Recovery of ectomycorrhiza after `nitrogen saturation' of a conifer forest

Peter Hogberg, Christian Johannisson, Stephanie Yarwood, Ingeborg Callesen, Torgny Nasholm, David D. Myrold, Mona N. Hogberg

86 Citationer (Scopus)

Abstract

Trees reduce their carbon (C) allocation to roots and mycorrhizal fungi in response to high nitrogen (N) additions, which should reduce the N retention capacity of forests. The time needed for recovery of mycorrhizas after termination of N loading remains unknown. Here, we report the long-term impact of N loading and the recovery of ectomycorrhiza after high N loading on a Pinus sylvestris forest. We analysed the N% and abundance of the stable isotope 15N in tree needles and soil, soil microbial fatty acid biomarkers and fungal DNA. Needles in N-loaded plots became enriched in 15N, reflecting decreased N retention by mycorrhizal fungi and isotopic discrimination against 15N during loss of N. Meanwhile, needles in N-limited (control) plots became depleted in 15N, reflecting high retention of 15N by mycorrhizal fungi. N loading was terminated after 20 yr. The δ15N and N% of the needles decreased 6 yr after N loading had been terminated, and approached values in control plots after 15 yr. This decrease, and the larger contributions compared with N-loaded plots of a fungal fatty acid biomarker and ectomycorrhizal sequences, suggest recovery of ectomycorrhiza. High N loading rapidly decreased the functional role of ectomycorrhiza in the forest N cycle, but significant recovery occurred within 6-15 yr after termination of N loading.

OriginalsprogEngelsk
TidsskriftNew Phytologist
Vol/bind189
Udgave nummer2
Sider (fra-til)515-525
Antal sider11
ISSN0028-646X
DOI
StatusUdgivet - jan. 2011
Udgivet eksterntJa

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