Present and potential nitrogen outputs from Norwegian soft water lakes – an assessment made by applying the steady-state First-order Acidity Balance (FAB) model
The steady-state First-order Acidity Balance (FAB) model for calculating critical loads of sulphur (S) and nitrogen (N) is applied to 609 Norwegian soft-water lakes to assess the future nitrate (NO<sub>3</sub><sup>‾</sup>) leaching potential under present (1992-96)...
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Copernicus Publications
2002-01-01
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| Series: | Hydrology and Earth System Sciences |
| Online Access: | http://www.hydrol-earth-syst-sci.net/6/101/2002/hess-6-101-2002.pdf |
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doaj-3fd6ab4245b64cfe93c0bc26287eedf62020-11-24T23:59:55ZengCopernicus PublicationsHydrology and Earth System Sciences1027-56061607-79382002-01-0161101112Present and potential nitrogen outputs from Norwegian soft water lakes – an assessment made by applying the steady-state First-order Acidity Balance (FAB) modelØ. KasteØ. KasteA. HenriksenA. HenriksenM. PoschM. PoschThe steady-state First-order Acidity Balance (FAB) model for calculating critical loads of sulphur (S) and nitrogen (N) is applied to 609 Norwegian soft-water lakes to assess the future nitrate (NO<sub>3</sub><sup>‾</sup>) leaching potential under present (1992-96) S and N deposition. The lakes were separated into five groups receiving<br> increasing levels of N deposition (<25, 25-49, 50-74, 75-99 and 100-125 meq m<sup>-2</sup>yr<sup>-1</sup>). Using long-term sustainable N sink rates presently recommended for FAB model applications, N immobilisation, net N uptake in forests, denitrification and in-lake N retention were estimated for each group of lakes. Altogether, the long-term N sinks constituted 9.9 ± 3.2 to 40.5 ± 11.4 meq m<sup>-2</sup>yr<sup>-1</sup> in the lowest and highest N deposition categories, respectively. At most sites, the current N deposition exceeds the amount of N retained by long-term sustainable N sinks plus the NO<sub>3</sub><sup>‾</sup> loss via the lake outlets. This excess N, which is currently retained within the catchments may, according to the FAB model, leach as acidifying NO<sub>3</sub><sup>‾</sup> in the future. If these predictions are fulfilled, NO<sub>3</sub><sup>‾</sup> leaching at sites in the various N deposition categories will increase dramatically from present (1995) mean levels of 1-20 meq m<sup>-2</sup>yr<sup>-1</sup>, to mean levels of 7-70 meq m<sup>-2</sup>yr<sup>-1</sup> at future steady state. To illustrate the significance of such an increase in NO<sub>3</sub><sup>‾</sup> leaching, the mean Acid Neutralising Capacity (ANC) at sites in the highest N deposition category may decrease from -18 ± 15 μeq L<sup>-1</sup> at present, to -40 ± 20 μeq L<sup>-1</sup>. Under present S and N deposition levels, the FAB model predicts that 46% of the Norwegian lakes may experience exceedances of critical loads for acidifying deposition. In comparison, the Steady-State Water Chemistry model (SSWC), which considers only the present N leaching level, estimates critical load exceedances in 37% of the lakes under the same deposition level. Thus far, there are great uncertainties regarding both the time scales and the extent of future N leaching, and it is largely unknown whether the FAB model predictions will ever be fulfilled. Hence, long-term monitoring and further studies on N immobilisation processes under varying N deposition levels and ecosystem types seem necessary to make better predictions of future NO<sub>3</sub><sup>‾</sup> leaching.</p> <p style='line-height: 20px;'><b>Keywords: </b>Lakes, hydrochemistry, nitrogen, nitrate, sinks, leaching, acidification, critical loads, FAB modelhttp://www.hydrol-earth-syst-sci.net/6/101/2002/hess-6-101-2002.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Ø. Kaste Ø. Kaste A. Henriksen A. Henriksen M. Posch M. Posch |
| spellingShingle |
Ø. Kaste Ø. Kaste A. Henriksen A. Henriksen M. Posch M. Posch Present and potential nitrogen outputs from Norwegian soft water lakes – an assessment made by applying the steady-state First-order Acidity Balance (FAB) model Hydrology and Earth System Sciences |
