Fate of ammonium 15N in a Norway spruce forest under long-term reduction in atmospheric N deposition

Abstract

In the last decades, in particular forest ecosystems became increasingly N saturated due to elevated atmospheric N deposition, resulting from anthropogenic N emission. This led to serious consequences for the environment such as N leaching to the groundwater. Recent efforts to reduce N emissions raise the question if, and over what timescale, ecosystems recover to previous conditions. In order to study the effects on N distribution and N transformation processes under the lowered N deposition treatment, we investigated the fate of deposited NH4+-15N in soil of a N-saturated Norway spruce forest (current N deposition: 34 kg ha-1 year-1; critical N load: 14 kg ha-1 year-1), where N deposition has been reduced to 11. 5 kg ha-1 year-1 since 14. 5 years. We traced the deposited 15N in needle litter, bulk soil, and amino acids, microbial biomass and inorganic N in soil. Under reduced N deposition, 123 ± 23% of the deposited N was retained in bulk soil, while this was only 72 ± 15% under ambient deposition. We presume that with reduced deposition the amount of deposited N was small enough to become completely immobilized in plant and soil and no leaching losses occurred. Trees receiving reduced N deposition showed a decline in N content as well as in 15N incorporation into needle litter, indicating reduced N plant uptake. In contrast, the distribution of 15N within the soil over active microbial biomass, microbial residues and inorganic N was not affected by the reduced N deposition. We conclude that the reduction in N deposition impacted only plant uptake and drainage losses, while microbial N transformation processes were not influenced. We assume changes in the biological N turnover to start with the onset of the decomposition of the new, N-depleted litter. © 2010 Springer Science+Business Media B.V.