Journal Article10.1111/J.1461-0248.2004.00579.X
Carbon input to soil may decrease soil carbon content
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TL;DR: In this article, a negative relationship between primary production and soil carbon (C) content is found, and the authors conclude that energy available to soil microbes and microbial competition are important determinants of soil C decomposition.
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Abstract: It is commonly predicted that the intensity of primary production and soil carbon (C) content are positively linked. Paradoxically, many long-term field observations show that although plant litter is incorporated to soil in large quantities, soil C content does not necessarily increase. These results suggest that a negative relationship between C input and soil C conservation exists. Here, we demonstrate in controlled conditions that the supply of fresh C may accelerate the decomposition of soil C and induce a negative C balance. We show that soil C losses increase when soil microbes are nutrient limited. Results highlight the need for a better understanding of microbial mechanisms involved in the complex relationship between C input and soil C sequestration. We conclude that energy available to soil microbes and microbial competition are important determinants of soil C decomposition.
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Citations
Functional stoichiometry of soil microbial communities after amendment with stabilised organic matter
Ee Ling Ng,Antonio F. Patti,Michael T. Rose,Cassandra R. Schefe,Kevin Wilkinson,Timothy R. Cavagnaro,Timothy R. Cavagnaro +6 more
TL;DR: It is found that microbial PLFA composition was distinct for each soil and organic amendment, and stoichiometric invariance of microbial activity constrained microbial community response to organic input.
The impact of biosolids application on organic carbon and carbon dioxide fluxes in soil.
Hasintha Wijesekara,Nanthi Bolan,Ramesh Thangavel,Balaji Seshadri,Aravind Surapaneni,Christopher P. Saint,Chris Hetherington,Peter Matthews,Meththika Vithanage +8 more
TL;DR: The in-situ respirometer data demonstrated enhanced CO2 fluxes at the sites treated with biosolids, indicating limited carbon sequestration potential, but addition of biosolid on both the clay loam and sandy loam soils found to be effective in building SOC than reducing it.
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The impact of logging residue on soil GHG fluxes in a drained peatland forest.
TL;DR: In this article, the authors measured the CH4, N2O and CO2 fluxes between peat soil and atmosphere with and without decomposing logging residue (LR) over three (2002-2004) seasons (May-Oct) following clearfelling in a drained peatland forest, along with the mass loss of LR.
Non-Native Plant Litter Enhances Soil Carbon Dioxide Emissions in an Invaded Annual Grassland
Ling Zhang,Ling Zhang,Hong Wang,Jianwen Zou,Jianwen Zou,William E. Rogers,Evan Siemann,Evan Siemann +7 more
TL;DR: Exotic Alternanthera produces rapidly decomposing litter which also accelerates the decomposition of native plant litter in litter mixtures and enhances soil respiration rates, indicating that this exotic invasive plant species will likely accelerate carbon cycling and increase soil resppiration even at intermediate stages of invasion in these annual grasslands in China.
Soil labile carbon and nitrogen pools and microbial metabolic diversity under winter crops in an arid environment
TL;DR: In this paper, eight winter cover crop treatments were used to investigate their effects on soil labile organic carbon (C) and nitrogen (N) pools and microbial metabolic profiles and diversity in temperate Australia.
52
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