Zusammenfassung
Die Masse der organischen Bodensubstanz macht in den meisten Oberböden nur wenige Prozentanteile aus, hat aber entscheidenden Einfluss auf alle Bodenfunktionen und spielt eine zentrale Rolle im globalen Kreislauf des Kohlenstoffs. Der Kohlenstoffgehalt bzw. der Schwarzanteil der Bodenfarbe sind daher ein differenzierendes Kriterium bei der Profilansprache in der deutschen und in internationalen Klassifikationen.
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Weiterführende Literatur
Bachmann, J., G. Guggenberger, T. Baumgartl, R.J. Ellerbrock, W.R. Fischer, M.-O. Goebel, R. Horn, E. Jasinska & K. Kaiser (2007): Physical carbon-sequestration mechanisms under special consideration of soil wettability. — J. Plant Nutr. Soil Sci. 170, 14–26.
Baldock, J.A., P.N. Nelson (2000): Soil organic matter. Kap. B2 in M. Sumner (Hrsg.): Handbook of soil science. CRC, Boca Raton
Doerr, S.H., C.J. Ritsema, L.W. Dekker, D.F. Scott & D. Carter (2007): Water repellence of soils: new insights and emerging research needs. — Hydrol. Processes 21, 2223–2228.
Friedel, J.K., E. Lettger (2003): Bodenhumus: Nährstoffgehalte und Nachlieferung. Kap. 2.2.6.2 Blume et al., ed. (1996ff): Hb der Bodenkunde. Wiley-VCH, Weinheim
Gregorich, E.G., M.H. Beare, U.F. Mckim & J.O. Skjemstad (2006): Chemical and biological characteristics of physically uncomplexed organic matter. — Soil Sci Soc. Am. J. 70, 975–985.
Haider, K. (1996): Biochemie des Bodens — Enke, Stuttgart.
Hedges, J.I., G. Eglington, P.G. Hatcher, D.L. Kirchman, C. Arnosti, S. Derenne, R.P. Evershed, I. Kögel-Knabner, J.W. De Leeuw, R. Littke, W. Michaelis & J. Rullkötter (2000): The molecularly-uncharacterized component of nonliving organic matter in natural environments. — Org. Geochem. 31, 945–958.
Jenkinson, D.S. (1990): The turnover of organic carbon and nitrogen in soil. — Phil. Trans. R. Soc. B, 329, 361–368.
Lal, R. (2008): Soils and sustainable agriculture. A review. — Agron. Sustain. Dev. 28, 57–64.
Knicker, H. (2007): How does fire affect the nature and stability of soil organic nitrogen and carbon? — A review. — Biogeochem. 85, 91–118.
Kögel-Knabner, I. (2002): A review on the macromolecular organic composition in plant and microbial residues as input to soil. — Soil Biol. Biochem. 34, 139–162.
Kögel-Knabner, I., G. Guggenberger, M. Kleber, E. Kandeler, K. Kalbitz, S. Scheu, K. Eusterhues & P. Leinweber (2008): Organo-mineral associations in temperate soils: integrating biology, mineralogy and organic matter chemistry. — J. Plant Nutr. Soil Sci. 171, 61–82.
Marschner, B. S. Brodowski, A. Dreves, G. Gleixner, P.-M. Grootes, U. Hamer, A. Heim, G. Jandl, R. Ji, K. Kaiser, K. Kalbitz, C. Kramer, P. Leinweber, J. Rethemeyer, M.W.I. Schmidt, L. Schwark, & G.L.B. Wiesenberg (2008): How relevant is recalcitrance for the stabilization of organic matter in soils? — J. Plant Nutr. Soil Sci. 171, 91–110.
Oades, J.M. (1988): The retention of organic matter in soils. Biogeochem. 5, 35–70.
Scharpenseel, H.-W., F.-M. P. Feiffer, P. Becker-Heidmann (2002): Alter der Humusstoffe. Kap. 2.2.3.5 in Blume et al., ed. (1996ff): Hb der Bodenkunde. Wiley-VCH, Weinheim
Swift, M.J., O.W. Heal & J. M. Anderson (1979): Decomposition in terrestrial ecosystems. — Blackwell, Oxford.
v. Lützow, M., I. Kögel-Knabner, K. Ekschmitt, H. Flessa, G. Guggenberger, E. Matzner & B. Marschner (2007): SOM fractionation methods: Relevance to functional pools and to stabilization mechanisms. — Soil Biol. Biochem. 39, 2183–2207.
v. Lützow, M., I. Kögel-Knabner, K. Ekschmitt, E. Matzner, G. Guggenberger, B. Marschner & H. Flessa (2006): Stabilization of organic matter in temperate soils: Mechanisms and their relevance under different soil conditions — a review. — Eur. J. Soil Sci. 57, 426–445.
