Treating farm dairy effluent with poly‐ferric sulphate dramatically reduces phosphorus and E. coli leaching through subsurface drains—A physical drainage model study

Abstract

AbstractLand application of farm dairy effluent (FDE) may lead to water contamination, by contaminants such as phosphorus (P) and E. coli. A new FDE treatment technology using poly‐ferric sulphate (PFS) has been developed to recycle wastewater in FDE for washing the farmyard. A physical drainage model study was conducted to investigate the effect of treating FDE with PFS on phosphorus and E. coli leaching through model subsurface drains. Dissolved reactive phosphorus (DRP) and total phosphorus (TP) leaching losses from untreated effluent (FDE) averaged 3.48 kg P ha−1 and 11.44 kg P ha−1, respectively. The application of PFS‐treated effluent (TE) resulted in significantly lower DRP and TP leaching losses at 0.24 kg P ha−1 and 4.52 kg P ha−1 for fresh TE and 0.27 kg P ha−1 and 6.31 kg P ha−1 for TE stored for 3 weeks before application (TE‐S). Cumulative DRP lost to drainage water from the TE and TE‐S treatments was 93.1% and 92.2% lower than that from the FDE treatments. Compared with the FDE treatment, there was a 98.27% and 99.99% reduction in E. coli in the drainage water from the TE and TE‐S treatments. Plant biomass and P uptake were not affected by the effluent treatments. These results indicate that land application of PFS‐treated effluent, fresh or stored, on drained pasture soils can produce significant environmental benefits by reducing the concentration and amount of P and E. coli in the drainage water, without adversely impacting plant growth.