Spatial distribution of microbial biomass and residues across soil aggregate fractions at different elevations in the Central Austrian Alps

The distribution of microbial biomass and residues and their role in carbon (C) dynamics within soil aggregate fractions in the Alps are still poorly explored. We assessed the distribution of bacterial and fungal residues and their impact on the contribution of the microbial community to C dynamics...

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Published inGeoderma Vol. 339; pp. 1 - 8
Main Authors Murugan, Rajasekaran, Djukic, Ika, Keiblinger, Katharina, Zehetner, Franz, Bierbaumer, Michael, Zechmeister-Bolternstern, Sophie, Joergernsen, Rainer Georg
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.04.2019
Subjects
Aggregate fractions
aggregate stability
Alps region
altitude
Austria
bacteria
bacterial communities
carbon nitrogen ratio
carbon sequestration
Elevation gradient
ergosterol
Fine root biomass
fine roots
fungal biomass
fungi
grasslands
Microbial community composition
Microbial residues
Picea
soil aggregates
soil organic carbon
temperature
Alps region
Austria
Microbial residues
Elevation gradient
Aggregate fractions
Microbial community composition
Fine root biomass
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ISSN0016-7061
1872-6259
DOI10.1016/j.geoderma.2018.12.018

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Abstract The distribution of microbial biomass and residues and their role in carbon (C) dynamics within soil aggregate fractions in the Alps are still poorly explored. We assessed the distribution of bacterial and fungal residues and their impact on the contribution of the microbial community to C dynamics within soil aggregate size fractions at different elevations. We sampled three sites located at different elevations (1300, 1600 and 2100 m a.s.l.) and subject to different temperature and precipitation regimes in the Central Austrian Alps. Fungal biomass and residues were higher in macro-aggregate fractions compared to micro-aggregates, as indicated by the ratios ergosterol/microbial biomass C and fungal C/bacterial C, suggesting a combined but discrete contribution of fungi and bacterial residues to soil aggregate formation. A greater contribution of microbial residues to soil organic C (SOC) in macro-aggregates demonstrates the importance of microbial residues for the soil organic matter pool's capacity to function as an active nutrient sink and source reservoir. The mid- and low-elevation spruce sites were dominated by fungi and higher aggregate stability, whereas the high-elevation grassland site exhibited a stronger bacterial community as indicated by fungal C/bacterial C ratio. In addition, greater proportions of fungal and bacterial residue in SOC at mid-elevation spruce and high-elevation grassland sites respectively, indicate differential role of fungi and bacteria in SOC sequestration. However, the observed changes in microbial community and residue contribution were mainly driven by variations in soil pH, C/N ratio and fine root biomass. Our findings indicate that fungi played a key role in the internal cycling of SOC and aggregate stability at the mid-elevation spruce site, while bacterial residues were successively activated and contributed increasingly to SOC sequestration at the high-elevation grassland site. •High-elevation grassland site promoted accumulation of micro-aggregates.•Fine root biomass and fungi drive aggregate stability in mid- and low-elevation spruce sites.•Macro-aggregate fractions were dominated by fungal biomass and fungal residues.•Ergosterol/microbial biomass C and fungal C/bacterial C were positively related.•Macro-aggregates promoted greater microbial residue C contribution to soil organic C.
AbstractList The distribution of microbial biomass and residues and their role in carbon (C) dynamics within soil aggregate fractions in the Alps are still poorly explored. We assessed the distribution of bacterial and fungal residues and their impact on the contribution of the microbial community to C dynamics within soil aggregate size fractions at different elevations. We sampled three sites located at different elevations (1300, 1600 and 2100 m a.s.l.) and subject to different temperature and precipitation regimes in the Central Austrian Alps. Fungal biomass and residues were higher in macro-aggregate fractions compared to micro-aggregates, as indicated by the ratios ergosterol/microbial biomass C and fungal C/bacterial C, suggesting a combined but discrete contribution of fungi and bacterial residues to soil aggregate formation. A greater contribution of microbial residues to soil organic C (SOC) in macro-aggregates demonstrates the importance of microbial residues for the soil organic matter pool's capacity to function as an active nutrient sink and source reservoir. The mid- and low-elevation spruce sites were dominated by fungi and higher aggregate stability, whereas the high-elevation grassland site exhibited a stronger bacterial community as indicated by fungal C/bacterial C ratio. In addition, greater proportions of fungal and bacterial residue in SOC at mid-elevation spruce and high-elevation grassland sites respectively, indicate differential role of fungi and bacteria in SOC sequestration. However, the observed changes in microbial community and residue contribution were mainly driven by variations in soil pH, C/N ratio and fine root biomass. Our findings indicate that fungi played a key role in the internal cycling of SOC and aggregate stability at the mid-elevation spruce site, while bacterial residues were successively activated and contributed increasingly to SOC sequestration at the high-elevation grassland site. •High-elevation grassland site promoted accumulation of micro-aggregates.•Fine root biomass and fungi drive aggregate stability in mid- and low-elevation spruce sites.•Macro-aggregate fractions were dominated by fungal biomass and fungal residues.•Ergosterol/microbial biomass C and fungal C/bacterial C were positively related.•Macro-aggregates promoted greater microbial residue C contribution to soil organic C.
