Journal ArticleDOI
The contentious nature of soil organic matter
Johannes Lehmann,Markus Kleber +1 more
Reads0
Chats0
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
More filters
Journal ArticleDOI
The importance of anabolism in microbial control over soil carbon storage
TL;DR: This Perspective looks at how microbial anabolism and the soil microbial carbon pump control microbial necromass accumulation and stabilization; the ‘entombing effect’.
Journal ArticleDOI
Direct evidence for microbial-derived soil organic matter formation and its ecophysiological controls
TL;DR: This work provides the first direct evidence that soil microbes produce chemically diverse, stable SOM, and shows that SOM accumulation is driven by distinct microbial communities more so than clay mineralogy, where microbial-derived Som accumulation is greatest in soils with higher fungal abundances and more efficient microbial biomass production.
Journal ArticleDOI
Plastics in soil: Analytical methods and possible sources
Melanie Bläsing,Wulf Amelung +1 more
TL;DR: Current knowledge on available methods for the quantification and identification of plastic in soil, the quantity and possible input pathways of plastic into soil, and its fate in soil are reviewed are reviewed to ensure the applicability of these methods for soil needs to be tested.
Journal ArticleDOI
Revitalization of plant growth promoting rhizobacteria for sustainable development in agriculture.
Sushanto Gouda,Rout George Kerry,Gitishree Das,Spiros Paramithiotis,Han-Seung Shin,Jayanta Kumar Patra +5 more
TL;DR: Plant growth promoting rhizobacteria (PGPR) has been functioning as a co-evolution between plants and microbes showing antagonistic and synergistic interactions with microorganisms and the soil.
Journal ArticleDOI
Conceptualizing soil organic matter into particulate and mineral-associated forms to address global change in the 21st century.
TL;DR: Conceptualizing SOM into POM versus MAOM is a feasible, well-supported, and useful framework that will allow scientists to move beyond studies of bulk SOM, but also use a consistent separation scheme across studies.
References
More filters
Journal ArticleDOI
Temperature sensitivity of soil carbon decomposition and feedbacks to climate change
TL;DR: This work has suggested that several environmental constraints obscure the intrinsic temperature sensitivity of substrate decomposition, causing lower observed ‘apparent’ temperature sensitivity, and these constraints may, themselves, be sensitive to climate.
Journal ArticleDOI
Persistence of soil organic matter as an ecosystem property
Michael W. I. Schmidt,Margaret S. Torn,Margaret S. Torn,Samuel Abiven,Thorsten Dittmar,Thorsten Dittmar,Georg Guggenberger,Ivan A. Janssens,Markus Kleber,Ingrid Kögel-Knabner,Johannes Lehmann,David A. C. Manning,Paolo Nannipieri,Daniel P. Rasse,Steve Weiner,Susan E. Trumbore +15 more
TL;DR: In this article, a new generation of experiments and soil carbon models were proposed to predict the SOM response to global warming, and they showed that molecular structure alone alone does not control SOM stability.
Journal ArticleDOI
Plumbing the Global Carbon Cycle: Integrating Inland Waters into the Terrestrial Carbon Budget
Jonathan J. Cole,Yves T. Prairie,Nina F. Caraco,William H. McDowell,Lars J. Tranvik,Robert G. Striegl,Carlos M. Duarte,Pirkko Kortelainen,John A. Downing,Jack J. Middelburg,John M. Melack +10 more
TL;DR: In this paper, the role of inland water ecosystems in the global carbon cycle has been investigated and it is shown that roughly twice as much C enters inland aquatic systems from land as is exported from land to the sea, roughly equally as inorganic and organic carbon.
Journal ArticleDOI
Nitrogen and Lignin Control of Hardwood Leaf Litter Decomposition Dynamics
TL;DR: The effects of initial nitrogen and lignin contents of six species of hardwood leaves on their decomposition dynamics were studied at the Hubbard Brook Experimental Forest by inverse linear relationships between the percentage of original mass remaining and the nitrogen concentration in the residual material.
Journal ArticleDOI
Stabilization of organic matter in temperate soils: mechanisms and their relevance under different soil conditions – a review
Margit von Lützow,Ingrid Kögel-Knabner,Klemens Ekschmitt,Egbert Matzner,Georg Guggenberger,Bernd Marschner,Heinz Flessa +6 more
TL;DR: In this article, a review of the mechanisms that are currently, but often contradictorily or inconsistently, considered to contribute to organic matter (OM) protection against decomposition in temperate soils is presented.