2016
DOI: 10.1007/s10021-016-0026-7
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Slowed Biogeochemical Cycling in Sub-arctic Birch Forest Linked to Reduced Mycorrhizal Growth and Community Change after a Defoliation Event

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Cited by 35 publications
(49 citation statements)
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“…It was, however, in disagreement with the field study by Kaukonen et al (2013) finding decreasing soil fungi:bacteria after repeated defoliations, suggesting that in the field, plant ? symbiont feedbacks (Saravesi et al 2015;Parker et al 2016) may be more important than the direct effects of litter degradation studied here. Similarly, our findings contradict the general trends for field studies in temperate and boreal forests (Frey et al 2004;Treseder 2008), where chronic inorganic N fertilisation had a negative impact on fungal biomass, while bacteria showed no response.…”
Section: Discussionmentioning
confidence: 83%
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“…It was, however, in disagreement with the field study by Kaukonen et al (2013) finding decreasing soil fungi:bacteria after repeated defoliations, suggesting that in the field, plant ? symbiont feedbacks (Saravesi et al 2015;Parker et al 2016) may be more important than the direct effects of litter degradation studied here. Similarly, our findings contradict the general trends for field studies in temperate and boreal forests (Frey et al 2004;Treseder 2008), where chronic inorganic N fertilisation had a negative impact on fungal biomass, while bacteria showed no response.…”
Section: Discussionmentioning
confidence: 83%
“…For example, studies have reported enhanced resource turnover and decreased fungal:bacterial ratios (Kaukonen et al 2013), slowed biogeochemical cycling linked to changes in ectomycorrhizal (ECM) associations (Parker et al 2016), and decreased ECM-abundances and richness benefitting saprotrophic decomposers (Saravesi et al 2015). Moreover, the substantial short-term N-enrichment following outbreaks in the Subarctic mountain birch system (e.g.…”
Section: Introductionmentioning
confidence: 99%
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“…R soil was also negatively correlated with total browning, further reflecting the slowdown in below‐ground processes which follows a reduction in aboveground productivity (Supporting Information Figure S3; Litton et al, ; Parker et al, ). However, contrary to hypothesis (iv), no overall correlation between total browning and R eco was identified.…”
Section: Discussionmentioning
confidence: 97%
“…This supports previous work showing that vegetation damage following climatic and biological extreme events reduces R soil (Moore et al, ; Olsson, Heliasz, Jin, & Eklundh, ; Zhao, Peichl, & Nilsson, ), and further demonstrates that vegetation stress may have qualitatively similar effects to damage (albeit of a lesser magnitude). Reductions in R soil following vegetation damage have previously been attributed to diminished microbial activity and deceleration of soil processes due to reduced transfer of carbon below ground (Litton, Raich, & Ryan, ; Parker et al, ). Here, decomposition data are consistent with this mechanism, given that decomposed fraction of green tea (labile litter) was lower in damaged plots, indicating reduced microbial activity.…”
Section: Discussionmentioning
confidence: 99%