Journal
PLANT AND SOIL
Volume 374, Issue 1-2, Pages 803-813Publisher
SPRINGER
DOI: 10.1007/s11104-013-1887-6
Keywords
Aboveground biomass; Carbon cycle; Dissolved organic carbon; Festuca grassland; Microbial carbon; Summer drought; Root biomass
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Funding
- Spanish Ministry of Science [CGL 2008-901/BOS, AGL2010-16862/FOR]
- Spanish Ministry of Education [FPU-2005-0999]
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We assessed the temporal changes on microbial biomass in relation to changes in soil moisture, dissolved organic carbon and plant biomass during the summer season in a Mediterranean high-mountain grassland. Temporal variations were tested by two-way ANOVA. The relationships among microbial biomass, plant biomass, soil water content, soil organic carbon, dissolved organic carbon and total soil nitrogen during the summer season were assessed by means of structural equation modeling. Microbial biomass did not show variation, while dissolved organic carbon and root biomass decreased throughout the summer. Aboveground plant biomass peaked in the middle of the summer, when soil water content was at its minimum. Soil water content directly and negatively affected soil microbial biomass, and positively affected dissolved organic carbon. Moreover soil microbial biomass and dissolved organic carbon were negatively related. Plant biomass effects on soil microbial biomass were driven by root biomass, which indirectly affected soil microbial biomass through effects on soil organic carbon and soil nitrogen. The temporal dynamic of microbial biomass during the summer season appeared to differ from previous observations in temperate alpine communities, and indicated the drought resistance of the microbial community during the summer in Mediterranean high-mountain grasslands. During the dry period, microbial biomass may play an alternative role in soil carbon conservation.
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