Evaluation of conceptual models of natural organic matter (humus) from a consideration of the chemical and biochemical processes of humification
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[1] E. Haslam. Practical Polyphenolics: From Structure to Molecular Recognition and Physiological Action , 1998 .
[2] K. Espelie,et al. Chemistry, Biochemistry, and Function of Suberin and Associated Waxes , 1989 .
[3] T. Lam,et al. Cinnamic acid bridges between cell wall polymers in wheat and phalaris internodes , 1992 .
[4] D. Martens,et al. Soil amino acid composition quantified by acid hydrolysis and anion chromatography-pulsed amperometry. , 2003, Journal of agricultural and food chemistry.
[5] A. Scalbert. Antimicrobial properties of tannins , 1991 .
[6] Y. Sakai,et al. Wax ester production by bacteria. , 2003, Current opinion in microbiology.
[7] B. Faust. Aquatic Photochemical Reactions in Atmospheric, Surface, and Marine Waters: Influences on Oxidant Formation and Pollutant Degradation , 1999 .
[8] M. C. Etter. Encoding and decoding hydrogen-bond patterns of organic compounds , 1990 .
[9] E. Schleicher,et al. New Aspects of the Maillard Reaction in Foods and in the Human Body , 1990 .
[10] M. Nanny,et al. Terpenoids as major precursors of dissolved organic matter in landfill leachates, surface water, and groundwater. , 2003, Environmental science & technology.
[11] J. Leenheer,et al. Mechanism of formation of humus coatings on mineral surfaces. 3. Composition of adsorbed organic acids from compost leachate on alumina by solid-state 13C NMR , 1996 .
[12] J. Leenheer,et al. Use of 13C NMR and ftir for elucidation of degradation pathways during natural litter decomposition and composting I. early stage leaf degradation , 1996 .
[13] K. Haider,et al. Incorporation studies of NH+4 during incubation of organic residues by l5N‐CPMAS‐NMR‐spectroscopy , 1997 .
[14] Michael A. Wilson,et al. Aspects of the chemical structure of soil organic materials as revealed by solid-state13C NMR spectroscopy , 1992 .
[15] J. I. Seeman,et al. A model that distinguishes the pyrolysis of d-glucose, d-fructose, and sucrose from that of cellulose. Application to the understanding of cigarette smoke formation , 2003 .
[16] D. Pimentel,et al. Environmental and Economic Costs of Soil Erosion and Conservation Benefits , 1995, Science.
[17] Samuel H. Gellman,et al. Foldamers: A Manifesto , 1998 .
[18] C. Langford,et al. The Interrelationship of Aggregation and Cation Binding of Fulvic Acid , 1984 .
[19] M. Hajaligol,et al. Effect of pyrolysis conditions on the formation of polycyclic aromatic hydrocarbons (PAHs) from polyphenolic compounds , 2003 .
[20] D. Morris,et al. Chemical and optical changes in freshwater dissolved organic matter exposed to solar radiation , 2001 .
[21] Zhongtang Yu,et al. Apparent Contradiction: Psychrotolerant Bacteria from Hydrocarbon-Contaminated Arctic Tundra Soils That Degrade Diterpenoids Synthesized by Trees , 2000, Applied and Environmental Microbiology.
[22] G. G. Gross. 3.20 – Biosynthesis of Hydrolyzable Tannins , 1999 .
[23] T. McIntosh,et al. Polyphenols increase adhesion between lipid bilayers by forming interbilayer bridges. , 1999, Basic life sciences.
[24] R. Wershaw,et al. The fractionation of humic acids from natural water systems , 1973 .
[25] C. Masiello,et al. Final recommendations for reference materials in black carbon analysis , 2003 .
[26] A. Heredia,et al. Biophysical and biochemical characteristics of cutin, a plant barrier biopolymer. , 2003, Biochimica et biophysica acta.
[27] B. Simoneit,et al. Organic Tracers from Wild Fire Residues in Soils and Rain/River Wash-Out , 2002 .
[28] R. Wershaw,et al. Solubilization of Anthropogenic Compounds by Humic Substances , 2001 .
[29] K. Domsch,et al. The metabolic quotient for CO2 (qCO2) as a specific activity parameter to assess the effects of environmental conditions, such as ph, on the microbial biomass of forest soils , 1993 .
