Nitrogen recovery in an integrated system for wastewater treatment and tilapia production

El‐Shafai, Saber A.; El‐Gohary, Fatma A.; Naser, Fayza A.; Steen, Peter; Gijzen, Huub J.

doi:10.1007/s10669-007-9005-z

Cited by 11 publications

(7 citation statements)

References 56 publications

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“…Actually, a better growth rate (1.56% day −1 ) and a lower FCR (1.4 ± 0.4) was observed in the present study than generally reported in other studies (Cruz & Ridha ; Ridha & Cruz ; El‐Shafai et al . ).…”

Section: Discussionmentioning

confidence: 97%

“…However, to avoid accumulation of toxic concentrations of ammonia and nitrite in the water, it is necessary to integrate water treatment systems into recirculating aquaculture systems, such as various physical and biological filter systems (Ridha & Cruz ; Shnel et al . ; Davidson & Summerfelt ; El‐Shafai, El‐Gohary, Nasr, Steen & Gijzen ). The excess nutrients and organic matter produced in the recirculating aquaculture system can also be processed in ‛natural' ecosystems such as constructed wetlands (Lin, Jing & Lee ; Konnerup, Trang & Brix ), but these have relatively large footprints and do not grant any income for the farmer.…”

Section: Introductionmentioning

confidence: 99%

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Use of planted biofilters in integrated recirculating aquaculture-hydroponics systems in the Mekong Delta, Vietnam

Trang

Brix

2012

Aquac Res

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The feasibility of using planted biofilters for purification of recirculated aquaculture water in the Mekong Delta of Vietnam was assessed. The plant trenches were able to clean tilapia aquaculture water and to maintain good water quality in the fish tanks without renewal of the water. NH 4 -N was removed efficiently in the plant trenches, particularly in the trenches with Canna glauca L., probably because of plant uptake and nitrificationdenitrification. Plant uptake constituted 6% of N and 7% of P in the input feed. Approximately 1.0 m 3 of water was needed per kg of fish produced, and 370, 97 and 2842 g fresh aboveground biomass of Ipomoea aquatica Forssk., Lactuca sativa L. and C. glauca, respectively, were produced. The leafy vegetables provide some extra income besides fish products, whereas C. glauca provides nice flowers and contributes to a significant nutrient removal with annual uptake rates of 725 kg N and 234 kg P ha À1 year À1 . This research demonstrates that integrated recirculating aquaculture-hydroponics (aquaponics) systems provide significant water savings and nutrient recycling as compared with traditional fish ponds.

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Section: Discussionmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

Use of planted biofilters in integrated recirculating aquaculture-hydroponics systems in the Mekong Delta, Vietnam

Trang

Brix

2012

Aquac Res

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“…The application of Lemna gibba in a recirculation system decreased the feed conversion, increased protein efficiency ratio, and growth performance of Nile tilapia [28], [29]. Feed conversion in aquaculture industry profoundly needs certain consideration because it affects production cost directly.…”

Section: B Discussionmentioning

confidence: 99%

Phytoremediation by Echinodorus palaefolius to Reduce Nitrogen and Phosphate Waste of Intensive Culture Anguilla bicolor in Recirculation Aquaculture Systems

Handajani¹,

Widanarni²,

Budiardi³

et al. 2021

Int. J. Adv. Sci. Eng. Inf. Technol.

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Increase in aquaculture activities leads to a negative impact on the environment. Thus, phytoremediation through recirculation aquaculture system becomes one effort that can be applied. The study aimed to evaluate the administration of Echinodorus palaefolius (water jasmine plant) through increasing the capacity of plants as phytoremediators in reducing the waste of intensive culture eel. This study used a completely randomized design with three treatments of E. palaefolius density and repeated 3 times, as treatments were 1.04 g L -1 (Ep1), 2.08 g L -1 (Ep2), and 3.13 g L -1 (Ep3). The initial average eel weight was 8.3 ± 0.13 g, with a stocking density of 4 g L -1 . The results showed a significant difference in the effect of E. palaefolius density on nutrient removal efficiency, as well as performance on eel and plant growth. The highest efficiency of nutrient removal in E. palaefolius with a density of 2.08 g L-1, nitrite (49.65 ± 4.52) %, nitrate (59.62 ± 1.89) %, phosphate (60.88 ± 1. 03) %, and TAN (46.03 ± 0.63) %. At E. palaefolius density 2.08 g L-1 produced eel specific growth rates (0.99 ± 0.02) % lowest feed conversion (1.97 ± 0.03), and highest increase of E. palaefolius biomass (262, 33 ± 2.60 g with daily growth 4.37 ± 0.43 g day-1). Thus, it can be concluded that the density of E. palaefolius 2.08 g L-1 produces the best efficiency in removing nutrients, the growth performance of eels and plants.

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“…It is known that when nutrients from feeds are directly used by fish, the recovery rate is higher than when fertilisers are used (Table 4). Tacon et al (1995) in [44], found that supplementing feed in semi-intensive aquaculture farms improved N recovery, ranging from 5% to 25%, in fish. From Table 4, it can be argued that rabbit droppings must be better used by fish ponds than many other inputs to ensure a better environment for Nile tilapia growth.…”

Section: N and P Recovered By Harvested Productsmentioning

confidence: 99%

Nutrient Flow in an Integrated Rabbit–Fish–Rice System in Rwanda

2021

Aquac Fish Stud

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Earlier aquaculture enterprises are either extensive or semiintensive fish farms, integrated to agriculture (crop and/or livestock) or not (that is stand-alone enterprises). The later are intensive systems or recirculated aquaculture systems (RAS) which, when operating at larger scale, are risky ventures and are not suitable for resourcepoor farmers in developing countries [2]. They require formulated fish feeds and operate using high level energy, and high investments.

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Nitrogen recovery in an integrated system for wastewater treatment and tilapia production

Cited by 11 publications

References 56 publications

Use of planted biofilters in integrated recirculating aquaculture-hydroponics systems in the Mekong Delta, Vietnam

Use of planted biofilters in integrated recirculating aquaculture-hydroponics systems in the Mekong Delta, Vietnam

Phytoremediation by Echinodorus palaefolius to Reduce Nitrogen and Phosphate Waste of Intensive Culture Anguilla bicolor in Recirculation Aquaculture Systems

Nutrient Flow in an Integrated Rabbit–Fish–Rice System in Rwanda

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