Forest floor gross and net nitrogen mineralization in three forest types in Quebec, Canada |
| |
Authors: | Catherine Ste-Marie |
| |
Institution: | a Groupe de Recherche en Écologie Forestière—interuniversitaire (GREF-i), Université du Québec à Montréal (UQAM), C.P. 8888, Succ. Centre-ville, Montréal, Qué., Canada H3C 3P8 b Centre Saint-Laurent, Environnement Canada, 105, rue McGill, 7ième étage, Montréal, Qué., Canada H2Y 2E7 c Direction de la recherche forestière, Ministère des Ressources naturelles et de la Faune du Québec, 2700, rue Einstein, Sainte-Foy, Qué., Canada G1P 3W8 |
| |
Abstract: | The effect of high nitrogen (N) depositions on forest ecosystems is an important concern in North America and may lead to N saturation of forest ecosystems and contribute to soils and surface water acidification. In this study, nitrogen dynamics in the FH layers of a sugar maple (SM), a balsam fir (BF) and a black spruce (BS) forest was characterized using a short term 15N isotopic pool dilutions approach and mid-term FH material incubation both in situ and in the laboratory. The short term dilutions approach indicated that the mean residence times of and in the FH material of the three sites were low (<1 d). The amount of inorganic nitrogen () recycled annually within the exchangeable forest floor reservoir was between one and two orders of magnitude larger than the annual atmospheric N deposition found at each of the sites. The BS site was clearly distinct than the two other forest types in that net N mineralization was negligible, even in absence of root uptake, suggesting that soil microorganisms were severely N limited. While net nitrification was not observed within the FH material of the BF site, did accumulate in the FH of the SM despite a low pH of 3.72 presumably because of heterotrophic nitrification or as a result of acid-tolerant autotrophic nitrification. The difference in N dynamics between the sites were most probably caused by dominant tree species. Transformation rates of inorganic N were higher in SM, followed by BF and BS stands. Given that the potential to mineralize inorganic N matches with a superimposed N atmospheric deposition gradient in Québec, the sugar maple forest is more likely to be affected by N saturation than coniferous forests. |
| |
Keywords: | 15N pool dilution N mineralization Nitrification N immobilization N dynamics Tree species Northern forests N saturation N deposition |
本文献已被 ScienceDirect 等数据库收录! |
|