Is microbial community composition in boreal forest soils determined by pH, C-to-N ratio, the trees, or all three?

Högberg, Mona N.; Högberg, Peter; Myrold, David D.

doi:10.1007/s00442-006-0562-5

Cited by 599 publications

(372 citation statements)

References 38 publications

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“…This is different to a number of studies that identified soil pH as one of the main environmental factors driving soil microorganisms functions and structure (Bääth and Anderson 2003;Hackl et al, 2005;Högberg et al, 2007). However, the range of the pH values in our soils is very low (7.8-8.2) which is probably the main reason for the lack of the significant correlations.…”

Section: Discussioncontrasting

confidence: 99%

Relationships between soil water repellency and microbial community composition under different plant species in a Mediterranean semiarid forest

Lozano

García‐Orenes

Bárcenas-Moreno

et al. 2014

Journal of Hydrology and Hydromechanics

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Soil water repellency (SWR) can influence many hydrological soil properties, including water infiltration, uneven moisture distribution or water retention. In the current study we investigated how variable SWR persistence in the field is related to the soil microbial community under different plant species (P. halepensis, Q. rotundifolia, C. albidus and R. officinalis) in a Mediterranean forest. The soil microbial community was determined through phospholipid fatty acids (PLFA). The relationships between microbiological community structure and the soil properties pH, Glomalin Related Soil Protein (GRSP) and soil organic matter (SOM) content were also studied. Different statistical analyses were used: Principal Component Analysis (PCA), ANOVA, Redundancy Analysis and Pearson correlations. The highest concentrations of PLFA were found in the most water repellent samples. PCA showed that microorganism composition was more dependent of the severity of SWR than the type of plant species. In the Redundancy Analysis, SWR was the only significant factor (p<0.05) to explain PLFA distributions. The only PLFA biomarkers directly related to SWR were associated with Actinobacteria (10Me16:0, 10Me17:0 and 10Me18:0). All the results suggest that a strong dependence between SWR and microbial community composition.

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Section: Discussioncontrasting

confidence: 99%

Relationships between soil water repellency and microbial community composition under different plant species in a Mediterranean semiarid forest

Lozano

García‐Orenes

Bárcenas-Moreno

et al. 2014

Journal of Hydrology and Hydromechanics

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“…Hogberg et al 50 have reported that the C/N ratio was as good as pH in predicting the soil microbial community. However, in this study the C/N ratio was increased somewhat artificially by the addition of C in the biochar, which was unavailable to microbes in a short incubation period, unlike the natural system investigated by Hogberg et al 50 Thus, in envfit test, C/N ratio was found to be significant in shaping the soil microbial community composition, which could be due to its high correlation with soil pH. Rape planting also showed some influence on the soil microbial community composition but only in treatments with biochar.…”

Section: ■ Experimental Sectionmentioning

confidence: 99%

Biochar Impacts Soil Microbial Community Composition and Nitrogen Cycling in an Acidic Soil Planted with Rape

Wang

et al. 2014

Environ. Sci. Technol.

407

168

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Biochar has been suggested to improve acidic soils and to mitigate greenhouse gas emissions. However, little has been done on the role of biochar in ameliorating acidified soils induced by overuse of nitrogen fertilizers. In this study, we designed a pot trial with an acidic soil (pH 4.48) in a greenhouse to study the interconnections between microbial community, soil chemical property changes, and N 2 O emissions after biochar application. The results showed that biochar increased plant growth, soil pH, total carbon, total nitrogen, C/N ratio, and soil cation exchange capacity. The results of high-throughput sequencing showed that biochar application increased α-diversity significantly and changed the relative abundances of some microbes that are related with carbon and nitrogen cycling at the family level. Biochar amendment stimulated both nitrification and denitrification processes, while reducing N 2 O emissions overall. Results of redundancy analysis indicated biochar could shift the soil microbial community by changing soil chemical properties, which modulate N-cycling processes and soil N 2 O emissions. The significantly increased nosZ transcription suggests that biochar decreased soil N 2 O emissions by enhancing its further reduction to N 2 .

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“…The immediate response of the ectomycorrhizal community to the N supply has been seen in several N-fertilization experiments and studies of N gradients and is widely accepted to be caused by a reduced supply of plant C to the fungal symbionts (e.g. Högberg et al 2007). Whereas the nutritional conditions for ectomycorrhizal species changed rapidly, the conditions for saprobic species probably changed during the course of the experiment by altered soil biogeochemistry as mentioned in the previous section.…”

Section: Response Of Saprobic Species To Fertilizationmentioning

confidence: 99%

“…Ectomycorrhizal fungi are directly dependent on the C supply from trees. When N availability in the soil is high, trees reduce C allocation to the roots and reduce investment of C in mycorrhizal fungi (Demoling et al 2008;Högberg et al 2007). However, there are few ectomycorrhizal species, such as Paxillus involutus and Lactarius rufus, and species of the Thelephoraceae and Corticiaceae which have been reported to remain unaffected, or even to increase their production of sporocarps in forest soils to which N has been added (Laiho 1970;Ohenoja 1978;Wästerlund 1982;Peter et al 2001a).…”

Section: Introductionmentioning

confidence: 99%

Long-term dynamics of aboveground fungal communities in a subalpine Norway spruce forest under elevated nitrogen input

et al. 2010

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As anthropogenic N deposition has been suspected to be the main reason for the decline of macromycetous sporocarp production in forest ecosystems, various N-fertilization experiments were started in the mid 1990s. The dynamics of ectomycorrhizal (root-inhabiting) and terricolous saprobic (litter-inhabiting) fungal communities were studied by exhaustive sporocarp inventories in a substitution Norway spruce (Picea abies) forest in two 256-m 2 plots sampled for periods of 1 week at 1-m 2 resolution between 1994 and 2007. N was added to the soil twice per year in one plot from the fourth year onwards. The effects of N input and time on aboveground fungal communities were assessed using redundancy analysis, principal response curves and non-parametric multivariate ANOVA. Results of this long-term experiment revealed that both ectomycorrhizal and saprobic fungal communities responded to an increase in soil N input. The ectomycorrhizal community reacted by a fast decrease in sporocarp production and in species richness, whereas the saprobic community was less affected. The response was highly species specific, especially for the saprobic community. The difference in species composition between control and fertilized plots was significant after 1 year of N addition for ectomycorrhizal fungi and only after 3 years for saprobic fungi. An aging effect affected sporocarp production in the whole area. For both communities, this unidirectional drift in species composition was as important as the treatment effect. This result highlights the importance of considering the respective role of treatment and year effects in longterm field experiments on fungal communities.

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Is microbial community composition in boreal forest soils determined by pH, C-to-N ratio, the trees, or all three?

Cited by 599 publications

References 38 publications

Relationships between soil water repellency and microbial community composition under different plant species in a Mediterranean semiarid forest

Relationships between soil water repellency and microbial community composition under different plant species in a Mediterranean semiarid forest

Biochar Impacts Soil Microbial Community Composition and Nitrogen Cycling in an Acidic Soil Planted with Rape

Long-term dynamics of aboveground fungal communities in a subalpine Norway spruce forest under elevated nitrogen input

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