Abstract
Aquaponics is a circulating and sustainable system that combines aquaculture and hydroponics and forms a symbiotic relationship between fish, plants, and microorganisms. We hypothesized that feed alone could support plant growth, but the symbiosis with fish adds some beneficial effects on plant growth in aquaponics. In this study, we created three closed culture systems, namely, aquaponics, hydroponics without nitrogen (N) and phosphorus (P), and aquaculture, and added the same amount of feed containing N and P to all the treatments in order to test the hypothesis. Accumulation of NO3− and PO43− was alleviated in aquaponics and hydroponics as a result of plant uptake. Lettuce plants grown in aquaponics grew vigorously until 2 weeks and contained a constant level of N in plants throughout the production period, whereas those in hydroponics grew slowly in the early stage and then vigorously after 2 weeks with a late increment of N concentration. These results suggest that catfish help with the faster decomposition of the feed, but, in hydroponics, feed can be slowly dissolved and decomposed owing to the absence of the fish. The bacterial community structures of the culture solution were investigated using 16S rRNA gene amplicon sequencing. At the class level, Actinobacteria, Alphaproteobacteria, Betaproteobacteria, and Gammaproteobacteria were the major microbial groups in the solutions. Aquaponics prevented the pollution of tank solution and maintained a higher water quality compared with hydroponics and aquaculture, suggesting that aquaponics is a more sustainable cultivation system even in a small-scale system.
Highlights
Aquaponics (AP) is a combined system of growing aquatic organisms and plants symbiotically, in which the effluent of aquaculture (AC) undergoes microbial transformations to be used as a source of nutrients for plant growth, while nutrient absorption from plants remediates water for aquaculture [1,2,3,4]
Nutrition and EC of Solutions In Exp. 1, NO3 − increased in AC and AP, and peaks were found at 4 weeks after transplanting (WAT), while it was lower in HP (Figure 1a)
K+ gradually decreased in AP and HP, but it increased at 6 WAT in AC (Figure 1c)
Summary
Aquaponics (AP) is a combined system of growing aquatic organisms and plants symbiotically, in which the effluent of aquaculture (AC) undergoes microbial transformations to be used as a source of nutrients for plant growth, while nutrient absorption from plants remediates water for aquaculture [1,2,3,4]. Senescent phytoplankton, fish fecal solids, and uneaten feed settle from the water column to the sediment in AC [5]. Through ammonia-oxidizing and nitrifying bacteria; plants uptake them as nutrients. This type of AP system contributes to reducing the environmental impact by recycling nitrogen (N) and phosphorus (P) [6]. Aquaponics is considered as a sustainable agricultural method advanced by the concepts of minimal usage of water compared with traditional agricultural systems [7]
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