[30] M. V. Boekel. Kinetic aspects of the Maillard reaction: a critical review. , 2001 .
[31] Jeffrey I. Seeman,et al. Formation of low molecular weight heterocycles and polycyclic aromatic compounds (PACs) in the pyrolysis of α-amino acids , 2003 .
[32] N. Parameswaran,et al. Micromorphology of naturally degraded beech and spruce barks , 1979 .
[33] L. Donaldson. Lignification and lignin topochemistry - an ultrastructural view. , 2001, Phytochemistry.
[34] M. Kwon,et al. Dirigent proteins and dirigent sites in lignifying tissues. , 2001, Phytochemistry.
[35] I. Kögel‐Knabner,et al. The effect of 10% HF treatment on the resolution of CPMAS 13C NMR spectra and on the quality of organic matter in Ferralsols , 2003 .
[36] J. González-Pérez,et al. The effect of fire on soil organic matter--a review. , 2004, Environment international.
[37] J. Oades,et al. Paramagnetic effects on solid state carbon-13 nuclear magnetic resonance spectra of soil organic matter. , 2002, Journal of Environmental Quality.
[38] Y Y Leshem,et al. Plant senescence processes and free radicals. , 1988, Free radical biology & medicine.
[39] M. Fujiwara,et al. CP/MAS (13)C NMR study of cellulose and cellulose derivatives. 1. Complete assignment of the CP/MAS (13)C NMR spectrum of the native cellulose. , 2002, Journal of the American Chemical Society.
[41] Michael A. Wilson,et al. Solid-state CP/MAS 13C N.M.R. analysis of bacterial and fungal cultures isolated from a soil incubated with glucose , 1990 .
[42] M Pean,et al. Elucidation of new structures in lignins of CAD- and COMT-deficient plants by NMR. , 2001, Phytochemistry.
[43] G. Fuchs,et al. Reinvestigation of a New Type of Aerobic Benzoate Metabolism in the Proteobacterium Azoarcus evansii , 2001, Journal of bacteriology.
[44] F. J. Stevenson. HUmus Chemistry Genesis, Composition, Reactions , 1982 .
[45] D. Angers,et al. Tillage-induced differences in organic matter of particle-size fractions and microbial biomass , 1993 .
[46] D. Jenkinson,et al. Microbial biomass in soil: measurement and turnover. , 1981 .
[47] E. T. Elliott,et al. Particulate soil organic-matter changes across a grassland cultivation sequence , 1992 .
[48] J. Havel,et al. Supramolecular interactions of humic acids with organic and inorganic xenobiotics studied by capillary electrophoresis. , 2003, Chemosphere.
[49] K. Hunter,et al. Polarographic study of the interaction between humic acids and other surface-active organics in river waters , 1986 .
[50] M. Andreae,et al. Formation of Secondary Organic Aerosols Through Photooxidation of Isoprene , 2004, Science.
[51] F. Shafizadeh,et al. The chemistry of pyrolysis and combustion , 1984 .
[52] J. Bollag,et al. Release of substituents from phenolic compounds during oxidative coupling reactions. , 2003, Chemosphere.
[53] Sidney I. Miller,et al. Photooxidation of Phenol, Cresols, and Dihydroxybenzenes1,2 , 1966 .
[54] Glen R. Cass,et al. Lignin pyrolysis products, lignans, and resin acids as specific tracers of plant classes in emissions from biomass combustion , 1993 .
[55] G. Cass,et al. Sources of Fine Organic Aerosol. 9. Pine, Oak, and Synthetic Log Combustion in Residential Fireplaces , 1998 .
[56] A. Voragen,et al. New enzymes active towards pectic structures. , 1996 .
[57] B. Dell,et al. Application of actinomycetes to soil to ameliorate water repellency , 2002, Letters in applied microbiology.
[58] T. Iversen,et al. CP/MAS 13C-NMR spectroscopy applied to structure and interaction studies on cellulose I. , 1999, Solid state nuclear magnetic resonance.
[59] R. Larson,et al. Singlet Oxygen in the Environment , 1999 .
