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
Biodegradation of poly(butylene succinate) in soil laboratory incubations assessed by stable carbon isotope labelling
Taylor F. Nelson,Rebecca Baumgartner,Madalina Jaggi,Stefano M. Bernasconi,Glauco Battagliarin,Carsten Sinkel,Andreas Künkel,Hans-Peter E. Kohler,Kristopher McNeill,Michael Sander +9 more
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Increase in aboveground fresh litter quantity over-stimulates soil respiration in a temperate deciduous forest
Nicolas Chemidlin Prévost-Bouré,Nicolas Chemidlin Prévost-Bouré,Kamel Soudani,Claire Damesin,Daniel Berveiller,Jean-Christophe Lata,Eric Dufrêne +6 more
TL;DR: In this article, the authors performed a 1-year litter manipulation experiment to examine how soil CO2 efflux was altered by the amount of fresh litter, and three treatments were applied: litter exclusion, control and litter addition.
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Crop residue quality and soil type influence the priming effect but not the fate of crop residue C
Raquel Schmatz,Sylvie Recous,Celso Aita,Majid Mahmood Tahir,Adriane Luiza Schu,Bruno Chaves,Sandro José Giacomini +6 more
TL;DR: In this paper, the effects of crop residue quality and interactions with soil type on soil C and N, in the short and medium-term, and to determine the responses related to the priming effect (PE) were quantified.
69
Physical fractionation of soil organic matter: Destabilization of deep soil carbon following harvesting of a temperate coniferous forest
TL;DR: In this article, the authors used a density fractionation procedure to isolate and characterize three distinct SOM fractions (free, intra-aggregate, and organo-mineral) across a postharvest forest age sequence.
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Interactive effects of initial pH and nitrogen status on soil organic carbon priming by glucose and lignocellulose
TL;DR: In this paper, the impact of initial pH and mineral N availability on the priming effect of two C substrates with contrasting biodegradability was investigated, and the results suggest that maintaining optimal soil pH for nutrient availability and N application that exceeds the microbial N requirements in agricultural fields may minimize organic carbon loss via the pre-treatment effect in the short term.
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References
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