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• W2559955906 abstract "Boreal forest stands fertilized with nitrogen (N) might be susceptible to elevated N leaching following clear-cutting, with consequences for water quality and soil acidification. Here, we studied a forest fertilization experiment with N, 165 Hagfors, in Sweden during the first six years (2006–2011) following clear-cutting. The N fertilization treatments were 0 kg ha−1 (0 N) and 450 kg ha−1 of N (450 N), supplied during 1981–1992 to a Scots pine (Pinus sylvestris L.) stand: the stand was harvested in March 2006. Following clear-cutting, disc trenching was performed and furrows (F), ridges (R) and areas in-between two furrows (IB) were created. We calculated the N leaching fluxes and ecosystem N budget during 2006–2011 as affected by previous N fertilization, disc trenching and interactions thereof, at Hagfors by the use of a process-based biogeophysical ecosystem model (CoupModel). The model was calibrated against measurements of soil water and temperature dynamics and previously reported measurements of N in soil solution, soil organic matter and vegetation biomass. Criteria for acceptance of model estimates were based on the range enclosed by the 95% confidence intervals of the mean of the field data used in calibration sampled at low frequency (1–2 occasions) and a combination of the mean error and the coefficient of the determination for variables sampled at a higher frequency (28–1921 occasions). The accepted model estimates of the mean annual leaching rates of N were 3.1 (range 1.4–22.7) and 2.4 (range 0.8–7.0) kg ha−1 of N year−1 in the treatments 0 N and 450 N, respectively, without disc trenching. Disc trenching increased N leaching during the regeneration phase, more so in the 450 N treatment (mean 6.1, range 1.9–16.7 kg ha−1 of N year−1) than in the 0 N treatment (mean 4.6, range 1.9–12.9 kg ha−1 of N year−1). Overall, differences in the posterior model parameter estimates between N treatments and disc trenched treatments F, R and IB were related to the soil physical component: the differences resulted in enhanced drainage in the disc trenched treatments. We conclude that vegetation biomass N accumulation controlled soil water N leaching, and disc trenching increased N leaching from the previously N fertilized plots at Hagfors by its effects on water drainage flow and vegetation N uptake. This finding warrants more research since N fertilization followed by soil scarification in boreal forests is a practice which may increase in the future." @default.
• W2559955906 created "2016-12-16" @default.
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• W2559955906 date "2017-02-01" @default.
• W2559955906 modified "2023-09-30" @default.
• W2559955906 title "Nitrogen leaching following clear-cutting and soil scarification at a Scots pine site – A modelling study of a fertilization experiment" @default.
• W2559955906 cites W1538377250 @default.
• W2559955906 cites W1624558905 @default.
• W2559955906 cites W1685833191 @default.
• W2559955906 cites W1959569872 @default.
• W2559955906 cites W1967676757 @default.
• W2559955906 cites W1970791523 @default.
• W2559955906 cites W1974655800 @default.
• W2559955906 cites W1979393817 @default.
• W2559955906 cites W1987842622 @default.
• W2559955906 cites W1989433638 @default.
• W2559955906 cites W1990433291 @default.
• W2559955906 cites W1990698901 @default.
• W2559955906 cites W1991974514 @default.
• W2559955906 cites W1997779875 @default.
• W2559955906 cites W2005426188 @default.
• W2559955906 cites W2007416156 @default.
• W2559955906 cites W2011386481 @default.
• W2559955906 cites W2013152908 @default.
• W2559955906 cites W2013579942 @default.
• W2559955906 cites W2014535492 @default.
• W2559955906 cites W2020245462 @default.
• W2559955906 cites W2021514023 @default.
• W2559955906 cites W2021594430 @default.
• W2559955906 cites W2022715973 @default.
• W2559955906 cites W2023344921 @default.
• W2559955906 cites W2027589157 @default.
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• W2559955906 cites W2032600630 @default.
• W2559955906 cites W2033285465 @default.
• W2559955906 cites W2033933431 @default.
• W2559955906 cites W2036623944 @default.
• W2559955906 cites W2043949326 @default.
• W2559955906 cites W2044553955 @default.
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• W2559955906 cites W2047264483 @default.
• W2559955906 cites W2051354210 @default.
• W2559955906 cites W2053877003 @default.
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• W2559955906 cites W2066188340 @default.
• W2559955906 cites W2066429486 @default.
• W2559955906 cites W2070463721 @default.
• W2559955906 cites W2072187821 @default.
• W2559955906 cites W2079956664 @default.
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• W2559955906 cites W2081776673 @default.
• W2559955906 cites W2084746819 @default.
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• W2559955906 doi "https://doi.org/10.1016/j.foreco.2016.11.006" @default.
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