Details zur Publikation

Kategorie Textpublikation
Referenztyp Zeitschriften
DOI 10.1007/s10533-011-9658-z
Volltext Shareable Link
Titel (primär) SOM genesis: microbial biomass a significant source
Autor Miltner, A. ORCID logo ; Bombach, P.; Schmidt-Brücken, B.; Kästner, M.
Quelle Biogeochemistry
Erscheinungsjahr 2012
Department ISOBIO; UBT
Band/Volume 111
Heft 1-3
Seite von 41
Seite bis 55
Sprache englisch
Keywords Soil organic matter; Humic compounds; C turnover; Microbial biomass; Bacterial cell walls; Scanning electron microscopy

Proper management of soil organic matter (SOM) is needed for maintaining soil fertility and for mitigation of the global increase in atmospheric CO2 concentrations and should be informed by knowledge about the sources, spatial organisation and stabilisation processes of SOM. Recently, microbial biomass residues (i.e. necromass) have been identified as a significant source of SOM. Here, we propose that cell wall envelopes of bacteria and fungi are stabilised in soil and contribute significantly to small-particulate SOM formation. This hypothesis is based on the mass balance of a soil incubation experiment with 13C-labelled bacterial cells and on the visualisation of the microbial residues by means of scanning electron microscopy (SEM). At the end of a 224-day incubation, 50% of the biomass-derived C remained in the soil, mainly in the non-living part of SOM (40% of the added biomass C). SEM micrographs only rarely showed intact cells. Instead, organic patchy fragments of 200–500 nm size were abundant and these fragments were associated with all stages of cell envelope decay and fragmentation. Similar fragments, developed on initially clean and sterile in situ microcosms during exposure to groundwater, provide clear evidence for their formation during microbial growth and surface colonisation. Microbial cell envelope fragments thus contribute significantly to SOM formation. This origin and the related macromolecular architecture of SOM are consistent with most observations on SOM, including the abundance of microbial-derived biomarkers, the low C/N ratio, the water repellency and the stabilisation of biomolecules, which in theory should be easily degradable.
dauerhafte UFZ-Verlinkung
Miltner, A., Bombach, P., Schmidt-Brücken, B., Kästner, M. (2012):
SOM genesis: microbial biomass a significant source
Biogeochemistry 111 (1-3), 41 - 55 10.1007/s10533-011-9658-z