[60] J. Harder,et al. Microbial degradation of monoterpenes in the absence of molecular oxygen , 1995, Applied and environmental microbiology.
[61] M. Friedman. Food browning and its prevention: an overview , 1996 .
[62] G. Sposito,et al. Surface geochemistry of the clay minerals. , 1999, Proceedings of the National Academy of Sciences of the United States of America.
[63] M. Leisola,et al. Rapid Degradation of Isolated Lignins by Phanerochaete chrysosporium , 1983, Applied and environmental microbiology.
[64] M. Clifford,et al. Black Tea Dimeric and Oligomeric Pigments—Structures and Formation , 1999 .
[65] E. Haslam. Secondary metabolism — evolution and function: Products or processes? , 1994, CHEMOECOLOGY.
[66] M. Benjamin,et al. Comprehensive isolation of natural organic matter from water for spectral characterizations and reactivity testing , 2000 .
[67] F. Frimmel,et al. Photoformation of low-molecular-weight organic acids from brown water dissolved organic matter. , 2003, Environmental science & technology.
[68] P. Comménil,et al. Occurrence of a lipase in spores of Alternaria brassicicola with a crucial role in the infection of cauliflower leaves. , 1999, FEMS microbiology letters.
[69] H. Knicker. The feasibility of using DCPMAS 15N 13C NMR spectroscopy for a better characterization of immobilized 15N during incubation of 13C- and 15N-enriched plant material , 2002 .
[70] M. Sigman,et al. The Photochemistry of PAHs and PCBs in Water and on Solids , 1999 .
[71] C. N. Hewitt,et al. A global model of natural volatile organic compound emissions , 1995 .
[72] C. Lechner,et al. Direct Ring Fission of Salicylate by a Salicylate 1,2-Dioxygenase Activity from Pseudaminobacter salicylatoxidans , 2001, Journal of bacteriology.
[73] Y. Ohta. Simple Organic Acids , 1989 .
[74] V. Martin,et al. Recent advances in understanding resin acid biodegradation: microbial diversity and metabolism , 1999, Archives of Microbiology.
[75] Samuel H. Gellman. Foldamers: A Manifesto , 1998 .
[76] D. Laird,et al. Nature of clay-humic complexes in an agricultural soil. I. Chemical, biochemical, and spectroscopic analyses , 2001 .
[77] A. Tauer,et al. Influence of thermally processed carbohydrate/amino acid mixtures on the fermentation by Saccharomyces cerevisiae. , 2004, Journal of agricultural and food chemistry.
[78] H. Schulten,et al. Three-dimensional models for humic acids and soil organic matter , 1995, Naturwissenschaften.
[79] C. Masiello,et al. Black carbon in deep-Sea sediments , 1998, Science.
[80] P. Buurman,et al. Water‐soluble organic matter in incipient podzols: accumulation in B horizons or in fibres? , 1999 .
[81] C. Crestini,et al. Structural modifications induced during biodegradation of wheat lignin by Lentinula edodes. , 1998, Bioorganic & medicinal chemistry.
[82] H. Harvey,et al. Preservation of proteinaceous material during the degradation of the green alga Botryococcus braunii: A solid-state 2D 15 N 13 C NMR spectroscopy study , 2001 .
[83] A. Amrane,et al. Amino acids as carbon, energy and nitrogen sources for Penicillium camembertii , 2006 .
[84] M. Wilson,et al. Aspects of the chemical structure of soil organic materials as revealed by solid-state13C NMR spectroscopy , 1992 .
[85] E. W. Meijer,et al. Simulation of size exclusion chromatography for characterization of supramolecular complex: a theoretical study. , 2004, Journal of chromatography. A.
[86] David S. Powlson,et al. A Procedure for Isolating Soil Organic Matter Fractions Suitable for Modeling , 2001 .
[87] M. V. van Boekel,et al. Kinetic aspects of the Maillard reaction: a critical review. , 2001, Die Nahrung.
[88] F. García-Carmona,et al. Cyclodextrins as activator and inhibitor of latent banana pulp polyphenol oxidase. , 1999, Journal of agricultural and food chemistry.
[89] R. Wershaw,et al. NMR characterization of humic acid fractions from different Philippine soils and sediments , 1990 .
