SOM genesis: microbial biomass as a significant source

Allison SD, Jastrow JD (2006) Activities of extracellular enzymes in physically isolated fractions of restored grassland soils. Soil Biol Biochem 38:3245–3256

Barriuso E, Benoit P, Dubus IG (2008) Formation of pesticide nonextractable (bound) residues in soil: magnitude, controlling factors and reversibility. Environ Sci Technol 42:1845–1854

Bellamy PH, Loveland PJ, Bradley RI, Lark RM, Kirk GJD (2005) Carbon losses from all soils across England and Wales 1978–2003. Nature 437:245–247

Bombach P, Chatzinotas A, Neu TR, Kästner M, Lueders T, Vogt C (2010) Enrichment and characterization of a sulfate-reducing toluene-degrading microbial consortium by combining in situ microcosms and stable isotope probing techniques. FEMS Microbiol Ecol 71:237–246

Brodowski S, Amelung W, Haumaier L, Abetz C, Zech W (2005) Morphological and chemical properties of black carbon in physical soil fractions as revealed by scanning electron microscopy and energy-dispersive X-ray spectroscopy. Geoderma 128:116–129

Burns RG (1982) Enzyme activity in soil: location and a possible role in microbial ecology. Soil Biol Biochem 14:423–427

Chenu C, Stotzky G (2002) Interactions between microorganisms and soil particles: an overview. In: Huang PM, Bollag J-M, Senesi N (eds) Interactions between soil particles and microorganisms. Wiley, Chichester, pp 3–40

Cozzolino A, Conte P, Piccolo A (2001) Conformational changes of humic substances induced by some hydroxy-, keto-, and sulfonic acids. Soil Biol Biochem 33:2001

de Jonge LW, Moldrup P, Schjønning P (2009) Soil Infrastructure, interfaces & translocation processes in Inner Space (“Soil-it-is”): towards a road map for the constraints and crossroads of soil architecture and biophysical processes. Hydrol Earth Syst Sci 13:1485–1502

Drenovsky RE, Elliot GN, Graham KJ, Scow KM (2004) Comparison of phospholipid fatty acid (PLFA) and total soil fatty acid methyl esters (TSFAME) for characterizing soil microbial communities. Soil Biol Biochem 36:1793–1800

Fan TW-M, Lane AN, Chekmenev E, Wittebort RJ, Higashi RM (2004) Synthesis and physico-chemical properties of peptides in soil humic substances. J Pept Res 63:253–264

Flaig W (1975) An introductory review on humic substances: aspects of research on their genesis, their physical and chemical properties, and their effect on organisms. In: Povoledo D, Golterman HL (eds) Humic substances: their structure and function in the biosphere. Centre for Agricultural Publishing and Documentation, Wageningen, pp 19–42

Flaig W, Beutelspacher H, Rietz E (1975) Chemical composition and physical properties of humic substances. In: Gieseking JE (ed) Soil components organic components, vol I. Springer Verlag, New York, pp 1–211

Foster RC (1981) Polysaccharides in soil fabrics. Science 214:665–667

Foster RC (1988) Microenvironments of soil microorganisms. Biol Fertil Soils 6:189–203

Geyer R, Peacock AD, Miltner A, Richnow H-H, White DC, Sublette KL, Kästner M (2005) In situ assessment of biodegradation potential using biotraps amended with 13C-labelled benzene or toluene. Environ Sci Technol 39:4983–4989

Glaser B, Turrión M-B, Alef K (2004) Amino sugars and muramic acid—biomarkers for soil microbial community structure analysis. Soil Biol Biochem 36:399–407

Gleixner G, Bol R, Balesdent J (1999) Molecular insight into soil carbon turnover. Rapid Commun Mass Spectrom 13:1278–1283

Graber ER, Tagger S, Wallach R (2009) Role of divalent fatty acid salts in soil water repellency. Soil Sci Soc Am J 73:541–549

Grandy AS, Neff JC (2008) Molecular C dynamics downstream: the biochemical decomposition sequence and its impact on soil organic matter structure and function. Sci Total Environ 404:297–307

Grandy AS, Sinsabaugh RL, Neff JC, Stursova M, Zak DR (2008) Nitrogen deposition effects on soil organic matter chemistry are linked to variation in enzymes, ecosystems and size fractions. Biogeochemistry 91:37–49

Guggenberger G, Frey SD, Six J, Paustian K, Elliott ET (1999) Bacterial and fungal cell-wall residues in conventional and no-tillage agroecosystems. Soil Sci Soc Am J 63:1188–1198

