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Fungal diversity in set-aide agricultural soil investigated using terminal-restriction fragment length polymorphism

Klamer, Morten LU and Hedlund, Katarina LU orcid (2004) In Soil Biology & Biochemistry 36(6). p.983-988
Abstract
As part of the restoration of biodiversity on former agricultural land there has been focused on methods to enhance the rate of transition from agricultural land towards natural grasslands or forest ecosystems. Management practices such as sowing seed mixtures and inoculating soil of later successional stages have been used. The aim of this study was to determine the effects of a managed plant community on the diversity of soil fungi in a newly abandoned agricultural land. A field site was set up consisting of 20 plots where the plant diversity was managed by either sowing 15 plant species, or natural colonization was allowed to occur. The plant mixture contained five species each of grasses, legumes and forbs that all were expected to... (More)
As part of the restoration of biodiversity on former agricultural land there has been focused on methods to enhance the rate of transition from agricultural land towards natural grasslands or forest ecosystems. Management practices such as sowing seed mixtures and inoculating soil of later successional stages have been used. The aim of this study was to determine the effects of a managed plant community on the diversity of soil fungi in a newly abandoned agricultural land. A field site was set up consisting of 20 plots where the plant diversity was managed by either sowing 15 plant species, or natural colonization was allowed to occur. The plant mixture contained five species each of grasses, legumes and forbs that all were expected to occur at the site. A subset of the plots (five from each treatment) was inoculated with soil cores from a late successional stage. The plant community composition was subject to a principal component analysis based on the coverage of each species. Five years after abandonment, soil samples were taken from the plots, DNA was extracted and the ITS region of the rDNA gene was amplified using fluorescently labelled fungal specific primers (ITS 1F/ITS 4). The PCR products were digested using HinfI and TaqI and sequenced. Results from both restriction enzymes were combined and a principal component analysis performed on the presence/absence of fragments. Also the fungal diversity expressed as number of restriction fragments were analysed. There was significantly higher fungal species richness in the experimental plots compared to the forest and field soils, but no differences between sown and naturally colonized plots. The different plant treatments did not influence the below ground fungal community composition. Soil water content on the other hand had an impact on the fungal community composition. (Less)
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author
and
organization
publishing date
type
Contribution to journal
publication status
published
subject
in
Soil Biology & Biochemistry
volume
36
issue
6
pages
983 - 988
publisher
Elsevier
external identifiers
  • wos:000221848900012
  • scopus:2442630379
ISSN
0038-0717
DOI
10.1016/j.soilbio.2004.01.017
language
English
LU publication?
yes
id
955d8971-fb59-4fb6-893f-8daa9d14fdf6 (old id 136982)
date added to LUP
2016-04-01 16:22:38
date last changed
2022-06-10 23:24:23
@article{955d8971-fb59-4fb6-893f-8daa9d14fdf6,
  abstract     = {{As part of the restoration of biodiversity on former agricultural land there has been focused on methods to enhance the rate of transition from agricultural land towards natural grasslands or forest ecosystems. Management practices such as sowing seed mixtures and inoculating soil of later successional stages have been used. The aim of this study was to determine the effects of a managed plant community on the diversity of soil fungi in a newly abandoned agricultural land. A field site was set up consisting of 20 plots where the plant diversity was managed by either sowing 15 plant species, or natural colonization was allowed to occur. The plant mixture contained five species each of grasses, legumes and forbs that all were expected to occur at the site. A subset of the plots (five from each treatment) was inoculated with soil cores from a late successional stage. The plant community composition was subject to a principal component analysis based on the coverage of each species. Five years after abandonment, soil samples were taken from the plots, DNA was extracted and the ITS region of the rDNA gene was amplified using fluorescently labelled fungal specific primers (ITS 1F/ITS 4). The PCR products were digested using HinfI and TaqI and sequenced. Results from both restriction enzymes were combined and a principal component analysis performed on the presence/absence of fragments. Also the fungal diversity expressed as number of restriction fragments were analysed. There was significantly higher fungal species richness in the experimental plots compared to the forest and field soils, but no differences between sown and naturally colonized plots. The different plant treatments did not influence the below ground fungal community composition. Soil water content on the other hand had an impact on the fungal community composition.}},
  author       = {{Klamer, Morten and Hedlund, Katarina}},
  issn         = {{0038-0717}},
  language     = {{eng}},
  number       = {{6}},
  pages        = {{983--988}},
  publisher    = {{Elsevier}},
  series       = {{Soil Biology & Biochemistry}},
  title        = {{Fungal diversity in set-aide agricultural soil investigated using terminal-restriction fragment length polymorphism}},
  url          = {{http://dx.doi.org/10.1016/j.soilbio.2004.01.017}},
  doi          = {{10.1016/j.soilbio.2004.01.017}},
  volume       = {{36}},
  year         = {{2004}},
}