Intra‐Annual Ground Surface Deformation Detected by Site Observation, Simulation and InSAR Monitoring in Permafrost Site of Xidatan, Qinghai‐Tibet Plateau

The permafrost degradation can cause long‐term ground surface subsidence, and the surface undergoes frost heave and thaw settlement due to the ice‐water phase change in the active layer. The multi‐year surveys by leveling observations and Interferometric Synthetic Aperture Radar monitoring (InSAR) are helpful to understand the characteristics of seasonal deformation and to model the permafrost terrain surface deformation. In this paper, we studied the characteristics of seasonal deformation over permafrost terrain in Xidatan, obtained by leveling measurements from 2010 to 2018, Sentinel‐1 data from 2014 to 2020, and hydrothermal‐data‐based simulation. The results consistently showed a four‐stage pattern of seasonal deformation characteristics: Summer thaw subsiding, warm‐season stable‐standing, winter freeze heaving and stable‐standing. The leveling measurements proved that spatial heterogeneity also exists on a small spatial scale (400 m2). The deformation amplitude obtained by leveling data is the largest, and the InSAR data is the smallest. The active layer plays a key role in land surface processes in permafrost areas. Due to the volume change associated with the ice‐water phase transition, this causes periodic deformation of the ground surface. Surface deformation in permafrost areas has a great negative impact on cold‐region infrastructures, and it is also an indicator of permafrost changes in a warming climate. Since 2010, we have been conducting a large number of observations along the Qinghai‐Tibet Highway. The meteorological observation field provides data for simulation and the analysis of deformation. And Interferometric Synthetic Aperture Radar (InSAR) has significant advantages in providing high time‐resolved deformation results. Here, the characteristics of permafrost surface intra‐annual deformation are firstly investigated in detail by using a multi‐data source. The applicability of InSAR and simulation results in the permafrost region was evaluated using leveling measured data, and the reasons for the difference were analyzed. Seasonal deformation was studied in detail by leveling measurement, InSAR monitoring and hydrothermal‐data‐based simulationThe leveling observations of surface deformation in the permafrost site of Xidatan from 2010 to 2018 were first presentedA four‐stage intra‐annual deformation pattern: summer thaw subsiding, warm‐season stable‐standing, winter freeze heaving and stable‐standing Seasonal deformation was studied in detail by leveling measurement, InSAR monitoring and hydrothermal‐data‐based simulation The leveling observations of surface deformation in the permafrost site of Xidatan from 2010 to 2018 were first presented A four‐stage intra‐annual deformation pattern: summer thaw subsiding, warm‐season stable‐standing, winter freeze heaving and stable‐standing