Long‐term grassland restoration exerts stronger impacts on the vertical distribution of labile over recalcitrant organic carbon fractions in Mollisols

Hao, Xiangxiang; Han, Xinhui; Li, Na; Lei, Wanying; Chen, Xu; Xing, Baoshan

doi:10.1002/saj2.20422

Soil Science Soc of Amer J

2022

DOI: 10.1002/saj2.20422

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Long‐term grassland restoration exerts stronger impacts on the vertical distribution of labile over recalcitrant organic carbon fractions in Mollisols

Xiangxiang Hao

Xinhui Han

Na Li

et al.

Abstract: Land use change influences soil organic carbon (SOC) distribution in soil matrix.Conversion of cropland to grassland or forestland has the potential to sequester more carbon and influence the carbon allocation. Soil carbon sequestration happens within different physical and chemical fractions. This study aimed to investigate the vertical distribution of SOC fractions under 29-yr of cropland, grassland, and forestland of a typical Mollisol and to derive specific factors for SOC fraction changes associated with … Show more

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Cited by 6 publications

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“…Conversion of cropland to grassland or forestland has the potential to sequester more C and change C allocation in varied C fractions. A 29‐yr field experiment on Mollisols of Northeast China demonstrated that conversion of cropland to grassland and forestland increased OC accumulation in soil profiles, especially at the 0‐to‐40‐cm depth (Hao et al., 2022). Long‐term grassland restoration exerted greater impacts on the labile OC than recalcitrant OC fractions through larger OC inputs from plant roots.…”

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confidence: 99%

Foreword: Degradation and evolution of Mollisols under different management practices and climate change

Zhu‐Barker

et al. 2022

Soil Science Soc of Amer J

Self Cite

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Efforts are being dedicated to refining agricultural management practices and policies regarding ecosystem restoration. Agricultural management practices, such as reduced soil tillage, rational fertilization, crop rotation, and crop residue or livestock excreta management, enhance the sustainability and resilience of agroecosystems in Mollisol regions.This special section of the Soil Science Society of America Journal includes eight peer-reviewed papers, with six field studies and two laboratory incubation experiments. Those papers address the biogeographic distribution of N-related microbes, and the current research on the effect of agricultural management practices on soil hydraulic properties, nutrient cycling, and biotic and abiotic mechanisms in Mollisol-based agroecosystems. Collectively, these articles provide a systematic understanding of the ecosystem characteristics and resilience, and C and N cycling patterns in Mollisol agroecosystems. They also identify controlling factors that will shed light on the optimization of sustainable management and utilization of Mollisols.A brief summary of the studies in this special section is provided below:• Denitrifiers control the stepwise reduction processes of NO 3 − to N 2 in global N cycles. Among these, the reduction

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confidence: 99%

Foreword: Degradation and evolution of Mollisols under different management practices and climate change

Zhu‐Barker

et al. 2022

Soil Science Soc of Amer J

Self Cite

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Soil acidity accelerates soil organic matter decomposition in Cryptomeria japonica stands and Chamaecyparis obtusa stands

Hayashi,

Maie,

Wagai

et al. 2023

Plant Soil

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Key factors influencing the spatial distribution of soil organic carbon and its fractions in Mollisols

Niu,

Zhang,

Zhang

et al. 2024

CATENA

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Long‐term grassland restoration exerts stronger impacts on the vertical distribution of labile over recalcitrant organic carbon fractions in Mollisols

Cited by 6 publications

References 74 publications

Foreword: Degradation and evolution of Mollisols under different management practices and climate change

Foreword: Degradation and evolution of Mollisols under different management practices and climate change

Soil acidity accelerates soil organic matter decomposition in Cryptomeria japonica stands and Chamaecyparis obtusa stands

Key factors influencing the spatial distribution of soil organic carbon and its fractions in Mollisols

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