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
Long-term nitrogen deposition enhances microbial capacities in soil carbon stabilization but reduces network complexity
Xingyu Ma,Tengxu Wang,Zhou Shi,Nona R. Chiariello,Kathryn M. Docherty,Christopher B. Field,Jessica L. M. Gutknecht,Qunchang Gao,Yunfu Gu,Xue Guo,Bruce A. Hungate,Jiesi Lei,Audrey Niboyet,Xavier Le Roux,Mengting Yuan,Tong Yuan,Jizhong Zhou,Yunfeng Yang +17 more
TL;DR: In this article , the authors examined various functional traits of soil microbial communities and how these traits are interrelated in a Mediterranean-type grassland administrated with 14 years of 7 g m-2 year-1 of N amendment, based on estimated atmospheric reactive nitrogen (N) deposition in areas within California, USA, by the end of the twenty-first century.
Effects of the Co-Application of Glucose, Nitrogen, and Elevated Temperature on Buried Black Soil Carbon in a Cool Temperate Deciduous Broad-Leaved Forest
TL;DR: The combined application of glucose, nitrogen, and elevated temperature significantly accelerates SOC mineralization in buried black soil, with a positive priming effect and increased Q10 value.
JULES-BE: representation of bioenergy crops and harvesting in the Joint UK Land Environment Simulator vn5.1
Emma W. Littleton,Anna B. Harper,Naomi E. Vaughan,Rebecca J. Oliver,Maria Carolina Duran-Rojas,Timothy M. Lenton +5 more
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Macro-environment strongly interacts with warming in a global analysis of decomposition
Sarah Schwieger,Ellen Dorrepaal,Matteo Petit Bon,Vigdis Vandvik,Elizabeth le Roux,Maria Strack,Yan Yang,Susanna Venn,Johan van den Hoogen,Fernando Valiño,Haydn J.D. Thomas,Mariska te Beest,Satoshi Suzuki,Alessandro Petraglia,Isla H. Myers-Smith,Tariq Muhammad Munir,Anders Michelsen,Jørn Olav Løkken,Qi Li,Takayoshi Koike,Kari Klanderud,Ellen Haakonsen Karr,Ingibjörg S. Jónsdóttir,Robert D. Hollister,Annika Hofgaard,Ibrahim A. Hassan,Wang Genxu,Nina Filippova,Thomas W. Crowther,Karin Clark,C. T. Christiansen,Angélica Casanova-Katny,Michele Carbognani,Stef Bokhorst,Katrín Björnsdóttir,Johan Asplund,Inge H. J. Althuizen,Rocío Alonso,Juha M. Alatalo,Eugenios Agathokleous,Rien Aerts,Judith M. Sarneel +41 more
TL;DR: Macro-environment interacts with warming to influence decomposition, with non-significant overall effects but potential changes in litter quality and quantity.
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