Journal ArticleDOI
The contentious nature of soil organic matter
Johannes Lehmann,Markus Kleber +1 more
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TLDR
It is argued that the available evidence does not support the formation of large-molecular-size and persistent ‘humic substances’ in soils, and instead soil organic matter is a continuum of progressively decomposing organic compounds.Abstract:
Instead of containing stable and chemically unique ‘humic substances’, as has been widely accepted, soil organic matter is a mixture of progressively decomposing organic compounds; this has broad implications for soil science and its applications. The exchange of nutrients, energy and carbon between soil organic matter, the soil environment, aquatic systems and the atmosphere is important for agricultural productivity, water quality and climate. Long-standing theory suggests that soil organic matter is composed of inherently stable and chemically unique compounds. Here we argue that the available evidence does not support the formation of large-molecular-size and persistent ‘humic substances’ in soils. Instead, soil organic matter is a continuum of progressively decomposing organic compounds. We discuss implications of this view of the nature of soil organic matter for aquatic health, soil carbon–climate interactions and land management. Soil organic matter contains a large portion of the world's carbon and plays an important role in maintaining productive soils and water quality. Nevertheless, a consensus on the nature of soil organic matter is lacking. Johannes Lehmann and Markus Kleber argue that soil organic matter should no longer be seen as large and persistent, chemically unique substances, but as a continuum of progressively decomposing organic compounds.read more
Citations
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Linking plant phytochemistry to soil processes and functions: the usefulness of 13C NMR spectroscopy
Fabrizio Cartenì,Tushar C. Sarker,Giuliano Bonanomi,Gaspare Cesarano,Alfonso Esposito,Guido Incerti,Stefano Mazzoleni,Virginia Lanzotti,Francesco Giannino +8 more
TL;DR: In this paper, the potential of the solid state 13C-CPMAS NMR is reported as a powerful tool to assess the chemical composition of both litter and organic amendments, supporting the description of their mechanism of action and attention to their potential applications.
Journal ArticleDOI
Multiple linear regression models to predict the formation efficiency of triplet excited states of dissolved organic matter in temperate wetlands.
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Pyrogenic carbon in Australian soils
Fangjie Qi,Ravi Naidu,Nanthi Bolan,Zhaomin Dong,Yubo Yan,Dane Lamb,Thomas D. Bucheli,Girish Choppala,Luchun Duan,Kirk T. Semple +9 more
TL;DR: This is the first study comparing these two methods, and it indicates both CTO-375 and C speciation methods can determine a fraction of recalcitrant organic C.
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Managing clubroot disease (caused by Plasmodiophora brassicae Wor.) by exploiting the interactions between calcium cyanamide fertilizer and soil microorganisms
TL;DR: Calcium cyanamide is a nitrogenous fertilizer used predominantly for over a century in field and glasshouse vegetable and salad production and it is contended that it has properties deserving wider assessment because of their implications for sustainable cropping.
Journal ArticleDOI
Black (pyrogenic) carbon in soils and waters: a fragile data basis extensively interpreted
TL;DR: In this article, the reliability of the three most widely applied methods to determine pyrogenic carbon (BC) in soils: the benzene polycarboxylic acid (BPCA) method, the UV/NMR method and the 13CNMR method was verified.
References
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TL;DR: In this paper, the authors present an analysis of organic matter in soil using NMR Spectroscopy and analytical pyrolysis, showing that organic matter is composed of nitrogen and ammonium.