Record ID No. |
4178 |
Author(s) |
Johanna Birgander, Johannes Rousk, Pål Axel Olsson , 2014 |
Affiliation |
Biodiversity, Department of Biology, Lund University, SE-223 62 Lund, Sweden, Email: Johanna.Birgander@biol.lu.se |
Title |
Comparison of fertility and seasonal effects on grassland microbial communities |
Source. Vol.(no):Page |
Soil Biology and Biochemistry 76 (September):80-89p. |
Categories |
Mycorrhiza General |
Subjects |
Soil plant relations |
Sub-subjects |
Soil reaction |
Organism |
Microbes (bacteria, Arbuscular mycorrhizal fungi) |
Country |
Sweden, Northern Europe |
Abstracts |
The activity of saprotrophic fungi and bacteria, and the balance between them, can affect decomposition. Arbuscular mycorrhizal (AM) fungi are also important for the nutrient and energy transfer in soil. Microbial community composition and activity are believed to have seasonal patterns, and are known to be highly influenced by environmental factors such as pH and nutrient conditions. To evaluate the importance of season for the variation in microbial decomposer community in a context of well-known environmental factor variation, we studied microbial growth, biomass and community structure along a fertility gradient (pH 5.9–8.1; NH4-N 3–19 μg g−1 soil, f.w.) in a sandy grassland during one year. The microbial community structure (phospholipid fatty acid (PLFA) composition) and biomass (PLFA and neutral lipid fatty acid (NLFA) signatures) as well as fungal (acetate incorporation in ergosterol) and bacterial (leucine incorporation) growth rates were investigated at eight seasonal time points during one year. The environmental factors pH and NH4 concentrations explained a larger share of the variation in the microbial community structure. Together they explained 37% of the variation, while season (proxied by temperature) only explained 6% of the variation in PLFA composition. Bacterial and fungal biomass were both highest in early spring, while AM fungal biomass peaked in early summer. Bacterial growth rate, on the other hand, was highest during the autumn, while fungal growth rate showed no clear seasonal pattern. In conclusion, the influence of seasonal variation on microbial communities proved to be relatively small compared to that which could be assigned to pH and NH4 in the studied ranges. |