[90] R. Evans,et al. Enhancement of 1,2-dehydration of alcohols by alkali cations and protons : a model for dehydration of carbohydrates , 2003 .
[91] G. Sheng,et al. Enhanced pesticide sorption by soils containing particulate matter from crop residue burns. , 2003, Environmental science & technology.
[92] Michael H. Abraham,et al. Hydrogen bonding. Part 9. Solute proton donor and proton acceptor scales for use in drug design , 1989 .
[93] R. Wershaw,et al. Use of 13C NMR and FTIR for elucidation of degradation pathways during natural litter decomposition and compositing. II. Changes in leaf composition after senescence , 1998 .
[94] Johannes Lehmann,et al. Nutrient availability and leaching in an archaeological Anthrosol and a Ferralsol of the Central Amazon basin: fertilizer, manure and charcoal amendments , 2003, Plant and Soil.
[95] R. Zepp,et al. Influence of algae on photolysis rates of chemicals in water. , 1983, Environmental science & technology.
[96] P. Albrecht,et al. A novel pathway of soil organic matter formation by selective preservation of resistant straight-chain biopolymers: chemical and isotope evidence , 1998 .
[97] R. Atalla,et al. The role of solid state 13C NMR spectroscopy in studies of the nature of native celluloses. , 1999, Solid state nuclear magnetic resonance.
[98] D. Ollis. Contaminant degradation in water. , 1985, Environmental science & technology.
[99] B. Iverson,et al. (1)H NMR investigation of solvent effects in aromatic stacking interactions. , 2001, Journal of the American Chemical Society.
[100] Georg Guggenberger,et al. The 'Terra Preta' phenomenon: a model for sustainable agriculture in the humid tropics , 2001, Naturwissenschaften.
[101] K. Paustian,et al. Sources and composition of soil organic matter fractions between and within soil aggregates , 2001 .
[102] R. Wershaw. A new model for humic materials and their interactions with hydrophobic organic chemicals in soil-water or sediment-water systems , 1986 .
[103] M. Schmidt,et al. Organic matter in particle‐size fractions from A and B horizons of a Haplic Alisol , 2002 .
[104] P. Kolattukudy. Polyesters in higher plants. , 2001, Advances in biochemical engineering/biotechnology.
[105] G. Condemine,et al. Regulation of pectinase biosynthesis in Erwinia chrysanthemi , 1996 .
[106] Glen Osmond,et al. An Improved Thermal Oxidation Method for the Quantification of Soot/Graphitic Black Carbon in Sediments and Soils , 2001 .
[107] T. Callaghan,et al. Effects of increased solar ultraviolet radiation on biogeochemical cycles. , 1995 .
[108] R. G. Brown. Emission and Flash Techniques in Environmental Photochemistry , 1999 .
[109] J. A. Trofymow,et al. PMAS-NMR spectroscopy and chemical analysis of coarse woody debris in coastal forests of Vancouver Island , 1998 .
[110] D. Tilman,et al. Global environmental impacts of agricultural expansion: the need for sustainable and efficient practices. , 1999, Proceedings of the National Academy of Sciences of the United States of America.
[111] H. Vezin,et al. Structural Characterization and Iron(III) Binding Ability of Dimeric and Polymeric Lignin Models. , 2001, Journal of colloid and interface science.
[112] S. I. Miller,et al. Photooxidation of phenol, cresols, and dihydroxybenzenes. , 1966, Journal of the American Chemical Society.
[113] J. Oades,et al. The heterogeneous nature of microbial products as shown by solid-state13C CP/MAS NMR spectroscopy , 1996 .
[114] J. Pérez,et al. Biodegradation and biological treatments of cellulose, hemicellulose and lignin: an overview , 2002, International microbiology : the official journal of the Spanish Society for Microbiology.
[115] Y. Ohta. Complex Aliphatic and Alicyclic Extractives , 1989 .
[116] Q. Beg,et al. Microbial alkaline pectinases and their industrial applications: a review , 2002, Applied Microbiology and Biotechnology.
[117] C. R. Wilson,et al. Transformation of Fatty Acids Catalyzed by Cytochrome P450 Monooxygenase Enzymes of Candida tropicalis , 2003, Applied and Environmental Microbiology.
