The effects of improved subsurface drainage on runoff and nitrogen leaching from a clayey field section
← TakaisinTekijä | Jokinen, Vilma; Salo, Heidi; Mäkelä, Minna; Nurminen, Jyrki; Äijö, Helena; Laine‐Kaulio, Hanne; Myllys, Merja; Koivusalo |
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Sarja | Irrigation and drainage |
DOI/ISBN-numero | doi:10.1002/ird.2965 |
Päivämäärä | 2024 |
Avainsanat | cumulative sums, long-term field experiment, N fractions, time series analysis |
Rahoitus | Salaojituksen Tukisäätiö sr, Aalto-yliopisto |
Sivut | 16 s. |
Kieli | englanti |
Saatavuus | The effects of improved subsurface drainage on runoff and nitrogen leaching from a clayey field section |
The aim of this study was to investigate the effects of improved subsurface drainage installation on nitrogen (N) loss in drain discharge (DD) and topsoil layer runoff (TLR). Data on DD and TLR, as well as on concentrations of total,nitrate and ammonium N in the runoff components, were collected from four sections of an experimental field in southern Finland (June 2007–December 2018). Supplementary drains were installed in one of the field sections in June 2014, and the data from that section were compared with those from three reference sections. Differences between the sections were statistically analysed based on annual and monthly values of runoff components and concentrations, as well as the loads of N fractions. The results revealed that improved drainage increased the N load in the DD, reducing the load in the TLR. Changes in N loads were more clearly driven by changes in the runoff volumes rather than by changes in the N concentrations in the runoff waters. Before the drainage improvement, most of the total N load was nitrate (53%), while the share of rest N (fraction of the total N after the mineral N fractions were subtracted) was 45%. After improved drainage, the percentages of nitrate and rest N were 73 and 26%, respectively. The results demonstrate the importance ofagricultural water management as the key driver for controlling nutrient loads.