Abstract
Surface displacement is an common environmental geological phenomenon in the Beijing Plain. Research on surface displacement in the Beijing Plain has mainly focused on vertical surface displacement, whereas the horizontal displacement has scarcely been studied. To investigate the 3-D surface displacement in the Beijing Plain, we construct a leveling-constrained multidirectional PS-InSAR 3-D surface displacement estimation method to obtain the 3-D surface displacement information. The results show that the surface displacement in the study area during 2016–2018 was mainly vertical displacement with two main northern and southern subsidence centers; the vertical displacement ranged from −150 mm/year (down) to 5 mm/year (up), and the east–west horizontal displacement ranged from 20 mm/year (east) to 22 mm/year (west). Validation results show that the 3-D surface displacement estimation results agree well with leveling data and GPS data, indicating the reliability of the 3-D surface displacement datasets. The 3-D surface displacement results show that horizontal displacement is obvious in the areas with a large vertical displacement in the eastern Beijing Plain. Additionally, the horizontal displacement is directed toward the center of vertical displacement. The compressive strain is observed close to the centers of vertical displacement, whereas tensile strain occurs far from the centers of vertical displacement. The main cause of the 3-D surface displacement in the study area is the long-term groundwater overexploitation, especially deep groundwater exploitation. The spatial and temporal extents of displacement do not exactly match the locations of the groundwater sinks in different aquifers; instead, geological structures and stratigraphic/lithological conditions may have a combined effect. Moreover, the spatial and temporal distributions of surface displacement are closely related to ground fissure activity, and both influence each other.
Highlights
Surface displacement, which refers to the environmental geological phenomenon in which the surface of the Earth’s crust is displaced [1], can be triggered by both natural factors, such as volcanic activity, glacial drift, seismicity, and landslides, and anthropogenic factors, such as mining activities and groundwater extraction
The digital elevation model (DEM) used for removing the terrain phase is 90 m resolution Shuttle Radar Topography Mission (SRTM)
The leveling data and Global Positioning System (GPS) data are used to verify the accuracy of the interferometric synthetic aperture radar (InSAR) results
Summary
Surface displacement, which refers to the environmental geological phenomenon in which the surface of the Earth’s crust is displaced [1], can be triggered by both natural factors, such as volcanic activity, glacial drift, seismicity, and landslides, and anthropogenic factors, such as mining activities and groundwater extraction. The second type of method is to obtain the 3-D surface displacement field mainly by combining InSAR measurements with external data, especially GPS data [41,42,43,44,45,46] This approach can obtain high-precision displacement results in all three dimensions, but the accuracy of the results depends on the surface displacement characteristics within the study area and the number and spatial distribution of GPS observation points. This paper constructs a leveling-constrained multidirectional PS-InSAR 3-D surface displacement estimation method to obtain the 3-D surface displacement field of eastern Beijing, verifies that this method can accurately reflect the evolutionary characteristics of this 3-D displacement field through leveling and GPS data, and clarifies the evolutionary and influencing mechanisms of the 3-D displacement field in combination with regional hydrogeological data.
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