[118] R. Sun,et al. Characterization and esterification of hemicelluloses from rye straw. , 2000, Journal of agricultural and food chemistry.
[119] P. Buurman,et al. Composition of plant tissues and soil organic matter in the first stages of a vegetation succession , 2001 .
[120] D. Martens. Nitrogen cycling under different soil management systems , 2001 .
[121] M. Kononova. Soil Organic Matter: Its Nature, Its Role in Soil Formation and in Soil Fertility , 2013 .
[122] M. Hofmann,et al. Molecular structures and associations of humic substances in the terrestrial environment , 2002, Naturwissenschaften.
[123] D. Argyropoulos,et al. A comparison of lignin polymer models (DHPs) and lignins by 31P NMR spectroscopy , 1996 .
[124] N. Lewis,et al. The macromolecular aromatic domain in suberized tissue: a changing paradigm. , 1998, Phytochemistry.
[125] G. Henriksson,et al. New Method for Quantitative Preparation of Lignin- Carbohydrate Complex from Unbleached Softwood Kraft Pulp: Lignin-Polysaccharide Networks I , 2003 .
[126] F A Quiocho,et al. Carbohydrate-binding proteins: tertiary structures and protein-sugar interactions. , 1986, Annual review of biochemistry.
[127] D. Boyd,et al. Aerobic Metabolism of 4-Hydroxybenzoic Acid in Archaea via an Unusual Pathway Involving an Intramolecular Migration (NIH Shift) , 2002, Applied and Environmental Microbiology.
[128] R. Wershaw,et al. Characterization of humic acid fractions by C‐13 nuclear magnetic resonance spectroscopy , 1988 .
[129] D. Sabatini,et al. Impacts of heterogeneous organic matter on phenanthrene sorption: equilibrium and kinetic studies with aquifer material. , 2000 .
[130] Stephen C. Fry. Comprehensive Natural Products Chemistry, Volume 3: Carbohydrates and Their Derivatives Including Tannins, Cellulose and Related Lignins , 2002 .
[131] M. Kleber,et al. Carbon storage in coarse and fine clay fractions of illitic soils , 2003 .
[132] M. J. van der Werf,et al. Rhodococcus erythropolis DCL14 Contains a Novel Degradation Pathway for Limonene , 1999, Applied and Environmental Microbiology.
[133] F. Hagedorn,et al. A 13C tracer study to identify the origin of dissolved organic carbon in forested mineral soils , 2004 .
[134] J. Baldock,et al. The effects of vegetation and burning on the chemical composition of soil organic matter of a volcanic ash soil as shown by 13C NMR spectroscopy. II. Density fractions , 1997 .
[135] D. Dubois,et al. Soil Fertility and Biodiversity in Organic Farming , 2002, Science.
[136] J. Skjemstad,et al. The chemistry and nature of protected carbon in soil , 1996 .
[137] B. Xing. NONLINEARITY AND COMPETITIVE SORPTION OF HYDROPHOBIC ORGANIC COMPOUNDS IN HUMIC SUBSTANCES , 1998 .
[138] U. Westermark,et al. Nondestructive Analysis of Lignin Structure by NMR Spectroscopy of Specifically 13C-Enriched Lignins. Part 1. Solid State Study of Ginkgo Wood , 2002 .
[139] A. Piccolo. THE SUPRAMOLECULAR STRUCTURE OF HUMIC SUBSTANCES , 2001 .
[140] C. J. van Oss,et al. Long‐range and short‐range mechanisms of hydrophobic attraction and hydrophilic repulsion in specific and aspecific interactions , 2003, Journal of molecular recognition : JMR.
[141] P. Hatcher,et al. Encapsulation of protein in humic acid from a Histosol as an explanation for the occurrence of organic nitrogen in soil and sediment. , 2000 .
[142] C. N. Hewitt,et al. Inventorying emissions from nature in Europe , 1999 .
[143] R. Wershaw,et al. Use of 13C NMR and FTIR for elucidation of degradation pathways during natural litter decomposition and compositing. IV. Characterization of humic and fulvic acids extracted from senescent leaves , 1998 .
[144] D. Reicosky,et al. Charcoal Carbon in U.S. Agricultural Soils , 2002 .
