Attenuation of Nitrogen, Phosphorus and E. coli Inputs from Pasture Runoff to Surface Waters by a Farm Wetland: the Importance of Wetland Shape and Residence Time

摘要

Water quantity and quality were monitored for 3 years in a 360-m-long wetland with riparian fences and plants in a pastoral dairy farming catchment. Concentrations of total nitrogen (TN), total phosphorus (TP) and Escherichia coli were 210-75,200 gN rrf~(-3), 12-58,200 gP m~(-3) and 2-20,000 most probable number (MPN)/100 ml, respectively. Average retentions (±standard error) for the wetland over 3 years were 5±1%, 93±13% and 65± 9% for TN, TP and E. coli, respectively. Retentions for nitrate-N, ammonium-N, filterable reactive P and paniculate C were respectively -29±5%, 32±10%, -53±24% and 96±19%. Aerobic conditions within the wetland supported nitrification but not denitrifi-cation and it is likely that there was a high conversion rate from dissolved inputs of N and P in groundwater, to paniculate N and P and refractory dissolved forms in the wetland. The wetland was notable for its capacity to promote the formation of paniculate forms and retain them or to provide conditions suitable for retention (e.g. binding of phosphate to cations). Nitrogen retention was generally low because about 60% was in dissolved forms (DON and NO_X-N) that were not readily trapped or removed. Specific yields for N, P and E. coli were c. 10-11 kg Nha~(-1) year~(-1), 0.2 kg Pha~(-1) year~(-1) and <10~9 MPN ha~(-1) year~(-1), respectively, and generally much less than ranges for typical dairy pasture catchments in New Zealand. Further mitigation of catchment runoff losses might be achieved if the upland wetland was coupled with a downslope wetland in which anoxic conditions would promote denitrification.