Waksman, S.A. (1938): Humus: Origin, chemical composition and importance to nature. — Baillière, Tindall & Cox, London.
Zitierte Spezialliteratur
Ansorge, H. (1957): Z. Landw. Vers.-Untersuchungswes. 3, 499.
Batjes, N.H. (1996): Total carbon and nitrogen in the soils of the world. — Eur. J. Soil Sci. 47, 151–163.
Blankenburg, J. & W. Schäfer (1999): Bodenlandschaft der Moore in den Talsandniederungen der Altmoränenlandschaften, Moore im Teufelsmoor (Exkursion G 2). — Mitt. Deutschen Bodenk. Gesellschaft 90, 231–247.
Coleman, K. & D.S. Jenkinson (1999): RothC-26.3, A Model for the Turnover of Carbon in Soil: Model Description and User’s Guide. — Lawes Agricultural Trust, Harpenden, UK.
Dein, H. & H. Mertens (1955): — Z. Acker-und Pflanzenbau 100, 137.
ECCP [European Climate Change Programme] (2003): Working group sinks related to agricultural soils. — Final report, 76 pp.
Eusterhues, K., C. Rumpel, M. Kleber & I. Kögel-Knabner (2003): Stabilisation of soil organic matter by interactions with minerals as revealed by mineral dissolution and oxidative degradation. — Org. Geochem. 34, 1591–1600.
Eusterhues, K., C. Rumpel & I. Kögel-Knabner (2005): Organo-mineral associations in sandy acid forest soils: importance of specific surface area, iron oxides and micropores. — Eur. J. Soil Sci. 56, 753–763.
Fengel, D. & G. Wegener (1989): Wood: Chemistry, ultrastructure, reactions. — De Gruyter, Berlin.
Flessa, H., W. Amelung, M. Helfrich, G.L.B. Wiesenberg, G. Gleixner, S. Brodowski, J. Rethemeyer, C. Kramer & P.-M. Grootes (2008): Storage and stability of organic matter and fossil carbon in a Luvisol and Phaeozem with continuous maize cropping: A synthesis. — J. Plant Nutr. Soil Sci. 171, 36–51.
Garten, J., T. Charles & P.J. Hanson (2006): Measured forest soil C stocks and estimated turnover times along an elevation gradient. — Geoderma 136, 342–352.
Guggenberger, G., W. Zech, L. Haumaier & B.T. Christensen (1994): Land use effects on the composition of organic matter in particle-size separates of soils. II. CP-MAS and solution 13C-NMR analysis. — Eur. J. Soil Sci. 46, 147–158.
Haider, K. (1992): Problems related to the humification processes in soils of the temperate climate. In: J.-M. Bollag & G. Stotzky (Hrsg.): — Soil Biochemistry 7, 55–94. Dekker, New York.
Haynes, R.J. (2005): Labile organic matter fractions as central components of the quality of agricultural soils: an overview. — Advances in Agronomy 85, 221–268.
Helfrich, M., H. Flessa, R. Mikutta, A. Dreves & B. Ludwig (2007): Comparison of chemical fractionation methods for isolating stable soil organic carbon pools. — Eur. J. Soil Sci. 58, 1316–1329.
Iverson, H. (1953): Phosphorsäure 13, 200.
Jenkinson, D.S (1977): Studies on the decomposition of plant material in soil. V. The effects of plant cover and soil type on the loss of carbon from 14C-labelled ryegrass decomposing under field conditions. — J. Soil Sci. 28, 424–434.
Jenkinson, D.S. (1988): Soil organic matter and its dynamics. In: A. Waid (Hrsg.): Russel’s soil conditions and plant growth, 11 ed., 564–607 — Longman, Harlow.
Jenkinson, D.S. (1981): The fate of plant and animal residues in soil. In: The chemistry of soil processes (ed. M.H.B. Hayes), 505–561. — Wiley, Chichester
John, B., T. Yamashita, B. Ludwig & H. Flessa (2005): Storage of organic carbon in aggregate and density fractions of silty soils under different types of land use. — Geoderma, 128, 63–79.
