The spatiotemporal variations of freezing index and its relationship with permafrost degradation over the Qinghai-Tibet Plateau from 1977 to 2016

The freezing index (FI) is one of the most important indicators that shows the variation of permafrost. However, the relationship between climate change and the thermal conditions of permafrost is not understood well. This study analyzed the variation of FI based on 5-cm soil temperature derived from 74 meteorological stations from 1977 to 2016 on the Qinghai-Tibet Plateau (QTP). Furthermore, the factors affecting the FI variation and its relationship with permafrost degradation were also discussed. The results showed that FI was much smaller in the interior than other areas of the QTP, and it increased at a rate of 53.0 degrees C d/10a during the 40 years. FI in the main body of the QTP was relatively stable than surrounding areas; it was more stable in the northern part than in the southern part. On average, the FI variation coefficient was larger than 10%, indicating the large fluctuation of FI during the 40 years. FI decreased with the increasing altitude; it was more sensitive to the altitude in the south of 33 degrees N than in the north. The variation of FI was closely related to the maximum freezing depth (MFD) and the active layer thickness (ALT). It was observed that MFD decreased and ALT increased by approximately 1.4 cm and 1.6 cm, respectively, with each 10.0 degrees C d increase in FI. The results exhibited the thermal condition variation of the permafrost in QTP and revealed a degrading trend of the permafrost.

Automated summary

This study analyzed the variation of freezing index (FI) in permafrost on the Qinghai-Tibet Plateau (QTP) and discussed its relationship with permafrost degradation. The results showed that FI was smaller in the interior of the QTP and increased over the 40-year period. FI was closely related to altitude, maximum freezing depth (MFD), and active layer thickness (ALT). The study revealed the thermal condition variation of permafrost in the QTP and its degrading trend.