Dynamics of gaseous nitrogen and carbon fluxes in riparian alder forests

We studied greenhouse gas (GHG) fluxes in two differently loaded riparian Alnus incana-dominated forests in agricultural landscapes of southern Estonia: a 33-year-old stand in Porijogi, in which the uphill agricultural activities had been abandoned since the middle of the 1990s. and a 50-year-old stand in Viiratsi, which still receives polluted lateral flow from uphill fields fertilized with pig slurry. In Porijogi, closed-chamber based sampling lasted from October 2001 to October 2009, whereas in Viiratsi the sampling period was from November 2003 to October 2009. Both temporal and spatial variations in all GHG gas fluxes were remarkable. Local differences in GHG fluxes between micro-sites (Edge, Dry and Wet in Porijogi, and Wet, Slope and Dry in Viiratsi) were sometimes greater than those between sites. Median values of GHG fluxes from both sites over the whole study period and all microsites did not differ significantly, being 45 and 42 mg CO2-C m(-2) h(-1), 8 and 0.5 mu g CH4-C m(-2) h(-1), 1.0 and 2.1 mg N-2-N m(-2) h(-1), and Sand 9 mu g N2O-N m(-2) h(-1), in Porijogi and Viiratsi, respectively. The N-2:N2O ratio in Viiratsi (40-1200) was lower than in Porijogi (10-7600). The median values-based estimation of the Global Warming Potential of CH4 and N2O was 19 and 185 kg CO2 equivalents (eq) ha(-1) yr(-1) in Porijogi and 14 and 336 kg CO2 eq ha(-1) yr(-1) in Viiratsi, respectively. A significant Spearman rank correlation was found between the mean monthly air temperature and CO2, CH4 and N-2 fluxes in Porijogi, and N2O flux in Viiratsi, and between the monthly precipitation and CH4 fluxes in both study sites. Higher groundwater level significantly increases CH4 emission and decreases CO2 and N2O emission, whereas higher soil temperature significantly increases N2O, CH4 and N-2 emission values. In Porijogi, GHG emissions did not display any discernable trend, whereas in Viiratsi a significant increase in CO2, N-2, and N2O emissions has been found. This may be a result of the age of the grey alder stand, but may also be caused by the long-term nutrient load of this riparian alder stand, which indicates a need for the management of similar heavily loaded riparian alder stands. (C) 2010 Elsevier B.V. All rights reserved.