Biogeochemical consequences of rapid microbial turnover and seasonal succession in soil.

@article{Schmidt2007BiogeochemicalCO,
  title={Biogeochemical consequences of rapid microbial turnover and seasonal succession in soil.},
  author={Steven K. Schmidt and Elizabeth K. Costello and Diana R. Nemergut and Cory C. Cleveland and Sasha C. Reed and Michael N. Weintraub and Allen F. Meyer and Alexandra M. Martin},
  journal={Ecology},
  year={2007},
  volume={88 6},
  pages={
          1379-85
        }
}
Soil microbial communities have the metabolic and genetic capability to adapt to changing environmental conditions on very short time scales. In this paper we combine biogeochemical and molecular approaches to reveal this potential, showing that microbial biomass can turn over on time scales of days to months in soil, resulting in a succession of microbial communities over the course of a year. This new understanding of the year-round turnover and succession of microbial communities allows us… 
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References

SHOWING 1-10 OF 59 REFERENCES
LINKS BETWEEN MICROBIAL POPULATION DYNAMICS AND NITROGEN AVAILABILITY IN AN ALPINE ECOSYSTEM
TLDR
It is concluded that the key event controlling N availability to alpine plants occurs after snow melt, when protein is released from the winter microbial biomass, which provides substrate for soil proteases, which supply plants with amino acids during the growing season.
NITROGEN MINERALIZATION: CHALLENGES OF A CHANGING PARADIGM
TLDR
A complete new conceptual model of the soil N cycle needs to incorporate recent research on plant–microbe competition and microsite processes to explain the dynamics of N across the wide range of N availability found in terrestrial ecosystems.
Microbial Community Succession in an Unvegetated, Recently Deglaciated Soil
TLDR
It is found that evenness, phylogenetic diversity, and the number of phylotypes were lowest in the youngest soils, increased in the intermediate aged soils, and plateaued in the oldest soils, while soil N pools significantly increased with soil age, perhaps as a result of the activity of the N-fixing Cyanobacteria.
Breaks in the cycle: dissolved organic nitrogen in terrestrial ecosystems
Dissolved organic nitrogen (DON) is present in soils and streams around the world. We are only now beginning to explore the important roles this chemically heterogeneous mixture of compounds plays in
Microbial growth under the snow: Implications for nutrient and allelochemical availability in temperate soils
Recent work has shown that plant litter inputs fuel microbial growth in autumn and winter resulting in a large increase of microbial biomass under the snow pack in tundra soils. This winter-adapted
Seasonal Changes in an Alpine Soil Bacterial Community in the Colorado Rocky Mountains
TLDR
Cl clone libraries of 16S ribosomal DNA from alpine soil collected in winter, spring, and summer produced generally distinct groups of organisms, and two approaches gave consistent accounts of seasonal changes in microbial diversity.
Plants actively control nitrogen cycling: uncorking the microbial bottleneck.
TLDR
It is stressed that under many circumstances plant species exert a major influence over soil N cycling rates via unique N attainment strategies, thus influencing soil N availability and their own fitness.
Landscape‐Level Patterns of Microbial Community Composition and Substrate Use in Upland Forest Ecosystems
TLDR
The results indicate that floristically and edaphiinput of dead fine roots to mineral soil, the majority of cally distinct forest ecosystems also differ in microbial community composition and substrate use, consistent across aboveground litter is deposited in late autumn.
Seasonal Dynamics of Previously Unknown Fungal Lineages in Tundra Soils
TLDR
It is shown that tundra soil microbial biomass reaches its annual peak under snow, and that fungi account for most of the biomass.
Active microbial RNA turnover in a grassland soil estimated using a 13CO2 spike
...
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