Reuse of Water and Nutrients in Soilless Plant Culture
Doctoral thesis
Published version
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https://hdl.handle.net/11250/3062332Utgivelsesdato
2023Metadata
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Ezziddine, M. (2023). Reuse of Water and Nutrients in Soilless Plant Culture [Doctoral dissertation]. University of Agder.Sammendrag
This dissertation proposes two approaches to mitigating the dependency of soilless culture on scarce mineral fertilisers. The first approach aims to increase the lifetime of the NS used in recirculating hydroponic systems, while the second approach presents a holistic method for the treatment and use of aquacultural sludge as NS for soilless growth systems. This method includes two steps: nutrient mobilisation using aerobic digestion (AD), followed by solids precipitation using the biopolymer chitosan as the flocculant. The recovered NS was used to grow lettuce in a recirculating hydroponic system.
The outcome of the first approach showed that NS can be used for several weeks before discharge, even though many growers discard recycling NS at weekly intervals. In this study, NS was reused for 6 weeks, corresponding to a production of 1 kg lettuce per 10 litres tank volume of NS, in a closed hydroponic system without compromising the yield and apparent quality of lettuce.
The results from the second approach indicated that AD is an efficient method to mobilise nutrients in aquacultural waste to concentrations close to or exceeding the mineral levels recommended for soilless growth systems. In addition, the biopolymer chitosan proved to be an efficient and safe alternative for solids removal from aerobically digested aquacultural waste. The recovered NS was successfully used for lettuce production in a closed hydroponic system, with yield and quality comparable to those of lettuce grown with conventional NS. The results obtained clearly show the possibility of substituting synthetic fertilisers with recovered NS from aquaculture waste, which can be considered an alternative and resource-efficient fertilisation strategy for soilless culture systems.
Both approaches are described in this dissertation, while detailed explanations of the materials and methods used, as well as the obtained results, can be found in the appended papers.
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Paper I: Ezziddine, M., Liltved, H. & Seljasen, R. (2021). Nutrient solution dynamics and yield of lettuce (Lactuca sativa) in an EC-controlled recirculating hydroponic system. Acta Horticulturae, 1305, 407–414. https://doi.org/10.17660/ActaHortic.2021.1305.53. Submitted version. Full-text is available in AURA as a separate file.Paper II: Ezziddine, M. & Liltved, H. (2021). Quality and Yield of Lettuce in an Open-Air Rooftop Hydroponic System. Agronomy, 11(12): 2586. https://doi.org/10.3390/agronomy11122586. Published version. Full-text is available in AURA as a separate file: https://hdl.handle.net/11250/2839352.
Paper III: Ezziddine, M. & Liltved, H. (2021). Nutrients recovery from aquaculture waste for use as fertilizer in soilless growth systems. Acta Horticulturae, 1305, 399–406, https://doi.org/10.17660/ActaHortic.2021.1305.52. Submitted version. Full-text is available in AURA as a separate file.
Paper IV: Ezziddine, M., Liltved, H. & Homme, J. M. (2020). A method for reclaiming nutrients from aquacultural waste for use in soilless growth systems. Water Science & Technology, 81(1), 81–90. https://doi.org/10.2166/wst.2020.079. Accepted version. Full-text is available in AURA as a separate file: .
Paper V: Ezziddine, M., Liltved, H. & Seljåsen, R. (2021). Hydroponic Lettuce Cultivation Using Organic Nutrient Solution from Aerobic Digested Aquacultural Sludge. Agronomy, 11(8): 1484. https://doi.org/10.3390/agronomy11081484. Published version. Full-text is available in AURA as a separate file: https://hdl.handle.net/11250/2788717.