Jobbágy EG, Jackson RB (2000) The vertical distribution of soil organic carbon and its relation to climate and vegetation. Ecol Appl 10(2):423–436

Jones DL (1999) Amino acid biodegradation and its potential effects on organic nitrogen capture by plants. Soil Biol Biochem 31:613–622

Kaiser K, Eusterhues K, Rumpel C, Guggenberger G, Kögel-Knabner I (2002) Stabilization of organic matter by soil minerals—investigations of density and particle-size fractions from two acid forest soils. J Plant Nutr Soil Sci 165:451–549

Kandeler E, Palli S, Stemmer M, Gerzabek MH (1999) Tillage changes microbial biomass and enzyme activities in particle-size fractions of a Haplic Chernozem. Soil Biol Biochem 31:1253–1264

Kappler A, Straub KL (2005) Geomicrobiological cycling of iron. Rev Mineral Geochem 59:85–108

Kästner M (2000) “Humification” process or formation of refractory soil organic matter. In: Klein J (ed) Environmental processes II, vol 11b. Biotechnology, 2nd edn. Wiley-VCH, Weinheim, pp 89–125

Kästner M, Richnow HH (2001) Formation of residues of organic pollutants within the soil matrix—mechanisms and stability. In: Stegmann R, Brunner G, Calmano W, Matz G (eds) Treatment of contaminated soil—fundamentals, analysis, applications. Springer-Verlag, Berlin, pp 219–251

Kästner M, Fischer A, Nijenhuis I, Geyer R, Stelzer N, Bombach P, Tebbe CC, Richnow HH (2006) Assessment of microbial in situ activity in contaminated aquifers. Eng Life Sci 6:234–251

Kelleher BP, Simpson AJ (2006) Humic substances in soil: are they really chemically distinct? Environ Sci Technol 40:4605–4611

Kiem R, Kögel-Knabner I (2003) Contribution of lignin and polysaccharides to the refractory carbon pool in C-depleted arable soils. Soil Biol Biochem 35:101–118

Kindler R, Miltner A, Richnow H-H, Kästner M (2006) Fate of gram-negative bacterial biomass in soil—mineralization and contribution to SOM. Soil Biol Biochem 38:2860–2870

Kindler R, Miltner A, Thullner M, Richnow H-H, Kästner M (2009) Fate of bacterial biomass-derived fatty acids in soil and their contribution to soil organic matter. Org Geochem 40:29–37

Kleber M, Sollins P, Sutton R (2007) A conceptual model of organo-mineral interactions in soils: self-assembly of organic molecular fragments into zonal structures on mineral surfaces. Biogeochemistry 85:9–24

Knicker H, Fründ R, Lüdemann HD (1993) The chemical nature of nitrogen in native soil organic matter. Naturwissenschaften 80:219–221

Kögel-Knabner I (2002) The macromolecular organic composition of plant and microbial residues as inputs to soil organic matter. Soil Biol Biochem 34:139–162

Kong AYY, Scow KM, Córdova-Kreylos AL, Holmes WC, Six J (2011) Microbial community composition and carbon cycling within soil microenvironments of conventional, low-input, and organic cropping systems. Soil Biol Biochem 43:20–30

Krull ES, Baldock JA, Skjemstad JO (2003) Importance of mechanisms and processes of the stabilization of soil organic matter for modelling carbon turnover. Funct Plant Biol 30:207–222

Lal R (2004) Soil carbon sequestration impacts on global climate change and food security. Science 304:1623–1627

Lamparter A, Bachmann J, Goebel M-O, Woche SK (2009) Carbon mineralization in soil: impact of wetting-drying, aggregation and water repellency. Geoderma 150:324–333

Liang C, Balser TC (2010) Microbial production of recalcitrant organic matter in global soils: implications for productivity and climate policy. Nat Rev Microbiol 9:75

Liang C, Cheng G, Wixon DL, Balser TC (2010) An absorbing markov chain approach to understanding the microbial role in soil carbon stabilization. Biogeochemistry (in press). doi: 10.1007/s10533-010-9525-3

Lichtfouse É, Berthier G, Houot S, Barriuso E, Bergheaud V, Vallaeys T (1995) Stable carbon isotope evidence for the microbial origin of C14–C18 n-alkanoic acids in soils. Org Geochem 23:849–852

