Soil organic carbon components in inner Mongolian shrub-encroached grasslands

作  者:Zhou LH, Shen HH*, Xu YP, Li H, Chen LY, Wang YH, Zhang PJ, Zhao X, Liu TY, Hu HF, Fang JY*
影响因子:3.259
刊物名称:Plant and Soil
出版年份:2019
卷:442  期:1-2  页码:199-213

论文摘要:

Aims

Shrub encroachment has profound influences on regional carbon cycling. However, few studies have examined the changes in soil organic carbon (SOC) components at the molecular level along a climate gradient. In this study, we aimed to investigate the effects of biotic and abiotic factors on the patterns of SOC components in the shrub patches and the grassy matrix.

Methods

We analyzed the distribution and controlling factors of SOC components (including free lipids, bound lipids, and lignin-derived phenols) in the topsoil of shrub-encroached grasslands along natural climate gradients in Inner Mongolia, China.

Results

We found that the concentrations of bound lipids and lignin-derived phenols were significantly higher and the vanillic acid to vanillin ratio ((Ad/Al)v) was significantly lower in the shrub patches than in the grassy matrix (p <0.05). After excluding variables exhibiting collinearity, redundancy analysis showed that shrub patch cover and soil pH were the most important variables that influenced SOC composition in the shrub patches, while herb characteristics and shrub density were the most important in the grassy matrix. Structural equation modeling showed that shrub characteristics at the plot scale greatly contributed to the variance in all components in the grassy matrix, whereas soil properties were more important in the shrub patches.

Conclusions

Our results highlight that although the topsoil carbon content did not change, shrub encroachment altered the SOC components and their drivers in the Inner Mongolian grasslands.

全文链接:https://link.springer.com/article/10.1007%2Fs11104-019-04166-y