The distribution of microbial biomass and residues and their role in carbon (C) dynamics within soil aggregate fractions in the Alps are still poorly explored. We assessed the distribution of bacterial and fungal residues and their impact on the contribution of the microbial community to C dynamics within soil aggregate size fractions at different elevations. We sampled three sites located at different elevations (1300, 1600 and 2100 m a.s.l.) and subject to different temperature and precipitation regimes in the Central Austrian Alps. Fungal biomass and residues were higher in macro-aggregate fractions compared to micro-aggregates, as indicated by the ratios ergosterol/microbial biomass C and fungal C/bacterial C, suggesting a combined but discrete contribution of fungi and bacterial residues to soil aggregate formation. A greater contribution of microbial residues to soil organic C (SOC) in macro-aggregates demonstrates the importance of microbial residues for the soil organic matter pool's capacity to function as an active nutrient sink and source reservoir. The mid- and low-elevation spruce sites were dominated by fungi and higher aggregate stability, whereas the high-elevation grassland site exhibited a stronger bacterial community as indicated by fungal C/bacterial C ratio. In addition, greater proportions of fungal and bacterial residue in SOC at mid-elevation spruce and high-elevation grassland sites respectively, indicate differential role of fungi and bacteria in SOC sequestration. However, the observed changes in microbial community and residue contribution were mainly driven by variations in soil pH, C/N ratio and fine root biomass. Our findings indicate that fungi played a key role in the internal cycling of SOC and aggregate stability at the mid-elevation spruce site, while bacterial residues were successively activated and contributed increasingly to SOC sequestration at the high-elevation grassland site.
Author Murugan, Rajasekaran
Keiblinger, Katharina
Djukic, Ika
Joergernsen, Rainer Georg
Zehetner, Franz
Bierbaumer, Michael
Zechmeister-Bolternstern, Sophie
Author_xml – sequence: 1
  givenname: Rajasekaran
  surname: Murugan
  fullname: Murugan, Rajasekaran
  email: raja.murugan15@gmail.com
  organization: Soil Biology and Plant Nutrition, University of Kassel, Nordbahnhofstr. 1a, 37213 Witzenhausen, Germany
– sequence: 2
  givenname: Ika
  surname: Djukic
  fullname: Djukic, Ika
  organization: Swiss Federal Institute for Forest, Snow and Landscape Research WSL, Zürcherstrasse 11, CH-8903 Birmensdorf, Switzerland
– sequence: 3
  givenname: Katharina
  orcidid: 0000-0003-4668-3866
  surname: Keiblinger
  fullname: Keiblinger, Katharina
  organization: Department of Forest and Soil Sciences, Institute of Soil Research, University of Natural Resources and Live Sciences (BOKU), Peter Jordan-Straße 82, 1190 Vienna, Austria
– sequence: 4
  givenname: Franz
  surname: Zehetner
  fullname: Zehetner, Franz
  organization: Department of Forest and Soil Sciences, Institute of Soil Research, University of Natural Resources and Live Sciences (BOKU), Peter Jordan-Straße 82, 1190 Vienna, Austria
– sequence: 5
  givenname: Michael
  surname: Bierbaumer
  fullname: Bierbaumer, Michael
  organization: Reichergasse 48, 3411 Klosterneuburg-Weidling, Austria
– sequence: 6
  givenname: Sophie
  surname: Zechmeister-Bolternstern
  fullname: Zechmeister-Bolternstern, Sophie
  organization: Department of Forest and Soil Sciences, Institute of Soil Research, University of Natural Resources and Live Sciences (BOKU), Peter Jordan-Straße 82, 1190 Vienna, Austria
– sequence: 7
  givenname: Rainer Georg
  surname: Joergernsen
  fullname: Joergernsen, Rainer Georg
  organization: Soil Biology and Plant Nutrition, University of Kassel, Nordbahnhofstr. 1a, 37213 Witzenhausen, Germany
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Keywords Microbial residues
Elevation gradient
Aggregate fractions
Microbial community composition
Fine root biomass
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Snippet The distribution of microbial biomass and residues and their role in carbon (C) dynamics within soil aggregate fractions in the Alps are still poorly explored....
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SubjectTerms Aggregate fractions
aggregate stability
Alps region
altitude
Austria
bacteria
bacterial communities
carbon nitrogen ratio
carbon sequestration
Elevation gradient
ergosterol
Fine root biomass
fine roots
fungal biomass
fungi
grasslands
Microbial community composition
Microbial residues
Picea
soil aggregates
soil organic carbon
temperature
Title Spatial distribution of microbial biomass and residues across soil aggregate fractions at different elevations in the Central Austrian Alps
URI https://dx.doi.org/10.1016/j.geoderma.2018.12.018
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Volume 339
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