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
Does the chemical nature of soil carbon drive the structure and functioning of soil microbial communities
Ee Ling Ng,Antonio F. Patti,Michael T. Rose,Cassandra R. Schefe,Kevin Wilkinson,Ronald J. Smernik,Timothy R. Cavagnaro,Timothy R. Cavagnaro +7 more
TL;DR: In this article, the authors examined microbial community responses to three types of organic amendments (OA): green waste, composted green waste and pyrolysized green waste added to two contrasting agricultural soils and investigated the relationship between the soil carbon composition, microbial community composition and microbial activity.
Regulation of soil CO2 and N2O emissions by cover crops: A meta-analysis
Ihsan Muhammad,Upendra M. Sainju,Fazhu Zhao,Ahmad Khan,Rajan Ghimire,Xin Fu,Jun Wang,Jun Wang +7 more
TL;DR: In this paper, the effect of cover crop species, quality and quantity of biomass, and residue management on response ratios (RRs) of cover crops to no cover crop on CO2 and N2O emissions following cash crops was examined.
140
Microbial community-level regulation explains soil carbon responses to long-term litter manipulations.
Katerina Georgiou,Katerina Georgiou,R. Z. Abramoff,John Harte,William J. Riley,Margaret S. Torn,Margaret S. Torn +6 more
TL;DR: A density-dependent formulation of microbial turnover, motivated by community-level interactions, that improves microbial models, with large implications for global carbon-concentration feedbacks.
140
Fresh carbon and nitrogen inputs alter organic carbon mineralization and microbial community in forest deep soil layers
TL;DR: The views that a lack of fresh C supply and N deposition may prevent the mineralization of SOC pool in deep layers and that the utilization of labile substrate by 16:0 and 18:1ω9c populations promotes positive SOC priming are supported.
139
Soil organic matter priming and carbon balance after straw addition is regulated by long-term fertilization
Lei Wu,Lei Wu,Wenju Zhang,Wenjuan Wei,Zhilong He,Yakov Kuzyakov,Yakov Kuzyakov,Yakov Kuzyakov,Roland Bol,Roland Bol,Ronggui Hu +10 more
TL;DR: In this article, the authors investigated the role of fertilizer in soil organic carbon (SOC) sequestration and highlighted the importance of fertilization in controlling the priming effect (PE).
139
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