Transport of phosphorus in an alluvial gravel aquifer
journal contribution
posted on 2023-05-03, 10:10authored byColin Gray, Liping Pang, Rosalind Dodd, Richard McDowell, Murray Close
The transport of phosphorus (P) and bromide (Br) in an alluvial gravel aquifer was investigated in two tracing experiments: (1) injecting pulses of orthophosphate and (2) 10% diluted municipal effluent spiked with orthophosphate designed to simulate the leaching of P via preferential flow after the application of fertiliser or effluent on to shallow stony soils. Results indicated that compared with Br, filtered reactive P (FRP) transport was retarded, and its mass recovery relative to Br was only 6%–28%. Attenuation was probably a result of P sorption on iron (Fe) and manganese (Mn) oxides present in the aquifer media and filtration of colloidal-P. As a result, FRP could not be distinguished from background concentrations in the aquifer system when sampled 38 m from the injection site. At the concentrations loadings used, surface water recharged from groundwater at this study site may receive P loading via the preferential flow of P into groundwater if the distance between source and recharge point is less than 38m, and possibly at greater distances under higher loadings from intensive land use.
Gray, C. W., Pang, L., Dodd, R., McDowell, R. W., & Close, M. E. (2015): Transport of phosphorus in an alluvial gravel aquifer. New Zealand Journal of Agricultural Research, 58(4), 490-501. DOI:10.1080/00288233.2015.1080737