Kalbitz, K., B. Glaser & R. Bol (2004): Clear-cutting of a Norway spruce stand: implications for controls on the dynamics of dissolved organic matter in the forest floor. — Eur. J. Soil Sci. 55, 401–413.
Kalbitz, K., A. Meyer, R. Yang & P. Gerstberger (2007): Response of dissolved organic matter in the forest floor to long-term manipulation of litter and through-fall inputs. — Biogeochem. 86, 301–318.
Kögel-Knabner, I., K. Ekschmitt, H. Flessa, G. Guggenberger, E. Matzner, B. Marschner & M. Von Lützow (2008): An integrative approach of organic matter stabilization in temperate soils: Linking chemistry, physics, and biology. — J. Plant Nutr. Soil Sci. 171, 5–13.
Knorr, W., I. Prentice, J.I. House & E.A. Holland (2005): Long-term sensitivity of soil carbon turnover to warming. — Nature 433, 298–301.
Ladd, J.N., R.C. Foster, P. Nannipieri & J.M. Oades (1996): Soil structure and biological activity. In: Bollag, J.-M. & G. Stotzky (Hrsg.): — Soil Biochem. 9, 23–78. Dekker, New York.
Lair, G.H., M.H. Gerzabek & G. Haberhauer (2007): Sorption of heavy metals on organic and inorganic soil constituents. — Environ Chem Lett. 5, 23–27.
Ludwig, B., M. Helfrich & H. Flessa (2005): Model ling the long-term stabilization of carbon from maize in a silty soil. — Plant and Soil 278, 315–325.
Neumann, F. (1979): Böden in Landschaftsausschnitten Bayerns. II. Südliches Tertiär-Hügelland und Ampertal. — Bayer. Landw. Jb. 56, 960–971.
Olah, G.-M., O. Reisinger & G. Kilbertus (1978): Biodégradation et humification. Atlas ultrastructural. — Presses de l’université Laval, Quebec.
Rethemeyer, J. (2004): Organic carbon transformation in agricultural soils: Radiocarbon analysis of organic matter fractions and biomarker compounds. — Dissertation, Christian-Albrechts-Universität
Rumpel, C., I. Kögel-Knabner & F. Bruhn (2002): Vertical distribution, age, and chemical composition of organic carbon in two forest soils of different pedogenesis. — Org. Geochem. 33, 1131–1142.
Schmalfuss, K. & G. Kolbe (1961): Wiss. Z. Univ. Halle, Math.-Nat. X, S. 425.
Schmidt, M.W.I., J.O. Skjemstad, E. Gehrt & I. Kögel-Knabner (1999): Charred organic carbon in German chernozemic soils. — Eur. J. Soil Sci. 50, 351–365.
Schöning, I. & I. Kögel-Knabner (2006): Chemical composition of young and old carbon pools throughout Cambisol and Luvisol profiles under forests. — Soil Biol. Biochem. 38, 2411–2424.
Schulten, H.-R. & P. Leinweber (2000): New insights into organo-mineral particles: composition, properties and models of molecular structure. — Biol. Fertil. Soils 30, 399–432.
Six, J., C. Feller, K. Denef, S.M. Ogle, J.C. De Moraes Sa & A. Albrecht (2002): Soil organic matter, biota and aggregation in temperate and tropical soils — Effects of no-tillage. — Agronomie, 22, 755–775.
Spielvogel, S., J. Prietzel & I. Kögel-Knabner (2006): Soil organic matter changes in a spruce ecosystem 25 years after disturbance. — Soil Sci. Soc. Am. J. 70, 2130–2145.
Spielvogel, S., J. Prietzel & I. Kögel-Knabner (2008): Soil organic matter stabilization in acidic forest soils is preferential and soil type-specific. — Eur. J. Soil Sci. 59, 674–692.
Stokstad, E. (2004): Defrosting the carbon freezer of the North. In: Soils: The final frontier. — Science 304, 1618–1620.
Trumbore, S.E. (2000): Age of soil organic matter and soil respiration: Radiocarbon constraints on belowground dynamics. — Ecological Applications, 10, 399–411.
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Blume, HP. et al. (2010). Organische Bodensubstanz. In: Lehrbuch der Bodenkunde. Spektrum Akademischer Verlag, Heidelberg. https://doi.org/10.1007/978-3-8274-2251-4_3
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