Abstract
Abstract. Climate warming and engineering activities have various impacts on the thermal regime of permafrost in alpine ecosystems of the Qinghai–Tibet Plateau. Using recent observations of permafrost thermal regimes along the Qinghai–Tibet highway and railway, the changes of such regimes beneath embankments constructed in alpine meadows and steppes are studied. The results show that alpine meadows on the Qinghai–Tibet Plateau can have a controlling role among engineering construction effects on permafrost beneath embankments. As before railway construction, the artificial permafrost table (APT) beneath embankments is not only affected by climate change and engineering activities but is also controlled by alpine ecosystems. However, the change rate of APT is not dependent on ecosystem type, which is predominantly affected by climate change and engineering activities. Instead, the rate is mainly related to cooling effects of railway ballast and heat absorption effects of asphalt pavement. No large difference between alpine and steppe can be identified regarding the variation of soil temperature beneath embankments, but this difference is readily identified in the variation of mean annual soil temperature with depth. The vegetation layer in alpine meadows has an insulation role among engineering activity effects on permafrost beneath embankments, but this insulation gradually disappears because the layer decays and compresses over time. On the whole, this layer is advantageous for alleviating permafrost temperature rise in the short term, but its effect gradually weakens in the long term.
Highlights
Climate warming and engineering activities significantly impact permafrost thermal regimes on the Qinghai–Tibet Plateau (Cheng and Wu, 2007; Jin et al, 2008a; Wu and Zhang, 2008; Zhang et al, 2008; Yang et al, 2010)
We cannot infer that changes of artificial permafrost table (APT), daily mean soil temperature, and permafrost temperature are closely related to the influence of the vegetation layer in alpine meadow and steppe based on our study
Based on soil temperature observations at nine monitoring sites over the periods 2002–2014 and 2004–2014 along the Qinghai–Tibet highway (QTH) and QTR, we studied the variation of APT and soil temperature beneath embankments
Summary
Climate warming and engineering activities significantly impact permafrost thermal regimes on the Qinghai–Tibet Plateau (Cheng and Wu, 2007; Jin et al, 2008a; Wu and Zhang, 2008; Zhang et al, 2008; Yang et al, 2010). Climate warming has varying thermal impacts on permafrost in different alpine ecosystems (Wu et al, 2015); for example, change in permafrost temperature and active-layer thickness (ALT) of alpine meadows is greater than that of alpine steppe (Wu et al, 2015). It is a concern whether engineering activities have thermal impacts on permafrost that vary with ecosystems.
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