bioflocs (ABF) exhibits lower energy consumption, more environment-friendly and cost-effective than heterotrophic bioflocs depending on organic carbon supplements. Whereas ABF has not been widely applied to aquaculture production. Here, ABF successfully performed to control ammonia and nitrite under harmless levels even when carbon-to-nitrogen ratio reduced to 2.0, during 12-week shrimp farming in commercial scale. ABF was mainly dominated by bacteria of Proteobacteria, Bacteroidota, Chloroflexi and eukaryotes of Bacillariophyta, Rotifera, Ciliophora. A notable shift occurred in ABF with the significant decreases of Proteobacteria and Rotifera replaced by Bacteroidota, Chloroflexi, and Bacillariophyta after four weeks. Nitrogen metabolism was synergistically executed by bacteria and microalgae, especially the positive interaction between Nitrospira and Halamphora for ABF nitrification establishment. Metagenomics confirmed the complete functional genes of key bacteria related to the cycling of carbon, nitrogen, and phosphorus by ABF. This study may promote the development application of ABF in low-carbon shrimp aquaculture.