Litcius/Paper detail

Nutrient losses over time via surface runoff and subsurface drainage from an agricultural field in northern Sweden

Lisbet Norberg, Helena Linefur, Stefan Andersson, Maria Blomberg, Katarina Kyllmar

2022Journal of Environmental Quality18 citationsDOIOpen Access PDF

Abstract

Nitrogen (N) and phosphorus (P) losses, via both surface runoff and subsurface drainage water, were monitored in an agricultural field in northern Sweden for 32 yr. The objective was to determine losses of N and P in a long-term perspective in relation to meteorological factors and impacts of agricultural land use, with a focus on relative contributions of surface runoff and subsurface drainage water to N and P losses. In order to collect surface runoff water, an embankment was installed on three sides of the field, and the fourth side had an open ditch that drove runoff water to a measuring station. Subsurface water draining from the field was collected in a fishbone-shaped drainage system that terminated at the measuring station. In 50% of years (16/32), mean annual concentration of total N (TN) was significantly higher in subsurface drainage water than in surface runoff water. An opposing trend was seen for total P (TP), with mean annual concentration being significantly higher in surface runoff water than in subsurface drainage water in all but 3 of the 32 yr monitored. Years with a barley crop had higher TN concentration in subsurface drainage water but no difference in surface runoff compared with years with ley. In contrast, years with barley had lower TN concentration in surface runoff than years with ley, with no difference in TP in subsurface drainage water.

Topics & Concepts

Surface runoffDrainageHydrology (agriculture)Environmental scienceDitchSubsurface flowSurface waterWatertable controlSoil waterGroundwaterSoil scienceGeologyEnvironmental engineeringEcologySoil salinityBiologyGeotechnical engineeringSoil and Water Nutrient DynamicsHydrology and Watershed Management StudiesPeatlands and Wetlands Ecology