Improved permafrost stability by revegetation in extremely degraded grassland of the Qinghai-Tibetan Plateau

•Revegetation advanced onset and increased duration of completely frozen stage.•Freeze-thaw strength weakened at 2 cm depth after revegetation.•Active layer thickness significantly reduced in revegetated grassland.•Increased large macroaggregates and aggregate stability after revegetation. Revegetat...

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Veröffentlicht in:Geoderma 2023-02, Vol.430, p.116350, Article 116350
Hauptverfasser: Jia, Yinglan, Chen, Shengyun, Wu, Minghui, Gu, Yuzheng, Wei, Peijie, Wu, Tonghua, Shang, Zhanhuan, Wang, Shijin, Yu, Hongyan
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Sprache:eng
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Zusammenfassung:•Revegetation advanced onset and increased duration of completely frozen stage.•Freeze-thaw strength weakened at 2 cm depth after revegetation.•Active layer thickness significantly reduced in revegetated grassland.•Increased large macroaggregates and aggregate stability after revegetation. Revegetation is an effective approach for restoring extremely degraded grassland (DG) in the Qinghai-Tibetan Plateau (QTP). However, little is known about its effects on permafrost stability. Our study investigated changes in the characteristics of DG and revegetated grassland (RG) in alpine permafrost regions of the QTP by means of in situ monitoring and sampling. Compared with DG, soil temperature was lower in warm months and slightly higher in cool months both at 2 and 10 cm depths after revegetation, while soil moisture generally decreased. Revegetation advanced the onset and increased the duration of completely frozen stage. The number of freeze–thaw days decreased at 2 cm but increased at 10 cm depth. The freeze–thaw strength weakened at 2 cm depth in spring and autumn, and at 10 cm depth in autumn, but increased at 10 cm depth in spring. The thawing index at the two depths and active layer thickness in RG were also significantly lower than those in DG. Revegetation significantly affected the particle size distribution and stability of soil aggregates by increasing the proportion of large macroaggregates. Thus, revegetation can effectively improve the permafrost stability of degraded grassland in the QTP and enhance the service functions of alpine grassland ecosystems.
ISSN:0016-7061
1872-6259
DOI:10.1016/j.geoderma.2023.116350