Root biomass and altitude jointly regulate the response of topsoil organic carbon density to severe degradation of high-altitude alpine meadows

NWIPB OpenIR

	Root biomass and altitude jointly regulate the response of topsoil organic carbon density to severe degradation of high-altitude alpine meadows
	Li, Hongqin; Geng, Huimin; Zhang, Zhitao; Yi, Lubei; Wang, Jianhao; Zhang, Fawei
	2023
发表期刊	GRASS AND FORAGE SCIENCE
摘要	Grassland degradation can substantially reduce soil carbon sequestration capacity. However, the effects of grassland degradation on soil organic carbon (SOC) density remain unquantified in high-altitude alpine meadows. In this study, the response and controlling mechanisms of topsoil (0-20 cm) organic carbon were explored in a field survey involving 11 pairs of healthy versus severely degraded plots of high-altitude (above 4000 m) alpine meadows, as well as three short-term (3-5 years) fencing restoration projects, across the source of the Yellow River in August of 2020 and 2021. The results showed that 0-20 cm root biomass, SOC content (SCC), and density (SCD) of healthy meadows averaged 533.7 & PLUSMN; 291.9 g/m(2) (mean & PLUSMN; S.D), 21.17 & PLUSMN; 9.36 g/kg, and 4.54 & PLUSMN; 1.64 kg C/m(2), respectively. Root biomass, SCC, and SCD were markedly reduced by 63.0%, 33.2%, and 17.6% in severely degraded grassland compared with healthy meadows. The SCC and SCD averaged 7.92 & PLUSMN; 2.21 g/kg and 2.2 & PLUSMN; 0.9 kg C/m(2) in fencing plots, respectively, and were not significantly different from severely degraded meadows, suggesting a limited improvement in SOC from short-term fencing restoration. Analysis of a piecewise structural equation model revealed that the effect of degradation on SCD (indicated by the difference in SCD between paired healthy and degraded meadows) was jointly regulated by the differential surface root biomass and site altitude, with a total positive effect of 0.39 and 0.26, respectively. Our findings indicate the losses of topsoil organic carbon stock caused by grassland degradation are root biomass- and altitude-dependent, supporting the notion that antecedent prevention of degradation, more than subsequent restoration, should be the highest priority in the adaptive management of alpine meadows in harsh high-altitude regions.
收录类别	SCIE
文献类型	期刊论文
条目标识符	http://210.75.249.4/handle/363003/61598
专题	中国科学院西北高原生物研究所
推荐引用方式 GB/T 7714	Li, Hongqin,Geng, Huimin,Zhang, Zhitao,et al. Root biomass and altitude jointly regulate the response of topsoil organic carbon density to severe degradation of high-altitude alpine meadows[J]. GRASS AND FORAGE SCIENCE,2023.
APA	Li, Hongqin,Geng, Huimin,Zhang, Zhitao,Yi, Lubei,Wang, Jianhao,&Zhang, Fawei.(2023).Root biomass and altitude jointly regulate the response of topsoil organic carbon density to severe degradation of high-altitude alpine meadows.GRASS AND FORAGE SCIENCE.
MLA	Li, Hongqin,et al."Root biomass and altitude jointly regulate the response of topsoil organic carbon density to severe degradation of high-altitude alpine meadows".GRASS AND FORAGE SCIENCE (2023).