Summary
The use of lime increased heat output and decreased the C:N ratio (global indicators of biological activity) in the organic horizons of a spruce forest (Picea abies L.) soil. These changes were still present after 18 years. During the same period, the muramic acid content increased slightly, while the concentration of both ergosterol and glucosamine decreases. The ratios of ergosterol or glucosamine to muramic acid decreased significantly after 3 years in the plots that had been irrigated and limed, and after 8 years in the limed non-irrigated plots.
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References
Bååth E, Berg B, Lohm U, Lundgren B, Lundkvist H, Rosswall T, Söderström B, Wiren A (1980) Effects of experimental acidification and liming on soil organisms and decomposition in Scots pine forest. Pedobiologica 20:85–100
Durska G, Kaszubiak H (1983) Occurrence of bound muramic acid and α, ε-diaminopimelic acid in soil and comparison of their contents with bacterial biomass. Acta Microbiol Pol 32:257–263
Grant WD, West AW (1986) Measurement of ergosterol, diaminopimelic acid and glucosamine in soil: Evaluation as indicators of microbial biomass. J Microbiol Methods 6:47–53
Hicks RE, Newell SY (1983) An improved gas chromatographic method for measuring glucosamine and muramic acid concentrations. Anal Biochem 128:438–445
Hicks RE, Newell SY (1984) A comparison of glucosamine and biovolume conversion factors for estimating fungal biomass. Oikos 42:355–360
King JD, White DC (1977) Muramic acid as a measure of microbial biomass in estuarine and marine samples. Appl Environ Microbiol 33:777–783
Kreutzer K, Bittersohl J (1986) Untersuchungen über die Auswirkung des sauren Regens und der kompensatorischen Kalkung im Wald. Forstwiss Centralbl 105:273–282
Lang E, Beese F (1985) Die Reaktion der mikrobiellen Bodenpopulation auf Kalkungsmaßnahmen. Allg. Forstz 43:1166–1169
Lohm U, Larsson K, Nommik H (1984) Acidification and liming of coniferous forest soil: Long-term effects on turnover rates of carbon and nitrogen during an incubation experiment. Soil Biol Biochem 16:343–346
Mai H, Fiedler HJ (1979) Bodenmikrobiologische Untersuchungen an einem Fichtendüngungsversuch im Rauchschadgebiet des Erzgebirges. Zentral Bakt Abt I 134:651–659
Millar WN, Cassida LE (1970) Evidence for muramic acid in the soil. Can J Microbiol 18:299–304
Moriarty DJW (1975) A method for estimating the biomass of bacteria in aquatic sediments and its application in tropic studies. Oecologia (Berlin) 20:219–229
Seitz LM, Sauer DB, Burroughs R, Mohr HE, Hubbard JDT (1979) Ergosterol as a measure of fungal growth. Phytopathology 66:1202–1203
West AW, Grant WD, Sparling GP (1987) Use of ergosterol, diaminopimelic acid and glucosamine content of soils to monitor changes in microbial populations. Soil Biol Biochem 19:607–612
Zelles L (1988) The simultaneous determination of muramic acid and glucosamine in soil by high-performance liquid chromatography with precolumn fluorescence derivatisation. Biol Fertil Soils 6:125–130
Zelles L, Scheunert I, Kreutzer K (1987a) Effect of artificial irrigation, acid precipitation and liming on the microbial activity in soil of a spruce forest. Biol Fertil Soils 4:137–143
Zelles L, Hund K, Stepper K (1987b) Methoden zur relativen Quantifizierung der pilzlichen Biomasse im Boden. Z Pflanzenernaehr Bodenkd 150:249–252
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Zelles, L., Stepper, K. & Zsolnay, A. The effect of lime on microbial activity in spruce (Picea abies L.) forests. Biol Fertil Soils 9, 78–82 (1990). https://doi.org/10.1007/BF00335866
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DOI: https://doi.org/10.1007/BF00335866