Abstract
Moving food production into the urban and peri-urban areas is one way of facilitating a closed-loop approach, integrating waste handling with food production in order to recirculate nutrients and at the same time reduce the use of mined and fossil resources in the production. Using anaerobic digestion as a way of converting urban wastes to an energy source (methane) and a nutrient-rich biodigestate with subsequent use as fertilizer for food production seems like a feasible approach. However, utilizing urban wastes in plant production systems implies some challenges, such as high salinity of the waste, imbalanced composition of nutrients, and abundance of less favorable forms of nitrogen. In a series of experiments, these problems were addressed. Vegetables (Pak Choi) were cultivated hydroponically in a controlled climate. Experiments included increased salinity, elevated levels of nitrite, and different concentrations of the biogas digestate-based nutrient solution, with mineral based solutions as controls. In general, the mineral controls yielded around 50% higher fresh biomass than the organic solutions. However, the quality of the produce with respect to content of secondary metabolites such as vitamins was enhanced when the plants were cultivated with organic nutrient solutions. Increasing the concentration of NaCl to 241 mg Cl L−1 did not negatively affect plant performance. Increasing the concentration of nitrite negatively affected plant growth, with reductions in biomass production by up to 50%. Given this well-functioning nitrification process that did not result in high nitrite concentrations, the use of anaerobic digestates seems feasible for hydroponic production of vegetables.
Highlights
Different approaches for increasing circularity in food production systems are being introduced and evaluated worldwide
Concentrations of N, K, and S were significantly higher in the plant tissue of the plants cultivated with the mineral nutrient solution as compared with organic solution, whereas for Ca, Cu, and Zn, concentrations were higher in the plants fed with organic solution
The occurrence of nitrite in the nutrient solution did not affect plant nitrogen status, even though uptake of nitrite in higher plants have been demonstrated [41]. It is clear from the present study that digestates from Anaerobic digestion (AD) may be used as a sole nutrient source in hydroponic cultivation
Summary
Different approaches for increasing circularity in food production systems are being introduced and evaluated worldwide. The traditional “take, make, and dispose” approach, using mined sources of plant nutrients and disposing community wastes without recycling the plant nutrients, is not sustainable and needs to be replaced with circular procedures [1]. This implies that organic wastes such as food waste need to be utilized as nutrient sources in production systems for human foods. Using organic sources as fertilizers in plant production systems has the benefit of recycling nutrients and decreasing the demand for mined minerals. The nutrient source has to be complete and, to a degree, have a good balance of nutrient composition to enable vigorous growth [6]
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