Influence of environmental factors on soil organic carbon in different soil layers for Chinese Mollisols under intensive maize cropping

底土 土壤碳 软土 环境科学 土壤科学 耕作 总有机碳 土层 土壤肥力 土壤水分 农学 环境化学 化学 生物
作者
Weijun Zhang,Lars J. Munkholm,Tingting An,Xu Liu,Bin Zhang,Yingde Xu,Zhuang Ge,Yan Zhang,Jiuming Zhang,Shuangyi Li,Jingkuan Wang
出处
期刊:Science of The Total Environment [Elsevier BV]
卷期号:835: 155443-155443 被引量:13
标识
DOI:10.1016/j.scitotenv.2022.155443
摘要

The Mollisol region of Northeast China has a large soil organic carbon (SOC) storage which is important for maintaining soil fertility. SOC is susceptible to various environmental factors; however, the responses of SOC content to environmental factors in different soil layers of cropland remain unclear, particularly in deep soil layers. In this study, we collected 138 soil samples from the surface, subsurface, and subsoil layers among 46 sample sites with monocropping maize and intensive conventional tillage in this region. We assessed the relative importance and effect paths of 12 environmental factors (including geography, climate, and soil properties) on SOC content in different layers using redundancy analysis (RDA), structural equation model (SEM), and variation partitioning analysis (VPA). The VPA results showed that SOC content was mainly affected by climatic factors that explained 68% and 57% for the surface and subsurface layers, respectively. However, SOC content in the subsoil layer was greatly affected by soil properties that explained 27%. Furthermore, the SEMs results suggested that geographical factors indirectly affected SOC content by influencing the climatic factors. Mean annual temperature was the most important factor affecting SOC content directly or indirectly, and its negative effects significantly diminished with soil depth, as it explained 63%, 52%, and 17% of the variation in SOC content for the surface, subsurface and subsoil layers, respectively. In addition, the effects of soil water-holding capacity on SOC content also decreased with soil depth, whereas pH and clay content showed a contrasting pattern. This implies that pH and clay content play important roles in the sequestration of SOC in deep soil layers. Moreover, the organic C content within >53 μm aggregates was more sensitive to environmental factors. This study can be useful for forecasting SOC dynamics and establishing reasonable C management strategies under climate change conditions.

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