Journal ArticleDOI
Nitrogen mineralization: challenges of a changing paradigm
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TLDR
A complete new conceptual model of the soil N cycle needs to incorporate recent research on plant–microbe competition and microsite processes to explain the dynamics of N across the wide range of N availability found in terrestrial ecosystems.Abstract:
Until recently, the common view of the terrestrial nitrogen cycle had been driven by two core assumptions—plants use only inorganic N and they compete poorly against soil microbes for N. Thus, plants were thought to use N that microbes “left over,” allowing the N cycle to be divided cleanly into two pieces—the microbial decomposition side and the plant uptake and use side. These were linked by the process of net mineralization. Over the last decade, research has changed these views. N cycling is now seen as being driven by the depolymerization of N-containing polymers by microbial (including mycorrhizal) extracellular enzymes. This releases organic N-containing monomers that may be used by either plants or microbes. However, a complete new conceptual model of the soil N cycle needs to incorporate recent research on plant–microbe competition and microsite processes to explain the dynamics of N across the wide range of N availability found in terrestrial ecosystems. We discuss the evolution of thinking abou...read more
Citations
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Journal ArticleDOI
Temperature sensitivity of soil enzyme kinetics under N-fertilization in two temperate forests
Madeleine M. Stone,Marissa S. Weiss,Christine L. Goodale,Mary Beth Adams,Ivan J. Fernandez,Donovan P. German,Steven D. Allison +6 more
TL;DR: This study is the first to experimentally demonstrate a positive relationship between Km and temperature for soil enzymes, suggesting that increasing temperatures and N availability in forests of the northeastern US will lead to increased hydrolytic enzyme activity, despite the positive temperature sensitivity of Km.
Journal ArticleDOI
Soil organic N - An under-rated player for C sequestration in soils?
TL;DR: In this paper, the impact of the nitrogen cycle on the carbon cycle and the implications for soil organic matter (SOM) dynamics are still under debate, and the authors present knowledge about the interrelationships of the soil cycles of C and N as well as current ideas about SON stabilization.
Biochar Decelerates Soil Organic Nitrogen Cycling but Stimulates Soil Nitrification in a Temperate Arable Field Trial
Judith Prommer,Wolfgang Wanek,Florian Hofhansl,Daniela Trojan,Pierre Offre,Tim Urich,Christa Schleper,Stefan Sassmann,Barbara Kitzler,Gerhard Soja,Rebecca Hood-Nowotny +10 more
TL;DR: Combined addition of biochar with fertilizer-N may increase soil organic N in turn enhancing soil carbon sequestration and thereby could play a fundamental role in future soil management strategies.
Journal ArticleDOI
Identification of soil bacteria susceptible to TiO2 and ZnO nanoparticles.
TL;DR: The results demonstrate that some metal oxide nanoparticles could affect soil bacterial communities and associated processes through effects on susceptible, narrow-function bacterial taxa.
Journal ArticleDOI
Reduced N cycling in response to elevated CO2, warming, and drought in a Danish heathland: Synthesizing results of the CLIMAITE project after two years of treatments
Klaus Steenberg Larsen,Louise C. Andresen,Claus Beier,Sven Jonasson,Kristian Rost Albert,Per Ambus,M.F. Arndal,Mette Sustmann Carter,Soren Christensen,Martin Holmstrup,Andreas Ibrom,Jane Kongstad,Leon van der Linden,Kristine Maraldo,Anders Michelsen,Teis Nørgaard Mikkelsen,Kim Pilegaard,Anders Priemé,Helge Ro-Poulsen,Inger Kappel Schmidt,Merete Bang Selsted,Karen Stevnbak +21 more
TL;DR: The simulated future climate scenario lead to reduced N turnover, which could act to reduce the potential growth response of plants to elevated atmospheric CO2 concentration, indicating that ecosystem N loss is highly sensitive to changes and variability in amount and timing of precipitation.
References
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