Book Chapter10.1016/BS.AGRON.2014.10.005
Chapter One – Mineral–Organic Associations: Formation, Properties, and Relevance in Soil Environments
Markus Kleber,Karin Eusterhues,Marco Keiluweit,Christian Mikutta,Robert Mikutta,Peter S. Nico +5 more
1.2K
TL;DR: An overview of the current knowledge on mineral-organic associations can be found in this article, where the authors identify key questions and future research needs, as well as a survey of the existing research work.
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Abstract: Minerals and organic matter (OM) may form intricate associations via myriad interactions. In soils, the associations of OM with mineral surfaces are mainly investigated because of their role in determining the long-term retention of OM. OM “must decay in order to release the energy and nutrients that drive live processes all over the planet” ( Janzen, 2006 ). Thus, the processes and mechanisms that retain OM in soil are a central concern to very different branches of environmental research. An agronomist may want to synchronize periods of high nutrient and energy release with the growth stages of a crop. An environmental chemist may wish to either immobilize an organic soil contaminant or enhance its decomposition into less harmful metabolites, while climate scientists need to understand the processes that mediate the production of potent greenhouse gases from decomposing OM. Associations of OM with pedogenic minerals (henceforth termed mineral–organic associations (MOAs)) are known to be key controls in these and many other processes. Here we strive to present an overview of the current knowledge on MOAs and identify key questions and future research needs.
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Citations
Effects of moisture and physical disturbance on pore-scale oxygen content and anaerobic metabolisms in upland soils.
TL;DR: In this paper, the authors measured the dissolved oxygen content of porewater from incubated soil cores of varying moisture contents and degrees of disturbance (undisturbed, conventionally tilled, and physically disturbed).
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Optimizing Carbon Sequestration Through Cover Cropping in Mediterranean Agroecosystems: Synthesis of Mechanisms and Implications for Management
TL;DR: In this paper , the authors outline the current paradigm of soil organic carbon dynamics and aim to apply their current understanding of soil carbon sequestration processes to cover crop management in Mediterranean agroecosystems.
Impacts of nutrient addition on soil carbon and nitrogen stoichiometry and stability in globally-distributed grasslands
Katherine Rocci,Kaydee Barker,Eric W. Seabloom,Elizabeth T. Borer,Sarah E. Hobbie,Jonathan D. Bakker,Andrew S. MacDougall,Rebecca L. McCulley,Joslin L. Moore,Xavier Raynaud,Carly J. Stevens,M. Francesca Cotrufo +11 more
TL;DR: In this article , the authors studied responses of C and N ratios and distributions across POM and MAOM to 6-10 years of N, phosphorus (P), potassium and micronutrients (K+µ), and combined NPK+ µ additions at 11 grassland sites spanning 3 continents and globally relevant environmental gradients in climate, plant growth, soil texture, and nutrient availability.
Wet-dry cycles impact DOM retention in subsurface soils
TL;DR: In this article, a combination of Fourier transform infrared (FTIR) and near-edge X-ray absorption fine structure (NEXAFS) spectroscopic analyses revealed that wet-dry treatments enhanced the interactions between carboxyl functional groups and soil particle surfaces.
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Formation of mineral-associated organic matter in temperate soils is primarily controlled by mineral type and modified by land use and management intensity.
De Shorn E. Bramble,Susanne Ulrich,Ingo Schöning,Robert Mikutta,Luise Brandt,Christian Poll,Ellen Kandeler,Christian Mikutta,Alexander Konrad,Jan Siemens,Yang Yang,Andrea Polle,Peter Schall,Christian Ammer,Klaus Kaiser,Marion Schrumpf +15 more
TL;DR: Formation of mineral-associated organic matter in temperate soils is primarily controlled by mineral type and modified by land use and management intensity. MAOM formation is higher on goethite than illite, and is influenced by land use and management practices such as thinning, harvesting, grazing, and fertilization.
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