Gasification biochar has limited effects on functional and structural diversity of soil microbial communities in a temperate agroecosystem

Biochar may enhance soil fertility and carbon (C) sequestration but there is still a lack of comprehensive understanding of its effects on soil microbial communities and functioning. This study tested the differential effects of two doses (6–8 and 0.8–1.4 t ha−1 for High and Low doses, respectively)...

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Published inSoil biology & biochemistry Vol. 99; pp. 128 - 136
Main Authors Imparato, Valentina, Hansen, Veronika, Santos, Susana S., Nielsen, Tue Kjærgaard, Giagnoni, Laura, Hauggaard-Nielsen, Henrik, Johansen, Anders, Renella, Giancarlo, Winding, Anne
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.08.2016
Subjects
16S Illumina sequencing
Acidobacteria
adenosine triphosphate
agroecosystems
bacterial communities
biochar
carbon
Carbon sequestration
community structure
Denmark
endo-1,4-beta-glucanase
enzyme activity
gasification
Microbial activity
microbial biomass
MicroResp
monophenol monooxygenase
organic matter
ribosomal RNA
sequence analysis
soil amendments
soil ecology
soil fertility
soil microorganisms
soil pH
soil toxicity
Toxicity test
toxicity testing
Triticum aestivum
wheat straw
Denmark
Microbial activity
MicroResp
16S Illumina sequencing
Toxicity test
Acidobacteria
Carbon sequestration
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Abstract Biochar may enhance soil fertility and carbon (C) sequestration but there is still a lack of comprehensive understanding of its effects on soil microbial communities and functioning. This study tested the differential effects of two doses (6–8 and 0.8–1.4 t ha−1 for High and Low doses, respectively) of wheat straw gasification biochar (GBC) and fresh straw incorporated as soil amendments into an agricultural field in Denmark. Soils were analysed three months after the amendments for pH, total organic matter, microbial biomass (ATP), ten enzymatic activities, catabolic potential by substrate-induced respiration (MicroResp™), soil toxicity test (BioTox™) and bacterial community structure (Illumina 16S rRNA gene sequencing). No significant effect of biochar treatment was observed regarding ATP content, catabolic community profiles and soil toxicity. The higher dose of GBC increased phenol oxidase activity and soil pH, and decreased the cellulase activity. No major effect of high dose GBC was observed on the soil community diversity, and only minor effect on the community composition, with an increase in the relative abundance of a single OTU associated with Acidobacteria_Gp16. Addition of low dose of GBC caused an increase in the relative abundance of the rare members in the microbial communities thus increasing the diversity of soil microorganisms. A comparable effect was observed with the addition of fresh straw. Overall, our results indicated that GBC as soil amendment had a limited effect on the functional and structural diversity of soil microbial communities in a Danish temperate agroecosystem. [Display omitted] •Application of high dose of biochar increased phenol oxidase activity.•Application of high dose of biochar reduced cellulase activity.•Application of biochar did not alter potential soil catabolic response profile.•Two doses of biochar altered microbial diversity differently.•Low dose of biochar enhanced the abundance of low abundance taxa.
AbstractList Biochar may enhance soil fertility and carbon (C) sequestration but there is still a lack of comprehensive understanding of its effects on soil microbial communities and functioning. This study tested the differential effects of two doses (6-8 and 0.8-1.4 t ha super(-1) for High and Low doses, respectively) of wheat straw gasification biochar (GBC) and fresh straw incorporated as soil amendments into an agricultural field in Denmark. Soils were analysed three months after the amendments for pH, total organic matter, microbial biomass (ATP), ten enzymatic activities, catabolic potential by substrate-induced respiration (MicroResp(TM)), soil toxicity test (BioTox(TM)) and bacterial community structure (Illumina 16S rRNA gene sequencing). No significant effect of biochar treatment was observed regarding ATP content, catabolic community profiles and soil toxicity. The higher dose of GBC increased phenol oxidase activity and soil pH, and decreased the cellulase activity. No major effect of high dose GBC was observed on the soil community diversity, and only minor effect on the community composition, with an increase in the relative abundance of a single OTU associated with Acidobacteria_Gp16. Addition of low dose of GBC caused an increase in the relative abundance of the rare members in the microbial communities thus increasing the diversity of soil microorganisms. A comparable effect was observed with the addition of fresh straw. Overall, our results indicated that GBC as soil amendment had a limited effect on the functional and structural diversity of soil microbial communities in a Danish temperate agroecosystem.
Biochar may enhance soil fertility and carbon (C) sequestration but there is still a lack of comprehensive understanding of its effects on soil microbial communities and functioning. This study tested the differential effects of two doses (6–8 and 0.8–1.4 t ha−1 for High and Low doses, respectively) of wheat straw gasification biochar (GBC) and fresh straw incorporated as soil amendments into an agricultural field in Denmark. Soils were analysed three months after the amendments for pH, total organic matter, microbial biomass (ATP), ten enzymatic activities, catabolic potential by substrate-induced respiration (MicroResp™), soil toxicity test (BioTox™) and bacterial community structure (Illumina 16S rRNA gene sequencing). No significant effect of biochar treatment was observed regarding ATP content, catabolic community profiles and soil toxicity. The higher dose of GBC increased phenol oxidase activity and soil pH, and decreased the cellulase activity. No major effect of high dose GBC was observed on the soil community diversity, and only minor effect on the community composition, with an increase in the relative abundance of a single OTU associated with Acidobacteria_Gp16. Addition of low dose of GBC caused an increase in the relative abundance of the rare members in the microbial communities thus increasing the diversity of soil microorganisms. A comparable effect was observed with the addition of fresh straw. Overall, our results indicated that GBC as soil amendment had a limited effect on the functional and structural diversity of soil microbial communities in a Danish temperate agroecosystem. [Display omitted] •Application of high dose of biochar increased phenol oxidase activity.•Application of high dose of biochar reduced cellulase activity.•Application of biochar did not alter potential soil catabolic response profile.•Two doses of biochar altered microbial diversity differently.•Low dose of biochar enhanced the abundance of low abundance taxa.
