Sustainable Marine Aquaponics: Effects of Shrimp to Plant Ratios and C/N Ratios

Chu, Yu-Ting; Brown, Paul B.

doi:10.3389/fmars.2021.771630

Cited by 6 publications

(11 citation statements)

References 52 publications

(71 reference statements)

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“…In the interim between experiments, evaporative losses were replaced with well water, constant aeration was provided to all subsystems and probiotics (EZ-Bio, Bacillus spp., Zeigler Brothers, Gardners, PA, United States) were added weekly at a dose of 10 ppm EZ-bio once a week. Once shrimp moved into experimental units, additional doses of probiotics were added every other day in the 1st week, twice per week in the 2nd week, and once per week beginning in the 3rd week continuing until the end of the experiment (Crab et al, 2010;Chu, 2014;Chu and Brown, 2021b). Molasses (Hawthorne Gardening Co., Vancouver, WA, United States) was provided as an organic carbon source for the adjustment of C/N ratio.…”

Section: Experimental Design and System Managementmentioning

confidence: 99%

“…This result aligned with the findings reported by other researchers (Otoshi et al, 2011;Cerozi and Fitzsimmons, 2016;Chu and Brown, 2021a,b). TAN can be stabilized and remain below 0.1 mg/L within 3 weeks in new systems via inoculating probiotics on a regular basis (Cerozi and Fitzsimmons, 2016;Chu and Brown, 2021b). demonstrated that the concentrations of TAN and NO 2 − remained under 0.51ppm and 1.25 mg/L, respectively, by introducing biofloc from an established system prior to the experiment.…”

Section: Water Qualitymentioning

confidence: 99%

“…The objective of this study was evaluation of varying concentrations of dietary crude protein in practical diets fed to shrimp raised in biofloc aquaponic saltwater systems. (Chu and Brown, 2021b). Briefly, each aquaponic system had 113.6 L aquaculture tank, a 102.2 L hydroponic tank, and an 18.9 L biofilter tank.…”

Section: Introductionmentioning

confidence: 99%

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Optimal Dietary Crude Protein in Commercial Feeds for Shrimp and Halophytes in Marine Aquaponic Biofloc Systems

Chu

Brown

2022

Front. Mar. Sci.

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Formulated diets for animals is the primary source of nutrients in aquaponic systems that need to maintain beneficial bacteria as well as for plants. Dietary protein is one of the expensive macronutrients in fish diets, especially when fishmeal is used, and it is the source of nitrogen (N) for other biotic components. Biofloc has the potential to serve as the supplement diet for shrimp and reduce the need of expensive protein. However, it is not clear if low dietary protein will be adequate to support the three organisms (animals, plants, and bacteria) in an aquaponic system operated with biofloc technology. The aim of the present study was to investigate the effect of shrimp feed with different protein concentrations (30, 35, or 40%) on water quality and the growth performance of Pacific whiteleg shrimp (Litopenaeus vannamei) and three edible halophytic plants (Atriplex hortensis, Salsola komarovii, and Plantago coronopus) in biofloc-based marine aquaponics. The experiment was conducted for 12 weeks, the plants were harvested and seedlings transplanted every 4 weeks. Dietary protein content did not influence shrimp growth in the current study, indicating that feeds with lower protein concentrations can be used in biofloc-based marine aquaponic systems. During the early and mid-stages of cultivation, plants grew better when supplied diets with higher protein concentration, whereas no differences were observed for later harvests. Hence, for maximum production with mature systems or in the scenario of high concentration of nitrate, providing a higher protein concentration feed in the early stages of system start-up, and switching to a lower protein concentration feed in later stages of cultivation was recommended.

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Section: Experimental Design and System Managementmentioning

confidence: 99%

Section: Water Qualitymentioning

confidence: 99%

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Optimal Dietary Crude Protein in Commercial Feeds for Shrimp and Halophytes in Marine Aquaponic Biofloc Systems

Chu

Brown

2022

Front. Mar. Sci.

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“…Nutrient flows in aquaponics varies as a function of feeding frequency and regime, feed amounts, animal to plant ratio, hydraulic loading rate, subsystem ratio, and pH [9][10][11][12][13][14][15][16]. Environmental pH plays a critical role in nearly all chemical reactions in water, and influences physiological functioning of aquatic animals, plants, and microorganisms [4,13,[17][18][19][20].…”

Section: Introductionmentioning

confidence: 99%

“…the probability of a pH conundrum in marine or brackish water aquaponic systems may be less than in freshwater systems. Nevertheless, Chu and Brown [9,21] mentioned that pH was a possible factor influencing growth of the halophytes they evaluated. The ideal range of pH for an integrated system that includes aquatic animals, plants and bacteria in marine aquaponics remains largely unknown and may significantly influence compatibility of biotic subsystems and significantly influence outputs.…”

Section: Introductionmentioning

confidence: 99%

Environmental pH and Supplemental C Exert Little Impact on Shrimp, but Profound Impacts on Plants in Marine Aquaponics

Chu¹,

Yang²,

Huang³

et al. 2022

Preprint

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pH is the major factor that makes producers in aquaponics frustrated, since the main three organisms (aquatic animal, plant, and microbes) in the system with different preferences. Yet, amending the growing environment with additional C is a potential method to improve the growth of shrimp and plants as well as the establishment of microbe. A detailed study of the effects of pH and additional C on aquaponics under saline conditions has not been investigated. In this study, the effect of pH and additional C on the growth performance of shrimp (Litopenaeus vannamei) and five edible plants in marine aquaponic systems using the nutrient film technique (NFT) was evaluated. The results indicated that at both pH 6.5 treatments, plants grew better; nevertheless, the growth performance of plants in pH 7.5 with additional C was improved and showed a similar yield to lower pH treatments. On the other hand, shrimp growth was little affected by pH and additional C. A higher impact of imbalanced ionic composition on shrimp performance may have contributed to this trend. Hence, we suggest that only if the ionic composition is managed can make RO water a suitable source of water for shrimp-based aquaponic. In spite of this, more research is required.

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The synergistic effect of abiotic microbes in a standardized aquaponics system for the production of high-value fish and plant biomass

Jayaprakash,

Muthuselvam,

Devi

et al. 2024

Ecohydrology & Hydrobiology

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Sustainable Marine Aquaponics: Effects of Shrimp to Plant Ratios and C/N Ratios

Cited by 6 publications

References 52 publications

Optimal Dietary Crude Protein in Commercial Feeds for Shrimp and Halophytes in Marine Aquaponic Biofloc Systems

Optimal Dietary Crude Protein in Commercial Feeds for Shrimp and Halophytes in Marine Aquaponic Biofloc Systems

Environmental pH and Supplemental C Exert Little Impact on Shrimp, but Profound Impacts on Plants in Marine Aquaponics

The synergistic effect of abiotic microbes in a standardized aquaponics system for the production of high-value fish and plant biomass

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