In this research, the performance of biochar-enhanced agricultural application of food waste liquid digestate for celery cultivation was investigated to reveal its utilization potential and environmental impacts. Liquid digestate demonstrated a good agronomic effect, with a significant fertilization efficiency of 42.3 % during celery growth. With liquid digestate addition (270 t/ha), the same level of harvested celery yield of 15,345 kg/ha was achieved compared with chemical fertilizer utilization of 15,495 kg/ha. Based on the same nitrogen input, the liquid digestate application increased the sugar content of the harvested celery (7 %-15 %) while decreasing the nitrate content (29 %-45 %). The harvested celery with liquid digestate application indicated higher contents of total nitrogen, total phosphorus and total potassium levels than those in the chemical fertilizer group. Liquid digestate as a fertilizer supplemented the soil with nutrients, including phosphorus, potassium and organic matter, but did not cause excessive accumulation. The inorganic nitrogen content of the leachate increased as applied liquid digestate increased. However, it remained 20 %-60 % lower than that of chemical fertilizer at the same fertilization efficiency. After applying liquid digestate, there was no significant increase was observed in soil salinity. The coupled addition of biochar helps to improve the overall effects of liquid digestate for agricultural application and reduce negative environmental impacts. This study demonstrates that returning liquid digestate to agricultural fields as fertilizer is an environmentally and economically beneficial practice.
Keywords: Agricultural application; Anaerobic digestion; Biochar; Liquid digestate.
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