Biochar may enhance soil fertility and carbon (C) sequestration but there is still a lack of comprehensive understanding of its effects on soil microbial communities and functioning. This study tested the differential effects of two doses (6–8 and 0.8–1.4 t ha−1 for High and Low doses, respectively) of wheat straw gasification biochar (GBC) and fresh straw incorporated as soil amendments into an agricultural field in Denmark. Soils were analysed three months after the amendments for pH, total organic matter, microbial biomass (ATP), ten enzymatic activities, catabolic potential by substrate-induced respiration (MicroResp™), soil toxicity test (BioTox™) and bacterial community structure (Illumina 16S rRNA gene sequencing). No significant effect of biochar treatment was observed regarding ATP content, catabolic community profiles and soil toxicity. The higher dose of GBC increased phenol oxidase activity and soil pH, and decreased the cellulase activity. No major effect of high dose GBC was observed on the soil community diversity, and only minor effect on the community composition, with an increase in the relative abundance of a single OTU associated with Acidobacteria_Gp16. Addition of low dose of GBC caused an increase in the relative abundance of the rare members in the microbial communities thus increasing the diversity of soil microorganisms. A comparable effect was observed with the addition of fresh straw. Overall, our results indicated that GBC as soil amendment had a limited effect on the functional and structural diversity of soil microbial communities in a Danish temperate agroecosystem.
Author Santos, Susana S.
Hansen, Veronika
Imparato, Valentina
Hauggaard-Nielsen, Henrik
Renella, Giancarlo
Winding, Anne
Giagnoni, Laura
Johansen, Anders
Nielsen, Tue Kjærgaard
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  givenname: Valentina
  surname: Imparato
  fullname: Imparato, Valentina
  email: vim@envs.au.dk
  organization: Department of Environmental Science, Aarhus University, Roskilde, Denmark
– sequence: 2
  givenname: Veronika
  surname: Hansen
  fullname: Hansen, Veronika
  email: veha@plen.ku.dk
  organization: Department of Plant & Environmental Sciences, University of Copenhagen, Denmark
– sequence: 3
  givenname: Susana S.
  surname: Santos
  fullname: Santos, Susana S.
  email: suss@envs.au.dk
  organization: Department of Environmental Science, Aarhus University, Roskilde, Denmark
– sequence: 4
  givenname: Tue Kjærgaard
  surname: Nielsen
  fullname: Nielsen, Tue Kjærgaard
  email: tkn@envs.au.dk
  organization: Department of Environmental Science, Aarhus University, Roskilde, Denmark
– sequence: 5
  givenname: Laura
  surname: Giagnoni
  fullname: Giagnoni, Laura
  email: laura.giagnoni@unifi.it
  organization: Department of Agrifood Production and Environmental, University of Florence, Italy
– sequence: 6
  givenname: Henrik
  surname: Hauggaard-Nielsen
  fullname: Hauggaard-Nielsen, Henrik
  email: hnie@ruc.dk
  organization: Department of People and Technology, Roskilde University, Denmark
– sequence: 7
  givenname: Anders
  surname: Johansen
  fullname: Johansen, Anders
  email: ajo@envs.au.dk
  organization: Department of Environmental Science, Aarhus University, Roskilde, Denmark
– sequence: 8
  givenname: Giancarlo
  surname: Renella
  fullname: Renella, Giancarlo
  email: giancarlo.renella@unifi.it
  organization: Department of Agrifood Production and Environmental, University of Florence, Italy
– sequence: 9
  givenname: Anne
  surname: Winding
  fullname: Winding, Anne
  email: aw@envs.au.dk
  organization: Department of Environmental Science, Aarhus University, Roskilde, Denmark
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Keywords Microbial activity
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16S Illumina sequencing
Toxicity test
Acidobacteria
Carbon sequestration
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Snippet Biochar may enhance soil fertility and carbon (C) sequestration but there is still a lack of comprehensive understanding of its effects on soil microbial...
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SubjectTerms 16S Illumina sequencing
Acidobacteria
adenosine triphosphate
agroecosystems
bacterial communities
biochar
carbon
Carbon sequestration
community structure
Denmark
endo-1,4-beta-glucanase
enzyme activity
gasification
Microbial activity
microbial biomass
MicroResp
monophenol monooxygenase
organic matter
ribosomal RNA
sequence analysis
soil amendments
soil ecology
soil fertility
soil microorganisms
soil pH
soil toxicity
Toxicity test
toxicity testing
Triticum aestivum
wheat straw
Title Gasification biochar has limited effects on functional and structural diversity of soil microbial communities in a temperate agroecosystem
URI https://dx.doi.org/10.1016/j.soilbio.2016.05.004
https://www.proquest.com/docview/1808641809
https://www.proquest.com/docview/1836633386
Volume 99
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