Rapid shift from denitrification to nitrification in soil after biogas residue application as indicated by nitrous oxide isotopomers
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Köster JR, Cárdenas LM, Senbayram M, Bol R, Well R, Butler M, Mühling KH, Dittert K (2011) Rapid shift from denitrification to nitrification in soil after biogas residue application as indicated by nitrous oxide isotopomers. Soil Biol Biochem 43(8):1671-1677, DOI:10.1016/j.soilbio.2011.04.004
Microbial immobilization and mineralization of dissolved organic nitrogen from forest floors
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Schmidt BH, Kalbitz K, Braun S, Fuß R, McDowell WH, Matzner E (2011) Microbial immobilization and mineralization of dissolved organic nitrogen from forest floors. Soil Biol Biochem 43(8):1742-1745, DOI:10.1016/j.soilbio.2011.04.021
Soil microbial biomass: the eco-physiological approach
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Anderson T-H, Domsch KH (2010) Soil microbial biomass: the eco-physiological approach. Soil Biol Biochem 42(12):2039-2043, DOI:10.1016/j.soilbio.2010.06.026
Effect of antecedent soil moisture conditions on emissions and isotopologue distribution of N2O during denitrification
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Bergstermann A, Cárdenas LM, Bol R, Gilliam L, Goulding K, Meijide A, Scholefield D, Vallejo A, Well R (2010) Effect of antecedent soil moisture conditions on emissions and isotopologue distribution of N2O during denitrification. Soil Biol Biochem 43(2):240-250
Repeated 14CO2 pulse-labelling reveals an additional net gain of soil carbon during growth of spring wheat under free air carbon dioxide enrichment (FACE)
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Martens R, Heiduk K, Pacholski AS, Weigel H-J (2009) Repeated 14CO2 pulse-labelling reveals an additional net gain of soil carbon during growth of spring wheat under free air carbon dioxide enrichment (FACE). Soil Biol Biochem 41(12):2422-2429, DOI:10.1016/j.soilbio.2009.08.018
Impact of the earthworm Lumbricus terrestris on the degradation of Fusarium-infected and deoxynivalenol-contaminated wheat straw
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Oldenburg E, Kramer S, Schrader S, Weinert J (2008) Impact of the earthworm Lumbricus terrestris on the degradation of Fusarium-infected and deoxynivalenol-contaminated wheat straw. Soil Biol Biochem 40(12):3049-3053, DOI:10.1016/j.soilbio.2008.09.004
Atmospheric CO2 enrichment induces life strategy- and species-specific responses of collembolans in the rhizosphere of sugar beet and winter wheat
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Sticht C, Schrader S, Giesemann A, Weigel H-J (2008) Atmospheric CO2 enrichment induces life strategy- and species-specific responses of collembolans in the rhizosphere of sugar beet and winter wheat. Soil Biol Biochem 40(6):1432-1445, DOI:10.1016/j.soilbio.2007.12.022
Structural differences in the rhizosphere communities of legumes are not equally reflected in community-level physiological profiles
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Miethling R, Ahrends K, Tebbe CC (2003) Structural differences in the rhizosphere communities of legumes are not equally reflected in community-level physiological profiles. Soil Biol Biochem 35(10):1405-1410
Liming induces growth of a diverse flora of ammonia-oxidising bacteria in acid spruce forest soil as determined by SSCP and DGGE
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Bäckman JSK, Hermansson A, Tebbe CC, Lindgren PE (2003) Liming induces growth of a diverse flora of ammonia-oxidising bacteria in acid spruce forest soil as determined by SSCP and DGGE. Soil Biol Biochem 35(10):1337-1347
Comparison of soil fungal/bacterial ratios in a pH gradient using physiological and PLFA-based techniques
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Baath E, Anderson T-H (2003) Comparison of soil fungal/bacterial ratios in a pH gradient using physiological and PLFA-based techniques. Soil Biol Biochem 35(7):955-963