Improving load estimates for NO3 and P in surface waters by characterizing the concentration response to rainfall events

Publication date

2010

Authors

Rozemeijer, J.C.
Velde, Y. van der
Geer, F.C. van
Rooij, G.H. de
Torfs, P.
Broers, H.P.

Editors

Advisors

Supervisors

DOI

Document Type

Article
Open Access logo

License

(c) UU Universiteit Utrecht, 2010

Abstract

For the evaluation of action programs to reduce surface water pollution, water authorities invest heavily in water quality monitoring. However, sampling frequencies are generally insufficient to capture the dynamical behavior of solute concentrations. For this study, we used on-site equipment that performed semicontinuous (15 min interval) NO3 and P concentration measurements from June 2007 to July 2008. We recorded the concentration responses to rainfall events with a wide range in antecedent conditions and rainfall durations and intensities. Through sequential linear multiple regression analysis, we successfully related the NO3 and P event responses to high-frequency records of precipitation, discharge, and groundwater levels. We applied the regression models to reconstruct concentration patterns between lowfrequency water quality measurements. This new approach significantly improved load estimates from a 20% to a 1% bias for NO3 and from a 63% to a 5% bias for P. These results demonstrate the value of commonly available precipitation, discharge, and groundwater level data for the interpretation of water quality measurements. Improving load estimates from low-frequency concentration data just requires a period of highfrequency concentration measurements and a conceptual, statistical, or physical model for relating the rainfall event response of solute concentrations to quantitative hydrological changes.

Keywords

Citation