Aquaculture is important for food security and livelihoods, especially in the developing tropics. Many nutrients supplied by feed degrade water quality, waste resources and lead to nutrient loss.
Halophytes have the potential to recover these nutrients from aquaculture effluents. Most studies have focused on temperate species, but there is a need for extractive species suitable for integration in tropical saline aquaculture. Sea purslane Sesuvium portulacastrum is a promising candidate for providing biomass for human consumption with potential pharmaceutical applications, but to date, nutrient uptake has not been studied in this species. This study investigated the nutrient removal from milkfish wastewater by systems planted with S. portulacastrum in hydroponics versus those planted in the sand. Most nutrients were
removed from the wastewater within 48 h. Phosphorus and nitrogen were most efficiently removed in treatments with plants and sand and on average lower in the hydroponic incubations. However, in hydroponic systems, plants assimilated 50.2% of the added labeled N with no significant difference in recovery after 48 h when NH4 or NO3 was added. The recovery of wastewater N into plant biomass was several-fold higher in hydroponics than in sand substrate. Integration of S. portulacastrum into aquaculture turns aquaculture effluents into a valuable resource.
Senff, Paula & Lavik, Gaute & Teichberg, Mirta & Kunzmann, Andreas. (2024). Nutrient removal and nitrogen recovery from aquaculture effluents by the edible halophyte Sesuvium portulacastrum (L.) in hydroponics and in sand substrate. Marine Biology Research. 1-14. DOI: 10.1080/17451000.2024.2418662.
Source: Research Gate