| author_facet |
Ø. Kaste Ø. Kaste A. Henriksen A. Henriksen M. Posch M. Posch |
| author_sort |
Ø. Kaste |
| title |
Present and potential nitrogen outputs from Norwegian soft water lakes – an assessment made by applying the steady-state First-order Acidity Balance (FAB) model |
| title_short |
Present and potential nitrogen outputs from Norwegian soft water lakes – an assessment made by applying the steady-state First-order Acidity Balance (FAB) model |
| title_full |
Present and potential nitrogen outputs from Norwegian soft water lakes – an assessment made by applying the steady-state First-order Acidity Balance (FAB) model |
| title_fullStr |
Present and potential nitrogen outputs from Norwegian soft water lakes – an assessment made by applying the steady-state First-order Acidity Balance (FAB) model |
| title_full_unstemmed |
Present and potential nitrogen outputs from Norwegian soft water lakes – an assessment made by applying the steady-state First-order Acidity Balance (FAB) model |
| title_sort |
present and potential nitrogen outputs from norwegian soft water lakes – an assessment made by applying the steady-state first-order acidity balance (fab) model |
| publisher |
Copernicus Publications |
| series |
Hydrology and Earth System Sciences |
| issn |
1027-5606 1607-7938 |
| publishDate |
2002-01-01 |
| description |
The steady-state First-order Acidity Balance (FAB) model for calculating critical loads of sulphur (S) and nitrogen (N) is applied to 609 Norwegian soft-water lakes to assess the future nitrate (NO<sub>3</sub><sup>‾</sup>) leaching potential under present (1992-96) S and N deposition. The lakes were separated into five groups receiving<br> increasing levels of N deposition (<25, 25-49, 50-74, 75-99 and 100-125 meq m<sup>-2</sup>yr<sup>-1</sup>). Using long-term sustainable N sink rates presently recommended for FAB model applications, N immobilisation, net N uptake in forests, denitrification and in-lake N retention were estimated for each group of lakes. Altogether, the long-term N sinks constituted 9.9 ± 3.2 to 40.5 ± 11.4 meq m<sup>-2</sup>yr<sup>-1</sup> in the lowest and highest N deposition categories, respectively. At most sites, the current N deposition exceeds the amount of N retained by long-term sustainable N sinks plus the NO<sub>3</sub><sup>‾</sup> loss via the lake outlets. This excess N, which is currently retained within the catchments may, according to the FAB model, leach as acidifying NO<sub>3</sub><sup>‾</sup> in the future. If these predictions are fulfilled, NO<sub>3</sub><sup>‾</sup> leaching at sites in the various N deposition categories will increase dramatically from present (1995) mean levels of 1-20 meq m<sup>-2</sup>yr<sup>-1</sup>, to mean levels of 7-70 meq m<sup>-2</sup>yr<sup>-1</sup> at future steady state. To illustrate the significance of such an increase in NO<sub>3</sub><sup>‾</sup> leaching, the mean Acid Neutralising Capacity (ANC) at sites in the highest N deposition category may decrease from -18 ± 15 μeq L<sup>-1</sup> at present, to -40 ± 20 μeq L<sup>-1</sup>. Under present S and N deposition levels, the FAB model predicts that 46% of the Norwegian lakes may experience exceedances of critical loads for acidifying deposition. In comparison, the Steady-State Water Chemistry model (SSWC), which considers only the present N leaching level, estimates critical load exceedances in 37% of the lakes under the same deposition level. Thus far, there are great uncertainties regarding both the time scales and the extent of future N leaching, and it is largely unknown whether the FAB model predictions will ever be fulfilled. Hence, long-term monitoring and further studies on N immobilisation processes under varying N deposition levels and ecosystem types seem necessary to make better predictions of future NO<sub>3</sub><sup>‾</sup> leaching.</p> <p style='line-height: 20px;'><b>Keywords: </b>Lakes, hydrochemistry, nitrogen, nitrate, sinks, leaching, acidification, critical loads, FAB model |
| url |
http://www.hydrol-earth-syst-sci.net/6/101/2002/hess-6-101-2002.pdf |
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