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
Stable soil organic matter: A comparison of C:N:P:S ratios in Australian and other world soils
Clive A. Kirkby,Clive A. Kirkby,John A. Kirkegaard,Alan Richardson,Leonard Wade,Christopher Blanchard,Graeme Batten +6 more
TL;DR: In this paper, a series of Australian soils were analysed for total C, N, P, organic P (OP) and S, and the ratios were compared with values for soils from numerous locations around the world, hereafter known as the International soils.
466
Increasing soil carbon storage: mechanisms, effects of agricultural practices and proxies. A review
Marie-France Dignac,Delphine Derrien,Pierre Barré,Sébastien Barot,Lauric Cécillon,Claire Chenu,Tiphaine Chevallier,Grégoire T. Freschet,Patricia Garnier,Bertrand Guenet,Mickaël Hedde,Katja Klumpp,Gwenaëlle Lashermes,Pierre-Alain Maron,Naoise Nunan,Catherine Roumet,Isabelle Basile-Doelsch +16 more
TL;DR: The CarboSMS consortium federates French researchers working on these mechanisms and their effects on C stocks in a local and global change setting (land use, agricultural practices, climatic and soil conditions, etc.). This article is a synthesis of this consortium's first seminar.
Changes in soil organic carbon storage predicted by Earth system models during the 21st century
Katherine Todd-Brown,James T. Randerson,Francesca M. Hopkins,Vivek K. Arora,Tomohiro Hajima,C. D. Jones,Elena Shevliakova,Jerry Tjiputra,Evgeny Volodin,Tongwen Wu,Qian Zhang,Steven D. Allison +11 more
TL;DR: In this paper, the authors analyzed soil organic carbon (SOC) changes from 11 Earth system models (ESMs) contributing simulations to the Coupled Model Intercomparison Project Phase 5 (CMIP5).
Explicitly representing soil microbial processes in Earth system models
William R. Wieder,Steven D. Allison,Eric A. Davidson,Katerina Georgiou,Katerina Georgiou,Oleksandra Hararuk,Yujie He,Yujie He,Francesca M. Hopkins,Francesca M. Hopkins,Yiqi Luo,Matthew J. Smith,Benjamin N. Sulman,Katherine Todd-Brown,Katherine Todd-Brown,Ying-Ping Wang,Jianyang Xia,Jianyang Xia,Xiaofeng Xu +18 more
TL;DR: In this article, the authors present a roadmap for how to begin building, applying, and evaluating reliable microbial-explicit model formulations that can be applied in Earth system models (ESMs).
Size and functional diversity of microbe populations control plant persistence and long-term soil carbon accumulation
TL;DR: It is shown that the SOM pool does not necessarily reach equilibrium and may increase continuously, which explains how SOM can accumulate over thousands of years.
358
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