Frontiers in Earth Science (Jun 2022)

Surface Velocities and Strain-Rates in the Euro-Mediterranean Region From Massive GPS Data Processing

  • Enrico Serpelloni,
  • Enrico Serpelloni,
  • Adriano Cavaliere,
  • Leonardo Martelli,
  • Francesco Pintori,
  • Letizia Anderlini,
  • Alessandra Borghi,
  • Daniele Randazzo,
  • Daniele Randazzo,
  • Sergio Bruni,
  • Roberto Devoti,
  • Paolo Perfetti,
  • Stefano Cacciaguerra

DOI
https://doi.org/10.3389/feart.2022.907897
Journal volume & issue
Vol. 10

Abstract

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In this work we present and discuss new geodetic velocity and strain-rate fields for the Euro-Mediterranean region obtained from the analysis of continuous GNSS stations. We describe the procedures and methods adopted to analyze raw GPS observations from >4000 stations operating in the Euro-Mediterranean, Eurasian and African regions. The goal of this massive analysis is the monitoring of Earth’s crust deformation in response to tectonic processes, including plate- and micro-plate kinematics, geodynamics, active tectonics, earthquake-cycle, but also the study of a wide range of geophysical processes, natural and anthropogenic subsidence, sea-level changes, and hydrology. We describe the computational infrastructure, the methods and procedures adopted to obtain a three-dimensional GPS velocity field, which is used to obtain spatial velocity gradients and horizontal strain-rates. We then focus on the Euro-Mediterranean region, where we discuss the horizontal and vertical velocities, and spatial velocity gradients, obtained from stations that have time-series lengths longer than 6 and 7 years, which are found to be the minimum spans to provide stable and reliable velocity estimates in the horizontal and vertical components, respectively. We compute the horizontal strain-rate field and discuss deformation patterns and kinematics along the major seismogenic belts of the Nubia-Eurasia plate boundary zone in the Mediterranean region. The distribution and density of continuous GNSS stations in our geodetic solution allow us to estimate the strain-rate field at a spatial scale of ∼27 km over a large part of southern Europe, with the exclusion of the Dinaric mountains and Balkans.

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