Advanced

Estimation of fungal growth rates in soil using C-14-acetate incorporation into ergosterol

Bååth, Erland LU (2001) In Soil Biology & Biochemistry 33(14). p.2011-2018
Abstract
A technique to estimate fungal growth rates in field samples was tested in soil. The technique is based on the addition of C-14-acetate to a soil slurry and the subsequent uptake and incorporation of the labelled acetate into the fungus specific substance ergosterol by the fungi. The addition of fungal inhibitors decreased acetate incorporation rates, while bacterial inhibitors did not. Fungus-free soil exhibited no incorporation of acetate into ergosterol, indicating that the method was specific for measuring fungal activity. Incorporation rates were linear up to 18 h after the addition of acetate indicating that changing the conditions (adding acetate as a solution to a soil slurry) did not affect the incorporation rate. Problems... (More)
A technique to estimate fungal growth rates in field samples was tested in soil. The technique is based on the addition of C-14-acetate to a soil slurry and the subsequent uptake and incorporation of the labelled acetate into the fungus specific substance ergosterol by the fungi. The addition of fungal inhibitors decreased acetate incorporation rates, while bacterial inhibitors did not. Fungus-free soil exhibited no incorporation of acetate into ergosterol, indicating that the method was specific for measuring fungal activity. Incorporation rates were linear up to 18 h after the addition of acetate indicating that changing the conditions (adding acetate as a solution to a soil slurry) did not affect the incorporation rate. Problems associated with saturation of the incorporation of the added acetate were encountered, which together with uncertain conversion factors made calculations of absolute growth rates difficult. However, for relative comparisons the technique worked well. This was exemplified by measuring the relationship between temperature and growth rate of the soil fungal community, where an optimum temperature between 25 and 30 degreesC and an apparent minimum temperature for fungal growth of -11 degreesC were found. The technique was also used to indicate which nutrients limited instantaneous fungal growth in soil by adding carbon, nitrogen and phosphorus in different combinations and measuring the rate of acetate incorporation into ergosterol 2 days later. Carbon appeared to be the limiting nutrient for fungal growth in both an agricultural soil and a forest humus soil. (C) 2001 Elsevier Science Ltd. All rights reserved. (Less)
Please use this url to cite or link to this publication:
author
organization
publishing date
type
Contribution to journal
publication status
published
subject
in
Soil Biology & Biochemistry
volume
33
issue
14
pages
2011 - 2018
publisher
Elsevier
external identifiers
  • scopus:18044401723
ISSN
0038-0717
DOI
10.1016/S0038-0717(01)00137-7
language
English
LU publication?
yes
id
6c5f02ae-e528-457e-8b40-1ee5776d2b0e (old id 146942)
date added to LUP
2007-06-29 09:08:40
date last changed
2018-03-04 04:33:42
@article{6c5f02ae-e528-457e-8b40-1ee5776d2b0e,
  abstract     = {A technique to estimate fungal growth rates in field samples was tested in soil. The technique is based on the addition of C-14-acetate to a soil slurry and the subsequent uptake and incorporation of the labelled acetate into the fungus specific substance ergosterol by the fungi. The addition of fungal inhibitors decreased acetate incorporation rates, while bacterial inhibitors did not. Fungus-free soil exhibited no incorporation of acetate into ergosterol, indicating that the method was specific for measuring fungal activity. Incorporation rates were linear up to 18 h after the addition of acetate indicating that changing the conditions (adding acetate as a solution to a soil slurry) did not affect the incorporation rate. Problems associated with saturation of the incorporation of the added acetate were encountered, which together with uncertain conversion factors made calculations of absolute growth rates difficult. However, for relative comparisons the technique worked well. This was exemplified by measuring the relationship between temperature and growth rate of the soil fungal community, where an optimum temperature between 25 and 30 degreesC and an apparent minimum temperature for fungal growth of -11 degreesC were found. The technique was also used to indicate which nutrients limited instantaneous fungal growth in soil by adding carbon, nitrogen and phosphorus in different combinations and measuring the rate of acetate incorporation into ergosterol 2 days later. Carbon appeared to be the limiting nutrient for fungal growth in both an agricultural soil and a forest humus soil. (C) 2001 Elsevier Science Ltd. All rights reserved.},
  author       = {Bååth, Erland},
  issn         = {0038-0717},
  language     = {eng},
  number       = {14},
  pages        = {2011--2018},
  publisher    = {Elsevier},
  series       = {Soil Biology & Biochemistry},
  title        = {Estimation of fungal growth rates in soil using C-14-acetate incorporation into ergosterol},
  url          = {http://dx.doi.org/10.1016/S0038-0717(01)00137-7},
  volume       = {33},
  year         = {2001},
}