Crustal velocity and strain rate fields in the Balearic Islands based on continuous GPS time series from the XGAIB network (2010–2013)

Sánchez‐Alzola, Alberto; Sánchez, C.; Giménez, J.; Alfaro, P.; Gelabert, Bernadı́; Borque, M.J.; Gil, A. J.

doi:10.1016/j.jog.2014.05.005

Cited by 15 publications

(7 citation statements)

References 40 publications

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“…GIPSY is a GNSS-inferred positioning system and orbit analysis simulation software package developed by the Jet Propulsion Laboratory (JPL) (https://gip sy-oasis.jpl.nasa.gov/). We followed the processing strategy described in Bertiger et al ( 2010) with zero-ambiguity resolution and an identical standard procedure for all campaigns (Sánchez-Alzola et al, 2014). This GPS processing included the use of JPL final ephemeris and Pole products in the same IGS08 reference frame and the introduction of the FES2004 ocean tide loading model from Lyard et al (2006).…”

Section: Gps Network and Data Processingmentioning

confidence: 99%

Geodetic fault slip rates on active faults in the Baza sub-Basin (SE Spain): Insights for seismic hazard assessment

Alfaro

Sánchez‐Alzola

Martı́n-Rojas

et al. 2021

Journal of Geodynamics

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Section: Gps Network and Data Processingmentioning

confidence: 99%

Geodetic fault slip rates on active faults in the Baza sub-Basin (SE Spain): Insights for seismic hazard assessment

Alfaro

Sánchez‐Alzola

Martı́n-Rojas

et al. 2021

Journal of Geodynamics

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“…Mallorca sits in a geologically stable region, away from any of the major tectonic boundaries that exist in the Mediterranean basin. The absence of significant earthquake activity (i.e., M > 3.5) in historical times ( 21 ) and minimal vertical motions since the Upper Miocene (the Supplementary Materials) ( 15 , 22 , 23 ), suggest that Mallorca represents one of the most tectonically stable regions in the western Mediterranean Sea. Therefore, we assume that tectonics has had a negligible influence on the Late Holocene RSL evolution, and no correction for vertical displacements is applied to our sea level index points.…”

Section: Resultsmentioning

confidence: 99%

Exceptionally stable preindustrial sea level inferred from the western Mediterranean Sea

et al. 2022

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An accurate record of preindustrial (pre-1900 CE) sea level is necessary to contextualize modern global mean sea level (GMSL) rise with respect to natural variability. Precisely dated phreatic overgrowths on speleothems (POS) provide detailed rates of Late Holocene sea-level rise in Mallorca. Statistical analysis indicates that sea level rose locally by 0.12 to 0.31 m (95% confidence) from 3.26 to 2.84 thousand years (ka) ago (2σ) and remained within 0.08 m (95% confidence) of preindustrial levels from 2.84 ka to 1900 CE. This sea-level history is consistent with glacial isostatic adjustment models adopting relatively weak upper mantle viscosities of ~10 20 Pa s. There is virtual certainty (>0.999 probability) that the average GMSL rise since 1900 CE has exceeded even the high average rate of sea-level rise between 3.26 and 2.84 ka inferred from the POS record. We conclude that modern GMSL rise is anomalous relative to any natural variability in ice volumes over the past 4000 years.

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“…All the JPL products are referred to the IGb14 reference frame (IGS Mail, 2018), ensuring an unchanged geodetic frame for all the observation campaigns. This methodology has been a good approach for an accurate crustal deformation analysis that has already been applied in many other geodetic studies (Sánchez-Alzola et al, 2014;Gárate et al, 2015;Gil et al, 2017;Borque et al, 2019).…”

Section: Study Area and Gps Networkmentioning

confidence: 99%

Crustal velocity field in Baza and Galera faults: A new estimation from GPS position time series in 2009 - 2018 time span

Gil

Borque

Avilés

et al. 2022

Proceedings of the 5th Joint International Symposium on Deformation Monitoring - JISDM 2022

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The Baza and Galera faults are two active geologic structures located in the central area of the Betic Cordillera (Southern Spain). The goal of our research is to constrain the activity of this faults from high quality GPS measurements to obtain precise deformation rates. In 2008 a GPS survey – mode network was installed to monitor this area. In previous works, we presented a velocity field based on the analysis of some GPS campaigns. Here we show the new results computed from nine GPS campaigns in the timespan 2009-2018. The measurements were done in September 2009, 2010, 2011, 2012, 2013, 2014, 2015, 2017 and 2018. The data process and analysis were performed in Precise Point Positioning by using GIPSYX 1.6 software. GIPSY is a GNSS-inferred positioning software developed by the Jet Propulsion Laboratory. Then, the new estimation of the crustal velocity ﬁeld is computed from the IGb14 time series by SARI software. The model applied to the original time series, using weighted least squares, consists of an intercept, a site rate and an offset to account for an antenna change. The error term is composed of white noise and temporally correlated random error. The colored noise is described by a random-walk process. We have assumed a typical magnitude for this process of 1.0 mm/√yr. Finally, we discuss the implications of the new results for the tectonic setting and seismic hazard assessment of this key tectonic area of the Betic Cordillera.

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Crustal velocity and strain rate fields in the Balearic Islands based on continuous GPS time series from the XGAIB network (2010–2013)

Cited by 15 publications

References 40 publications

Geodetic fault slip rates on active faults in the Baza sub-Basin (SE Spain): Insights for seismic hazard assessment

Geodetic fault slip rates on active faults in the Baza sub-Basin (SE Spain): Insights for seismic hazard assessment

Exceptionally stable preindustrial sea level inferred from the western Mediterranean Sea

Crustal velocity field in Baza and Galera faults: A new estimation from GPS position time series in 2009 - 2018 time span

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