[145] L. Barber,et al. Nature and transformation of dissolved organic matter in treatment wetlands. , 2001, Environmental science & technology.
[146] C. Richard,et al. Mechanism of Phototransformation of Phenol and Derivatives in Aqueous Solution , 1999 .
[147] J. Benen,et al. Kinetics and mode of action of Aspergillus niger polygalacturonases. , 1996 .
[148] S. Bertilsson,et al. Reactions of hydroxyl radical with humic substances: bleaching, mineralization, and production of bioavailable carbon substrates. , 2002, Environmental science & technology.
[149] B. Simoneit,et al. Biomass burning — a review of organic tracers for smoke from incomplete combustion , 2002 .
[150] H. Nursten. Practical Polyphenolics: From Structure to Molecular Recognition and Physiological Action , 1999 .
[151] D. Rutherford,et al. Biogeochemical Processes That Produce Dissolved Organic Matter From Wheat Straw , 2003 .
[152] A. Voragen,et al. An hypothesis: the same six polysaccharides are components of the primary cell walls of all higher plants. , 1996 .
[153] S. Jansen,et al. Conformational Modeling of a New Building Block of Humic Acid: Approaches to the Lowest Energy Conformer , 1999 .
[154] C. Douglas. Phenylpropanoid metabolism and lignin biosynthesis: from weeds to trees , 1996 .
[155] Ibrahim Elmadfa,et al. Biological Relevance of Terpenoids , 2003, Annals of Nutrition and Metabolism.
[156] L. Jurd. Anthocyanins and Related Compounds. I. Structural Transformations of Flavylium Salts in Acidic Solutions , 1963 .
[157] A. M. Baruah,et al. Fermentation characteristics of some assamica clones and process optimization of black tea manufacturing. , 2003, Journal of agricultural and food chemistry.
[158] D. F. Zinkel. Fats and Fatty Acids , 2013, Pediatric Nutrition.
[159] R. Wershaw. Membrane-micelle model for humus in soils and sediments and its relation to humification , 1992 .
[160] E. Haslam,et al. Polyphenol interactions. Part 4. Model studies with caffeine and cyclodextrins , 1990 .
[161] Andreas Limbeck,et al. Secondary organic aerosol formation in the atmosphere via heterogeneous reaction of gaseous isoprene on acidic particles , 2003 .
[162] S. Meir,et al. Oxidative Defense Systems in Leaves of Three Edible Herb Species in Relation to Their Senescence Rates , 1994 .
[163] E. T. Elliott,et al. Carbon and Nitrogen Dynamics of Soil Organic Matter Fractions from Cultivated Grassland Soils , 1994 .
[164] Ingrid Kögel-Knabner,et al. Charred organic carbon in German chernozemic soils , 1999 .
[165] N. Blough,et al. Photochemical Formation of Hydroxyl Radical by Constituents of Natural Waters , 1998 .
[166] Fred Shafizadeh,et al. Introduction to pyrolysis of biomass , 1982 .
[167] D. Mohnen. 3.15 – Biosynthesis of Pectins and Galactomannans , 1999 .
[168] Jenn‐Shing Chen,et al. Characterization of soil organic matter in different particle-size fractions in humid subalpine soils by CP/MAS 13C NMR , 2003 .
[169] S. Camarero,et al. Preferential degradation of phenolic lignin units by two white rot fungi , 1994, Applied and environmental microbiology.
[170] M. Hajaligol,et al. Low temperature mechanism for the formation of polycyclic aromatic hydrocarbons from the pyrolysis of cellulose , 2003 .
[171] R. Qualls,et al. Biodegradability of Dissolved Organic Matter in Forest Throughfall, Soil Solution, and Stream Water , 1992 .
[172] W. Eisenreich,et al. A Novel Pathway of Aerobic Benzoate Catabolism in the BacteriaAzoarcus evansii and Bacillus stearothermophilus* , 2001, The Journal of Biological Chemistry.
[173] E. Meudec,et al. Reactions of anthocyanins and tannins in model solutions. , 2003, Journal of agricultural and food chemistry.
[174] M. Heinonen,et al. Antioxidant activity of anthocyanins and their aglycons. , 2003, Journal of agricultural and food chemistry.