More replenishment than priming loss of soil organic carbon with additional carbon input

Junyi Liang; Zhenghu Zhou; Changfu Huo; Zheng Shi; James R. Cole; Lei Huang; Konstantinos T. Konstantinidis; Xiaoming Li; Bo Liu; Zhongkui Luo; C. Ryan Penton; Edward A.G. Schuur; James M. Tiedje; Ying Ping Wang; Liyou Wu; Jianyang Xia; Jizhong Zhou; Yiqi Luo

doi:10.1038/s41467-018-05667-7

More replenishment than priming loss of soil organic carbon with additional carbon input

Junyi Liang^*
, Zhenghu Zhou
, Changfu Huo
, Zheng Shi
, James R. Cole
, Lei Huang
, Konstantinos T. Konstantinidis
, Xiaoming Li
, Bo Liu
, Zhongkui Luo
, C. Ryan Penton
, Edward A.G. Schuur
, James M. Tiedje
, Ying Ping Wang
, Liyou Wu
, Jianyang Xia
, Jizhong Zhou
, Yiqi Luo

^*Corresponding author for this work

School of Ecology and Environmental Sciences

Research output: Contribution to journal › Article › peer-review

119 Scopus citations

Abstract

Increases in carbon (C) inputs to soil can replenish soil organic C (SOC) through various mechanisms. However, recent studies have suggested that the increased C input can also stimulate the decomposition of old SOC via priming. Whether the loss of old SOC by priming can override C replenishment has not been rigorously examined. Here we show, through data–model synthesis, that the magnitude of replenishment is greater than that of priming, resulting in a net increase in SOC by a mean of 32% of the added new C. The magnitude of the net increase in SOC is positively correlated with the nitrogen-to-C ratio of the added substrates. Additionally, model evaluation indicates that a two-pool interactive model is a parsimonious model to represent the SOC decomposition with priming and replenishment. Our findings suggest that increasing C input to soils likely promote SOC accumulation despite the enhanced decomposition of old C via priming.

Original language	English
Article number	3175
Journal	Nature Communications
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41467-018-05667-7
State	Published - 1 Dec 2018

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Liang, J., Zhou, Z., Huo, C., Shi, Z., Cole, J. R., Huang, L., Konstantinidis, K. T., Li, X., Liu, B., Luo, Z., Penton, C. R., Schuur, E. A. G., Tiedje, J. M., Wang, Y. P., Wu, L., Xia, J., Zhou, J., & Luo, Y. (2018). More replenishment than priming loss of soil organic carbon with additional carbon input. Nature Communications, 9(1), Article 3175. https://doi.org/10.1038/s41467-018-05667-7

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title = "More replenishment than priming loss of soil organic carbon with additional carbon input",

abstract = "Increases in carbon (C) inputs to soil can replenish soil organic C (SOC) through various mechanisms. However, recent studies have suggested that the increased C input can also stimulate the decomposition of old SOC via priming. Whether the loss of old SOC by priming can override C replenishment has not been rigorously examined. Here we show, through data–model synthesis, that the magnitude of replenishment is greater than that of priming, resulting in a net increase in SOC by a mean of 32\% of the added new C. The magnitude of the net increase in SOC is positively correlated with the nitrogen-to-C ratio of the added substrates. Additionally, model evaluation indicates that a two-pool interactive model is a parsimonious model to represent the SOC decomposition with priming and replenishment. Our findings suggest that increasing C input to soils likely promote SOC accumulation despite the enhanced decomposition of old C via priming.",

author = "Junyi Liang and Zhenghu Zhou and Changfu Huo and Zheng Shi and Cole, \{James R.\} and Lei Huang and Konstantinidis, \{Konstantinos T.\} and Xiaoming Li and Bo Liu and Zhongkui Luo and Penton, \{C. Ryan\} and Schuur, \{Edward A.G.\} and Tiedje, \{James M.\} and Wang, \{Ying Ping\} and Liyou Wu and Jianyang Xia and Jizhong Zhou and Yiqi Luo",

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T1 - More replenishment than priming loss of soil organic carbon with additional carbon input

AU - Liang, Junyi

AU - Zhou, Zhenghu

AU - Huo, Changfu

AU - Shi, Zheng

AU - Cole, James R.

AU - Huang, Lei

AU - Konstantinidis, Konstantinos T.

AU - Li, Xiaoming

AU - Liu, Bo

AU - Luo, Zhongkui

AU - Penton, C. Ryan

AU - Schuur, Edward A.G.

AU - Tiedje, James M.

AU - Wang, Ying Ping

AU - Wu, Liyou

AU - Xia, Jianyang

AU - Zhou, Jizhong

AU - Luo, Yiqi

PY - 2018/12/1

Y1 - 2018/12/1

N2 - Increases in carbon (C) inputs to soil can replenish soil organic C (SOC) through various mechanisms. However, recent studies have suggested that the increased C input can also stimulate the decomposition of old SOC via priming. Whether the loss of old SOC by priming can override C replenishment has not been rigorously examined. Here we show, through data–model synthesis, that the magnitude of replenishment is greater than that of priming, resulting in a net increase in SOC by a mean of 32% of the added new C. The magnitude of the net increase in SOC is positively correlated with the nitrogen-to-C ratio of the added substrates. Additionally, model evaluation indicates that a two-pool interactive model is a parsimonious model to represent the SOC decomposition with priming and replenishment. Our findings suggest that increasing C input to soils likely promote SOC accumulation despite the enhanced decomposition of old C via priming.

AB - Increases in carbon (C) inputs to soil can replenish soil organic C (SOC) through various mechanisms. However, recent studies have suggested that the increased C input can also stimulate the decomposition of old SOC via priming. Whether the loss of old SOC by priming can override C replenishment has not been rigorously examined. Here we show, through data–model synthesis, that the magnitude of replenishment is greater than that of priming, resulting in a net increase in SOC by a mean of 32% of the added new C. The magnitude of the net increase in SOC is positively correlated with the nitrogen-to-C ratio of the added substrates. Additionally, model evaluation indicates that a two-pool interactive model is a parsimonious model to represent the SOC decomposition with priming and replenishment. Our findings suggest that increasing C input to soils likely promote SOC accumulation despite the enhanced decomposition of old C via priming.

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SN - 2041-1723

VL - 9

JO - Nature Communications

JF - Nature Communications

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More replenishment than priming loss of soil organic carbon with additional carbon input

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