Journal
GEODERMA
Volume 139, Issue 1-2, Pages 220-228Publisher
ELSEVIER
DOI: 10.1016/j.geoderma.2007.02.004
Keywords
black carbon; Bad Lauchstadt; Halle; Rotthalmunster; soil particle-size fractions; soil density fractions
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There is evidence of black carbon (BC contributing to stable humus in the soil environment but its quantity and fate are poorly examined. We used benzene polycarboxylic acids (BPCAs) as markers to assess the contents and distribution of BC in soils and soil fractions of the long-term field experiments in Halle (Haplic Phaeozem), Bad Lauchstadt (Haplic Chemozem), Rotthalmunster (Haplic Luvisol) and an additional site near Bad Lauchstadt (Haplic Phaeozem), Germany. Black carbon comprised 11.9-13.2% of organic C in the top soils (0-10 cm) of the black soils located around Halle and Bad Lauchstadt while it explained only 2.7% of organic carbon in the Haplic Luvisol of Rotthalmunster. The BPCA pattern at Bad Lauchstadt and Halle suggested that two thirds of BC were of fossil origin. In general, BC contents (in g kg(-1) soil) decreased with increasing soil depth. The C-normalized BC concentrations, however, increased and reached 35 +/- 7% of organic carbon at a depth of 87-114 cm. With increasing depth BC was increasingly localized in the coarse silt and sand fractions and the heavy mineral fraction. This indicated that BC was connected to the minerals of this size and preserved there. Inorganic fertilization for > 30 years did not affect BC contents. (c) 2007 Elsevier B.V. All rights reserved.
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