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

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

in 631/158/47/4113 / 704/106/47/4113 / 704/158/2445 / Carbon / Decomposition / ENVIRONMENTAL SCIENCES / Humanities and Social Sciences / multidisciplinary / Organic carbon / Organic soils / Priming / Replenishment / Science / Science (multidisciplinary) / Soil erosion / Substrates

2018

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

2018

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2018

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Journal Article

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

Shi, Zheng,

Huang, Lei,

Li, Xiaoming,

Schuur, Edward A. G.,

Wu, Liyou,

Wang, Ying-Ping,

Konstantinidis, Konstantinos T.,

Huo, Changfu,

Liu, Bo,

Luo, Yiqi,

Penton, C. Ryan,

Zhou, Jizhong,

Liang, Junyi,

Luo, Zhongkui,

Tiedje, James M.,

Cole, James R.,

Zhou, Zhenghu,

Xia, Jianyang

2018

Overview

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. The magnitudes of replenishment and priming, two important but opposing fluxes in soil organic carbon (SOC) dynamics, have not been compared. Here the authors show that the magnitude of replenishment is greater than that of priming, resulting in a net SOC accumulation after additional carbon input to soils.

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Publisher

Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

Subject

/ Carbon

/ ENVIRONMENTAL SCIENCES

/ Humanities and Social Sciences