2022
DOI: 10.1111/sum.12809
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Treating farm dairy effluent with poly‐ferric sulphate dramatically reduces phosphorus and E. coli leaching through subsurface drains—A physical drainage model study

Abstract: United Nations Sustainable Development Goals state that we should protect, restore and promote sustainable use of terrestrial ecosystem-goal 15 and insure availability and sustainable management of water and sanitation-goal 6. Dairy farming is a major contributor to New Zealand's economy generating 19.7 billion NZD of export revenue (DairyNZ, 2020). Farm dairy effluent (FDE) consists predominantly of cattle excreta diluted with wash-down

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Cited by 3 publications
(1 citation statement)
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“…In New Zealand, farm dairy effluent is recycled in land application to supply nutrients to soil, however, it can also unintentionally contaminate surface water and groundwater by surface runoff or leaching of dissolved reactive phosphorus and E. coli . Treatment with poly‐ferric sulphate can reduce phosphorus and E. coli leaching by 93% and 98%, while maintaining plant biomass and phosphorus uptake (Che et al, 2022). The effect of soil management on water quality also depends on soil texture.…”
Section: Ecosystem Service: Water Qualitymentioning
confidence: 99%
“…In New Zealand, farm dairy effluent is recycled in land application to supply nutrients to soil, however, it can also unintentionally contaminate surface water and groundwater by surface runoff or leaching of dissolved reactive phosphorus and E. coli . Treatment with poly‐ferric sulphate can reduce phosphorus and E. coli leaching by 93% and 98%, while maintaining plant biomass and phosphorus uptake (Che et al, 2022). The effect of soil management on water quality also depends on soil texture.…”
Section: Ecosystem Service: Water Qualitymentioning
confidence: 99%