Fungal and bacterial growth in soil with plantmaterials of different C/N ratios
Författare
Summary, in English
Fungal (acetate-in-ergosterol incorporation) and bacterial (leucine/thymidine
incorporation) growth resulting from alfalfa (C/N = 15) and barley straw
(C/N = 75) addition was studied in soil microcosms for 64 days. Nitrogen
amendments were used to compensate for the C/N difference between the
substrates. Fungal growth increased to a maximum after 3–7 days, at five to eight
times the controls, following the addition of straw, and three to four times the
controls following the addition of alfalfa. After 20–30 days, the fungal growth rate
converged with the controls, resulting in a cumulative fungal growth two to three
times the controls following straw addition and about 20% higher than
the controls following alfalfa addition. The bacterial growth rate reached rates five
times the controls following alfalfa addition and twice that of the controls
following straw addition after 3–7 days. It remained elevated after 64 days. The
cumulative bacterial growth was two and four times the controls following straw
and alfalfa addition, respectively. A negative correlation was found between
N addition and bacterial growth, while N stimulated fungal growth. Thus, the
C/N ratio of the additions (substrate and extra N) could not entirely explain the
different results regarding fungal and bacterial growths. Respiration was not always
related to the combined growth of the microorganisms, emphasizing the requirement
for a better understanding of growth efficiencies of fungi and bacteria.
incorporation) growth resulting from alfalfa (C/N = 15) and barley straw
(C/N = 75) addition was studied in soil microcosms for 64 days. Nitrogen
amendments were used to compensate for the C/N difference between the
substrates. Fungal growth increased to a maximum after 3–7 days, at five to eight
times the controls, following the addition of straw, and three to four times the
controls following the addition of alfalfa. After 20–30 days, the fungal growth rate
converged with the controls, resulting in a cumulative fungal growth two to three
times the controls following straw addition and about 20% higher than
the controls following alfalfa addition. The bacterial growth rate reached rates five
times the controls following alfalfa addition and twice that of the controls
following straw addition after 3–7 days. It remained elevated after 64 days. The
cumulative bacterial growth was two and four times the controls following straw
and alfalfa addition, respectively. A negative correlation was found between
N addition and bacterial growth, while N stimulated fungal growth. Thus, the
C/N ratio of the additions (substrate and extra N) could not entirely explain the
different results regarding fungal and bacterial growths. Respiration was not always
related to the combined growth of the microorganisms, emphasizing the requirement
for a better understanding of growth efficiencies of fungi and bacteria.
Avdelning/ar
Publiceringsår
2007
Språk
Engelska
Sidor
258-267
Publikation/Tidskrift/Serie
FEMS Microbiology Ecology
Volym
62
Issue
3
Länkar
Dokumenttyp
Artikel i tidskrift
Förlag
Oxford University Press
Ämne
- Biological Sciences
Nyckelord
- leucine/ thymidine incorporation
- acetate-in-ergosterol incorporation
- fungal and bacterial growth in soil
- C/N ratio
- ergosterol
- phospholipid fatty acid.
Status
Published
Projekt
- Interaction between fungi and bacteria in soil
- Effect of environmental factors on fungal and bacterial growth in soil
- Carbon drivers and microbial agents of soil respiration
- Microbial carbon-use efficiency
Forskningsgrupp
- Microbial Ecology
ISBN/ISSN/Övrigt
- ISSN: 1574-6941