Plant species influence microbial diversity and carbon allocation in the rhizosphere
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- 作者:Natalia Ladygina ; Katarina Hedlund
- 关键词:Stable isotopes ; PLFA markers ; Microbial communities ; Carbon partitioning ; Plant mixture
- 刊名:Soil Biology & Biochemistry
- 出版年:2010
- 出版时间:February 2010
- 年:2010
- 卷:42
- 期:2
- 页码:162-168
- 全文大小:301 K
文摘
Plant species effects on microbial communities are attributed to changes in microbial community composition and biomass, and may depend on plant species specific differences in the quality of resources (carbon) inputs. We examined the idea that plant–soil feedbacks can be explained by a chance effect, which is the probability of a highly productive or keystone plant species is present in the community and will influence the functions more than the number of species per se. A 13C pulse labelling technique was applied to three plant species and a species mixture in a greenhouse experiment to examine the carbon flow from plants to soil microbial communities. The 13C label was given as CO2 to shoots of a legume (Lotus corniculatus), a forb (Plantago lanceolata), a grass (Holcus lanatus) and a mixture of the three species. Microbial phospholipid fatty acids (PLFA) was analysed in order to determine the biomass and composition of the soil microbial community. The incorporation of the stable isotope into soil microorganisms was determined through GC–IRMS analyses of the microbial PLFAs. Plant species identity did not influence the microbial biomass when determined as total carbon of microbial phospholipid fatty acids. However, the labelled carbon showed that the grass monoculture (H. lanatus) and the plant mixture allocated more 13C into bacteria and actinomycete biomass than the other plant species. H. lanatus monocultures had also the highest amounts of 13C allocated to AM-fungi and saprophytic fungi. The carbon allocation from plants to soil microorganisms in a plant species mixture can thus be explained by the presence of a highly productive species that influence soil functions.