Lueders T, Kindler R, Miltner A, Friedrich MW, Kaestner M (2006) Identification of bacterial micropredators distinctively active in a soil microbial food web. Appl Environ Microbiol 72:5342–5348

Madigan MT, Martinko JM (2006) Brock biology of microorganisms, 11th edn. Pearson Education Inc., Prentice Hall

Marschner B, Brodowski S, Dreves A, Gleixner G, Gude A, Grootes PM, Hamer U, Heim A, Jandl G, Ji R, Kaiser K, Kalbitz K, Kramer C, Leinweber P, Rethemeyer J, Schäffer A, Schmidt MWI, Schwark L, Wiesenberg GLB (2008) How relevant is recalcitrance for the stabilization of organic matter in soils? J Plant Nutr Soil Sci 171:91–110

Martin JP, Haider K (1971) Microbial activity in relation to soil humus formation. Soil Sci 111:54–63

Miltner A, Kindler R, Knicker H, Richnow H-H, Kästner M (2009) Fate of microbial biomass-derived amino acids in soil and their contribution to soil organic matter. Org Geochem 40:978–985

Nowak KM, Miltner A, Gehre M, Schäffer A, Kästner M (2011) Formation and fate of bound residues from microbial biomass during 2,4-D degradation in soil. Environ Sci Technol 45:999–1006

Ranjard L, Richaume A, Jocteur-Monrozier L, Nazaret S (1997) Response of soil bacteria to Hg(II) in relation to soil characteristics and cell location. FEMS Microbiol Ecol 24:321–331

Rasse DP, Dignac M-F, Bahri H, Rumpel C, Mariotti A, Chenu C (2006) Lignin turnover in an agricultural field: from plant residues to soil-protected fractions. Eur J Soil Sci 57:530–538

Schink B (1999) Habitats of Prokaryotes. In: Lengeler JW, Drews G, Schlegel HG (eds) Biology of the prokaryotes. Georg Thieme Verlag, Stuttgart, pp 763–803

Simpson RT, Frey SD, Six J, Thiet RK (2004) Preferential accumulation of microbial carbon in aggregate structures of no-tillage soils. Soil Sci Soc Am J 68:1249–1255

Simpson AJ, Simpson MJ, Smith E, Kelleher BP (2007a) Microbially derived inputs to soil organic matter: are current estimates too low? Environ Sci Technol 41:8070–8076

Simpson AJ, Song G, Smith E, Lam B, NE H, Hayes MHB (2007b) Unraveling the structural components of soil humin by use of solution-state nuclear magnetic resonance spectroscopy. Environ Sci Technol 41:876–883

Six J, Elliott ET, Keith P (2000) Soil macroaggregate turnover and microaggregate formation: a mechanism for C sequestration under no-tillage agriculture. Soil Biol Biochem 32:2099–2103

Six J, Frey SD, Thiet RK, Batten KM (2006) Bacterial and fungal contributions to carbon sequestration in agroecosystems. Soil Sci Soc Am J 70:555–569

Sollins P, Homann P, Caldwell BA (1996) Stabilization and destabilization of soil organic matter: mechanisms and controls. Geoderma 74:65–105

Stemmer M, Gerzabek MH, Kandeler E (1998) Organic matter and enzyme activity in particle-size fractions of soils obtained after low-energy sonication. Soil Biol Biochem 30:9–17

Stevenson FJ (1994) Humus chemistry: genesis, composition, reactions, 2nd edn. Wiley, New York

Tisdall JM, Oades JM (1982) Organic matter and water-stable aggregates in soils. J Soil Sci 33:141–163

von Lützow M, Kögel-Knabner I, Ekschmitt K, Matzner E, Guggenberger G, Marschner B, Flessa H (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

von Lützow M, Kögel-Knabner I, Ludwig B, Matzner E, Flessa H, Ekschmitt K, Guggenberger G, Marschner B, Kalbitz K (2008) Stabilization mechanisms of organic matter in four temperate soils: development and application of a conceptual model. J Plant Nutr Soil Sci 171:111–124

von Wandruszka R (1998) The micellar model of humic acid: evidence from pyrene fluorescence measurements. Soil Sci 163:921–930

Wershaw RL (1993) Model for humus in soils and sediments. Environ Sci Technol 27:814–816

Wershaw RL (1999) Molecular aggregation of humic substances. Soil Sci 164:803–813

Young IM, Crawford JW (2004) Interactions and self-organization in the soil-microbe complex. Science 304:1634–1637