super(15)N abundance of soils and plants along an experimentally induced forest nitrogen supply gradient

super(15)N abundances of soils and a grass species (Deschampsia flexuosa (L.) Trin.) were analysed in a forest fertilization experiment 10 years after the last fertilization. Nitrogen had been given as urea, at seven doses, ranging from 0 to 2400 kg N ha super(-1). Previously, we have shown that pla...

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Bibliographic Details
Published in:Oecologia 1994-01, Vol.97 (3), p.322-325
Main Authors: Johannisson, C, Hoegberg, P
Format: Article
Language:English
Subjects:
Deschampsia flexuosa
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Summary:super(15)N abundances of soils and a grass species (Deschampsia flexuosa (L.) Trin.) were analysed in a forest fertilization experiment 10 years after the last fertilization. Nitrogen had been given as urea, at seven doses, ranging from 0 to 2400 kg N ha super(-1). Previously, we have shown that plants in systems experiencing large losses of N become enriched with super(15)N. This was explained by the fact that processes leading to loss of N, e.g. ammonia volatilization, nitrification followed by leaching or denitrification and denitrification itself, tend to fractionate against super(15)N. In this experiment, super(15)N abundance increased with dose of N applied in both grass and soil total-N, but more so in the grass. This was interpreted to be due to the grass sampling small but active pools of N subject to losses. In contrast, soil total-N largely consists of inactive N that does not immediately exchange with pools of N from which fractionating losses occur. Hence, soil total-N shows a large pretreatment super(15)N memory effect, and is, therefore, an integrator of the long-term N balance. When short-term changes (years, decades) in N balances are monitored using variations in super(15)N abundance, plants are more suitable indicators of such change than is soil total-N.
ISSN:0029-8549