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Pre-eruptive ground deformation of Azerbaijan mud volcanoes detected through satellite radar interferometry (DInSAR)

TitlePre-eruptive ground deformation of Azerbaijan mud volcanoes detected through satellite radar interferometry (DInSAR)
Publication TypeArticolo su Rivista peer-reviewed
Year of Publication2014
AuthorsAntonielli, B., Monserrat O., Bonini M., Righini Gaia, Sani F., Luzi G., Feyzullayev A.A., and Aliyev C.S.
JournalTectonophysics
Volume637
Pagination163-177
ISSN00401951
KeywordsAzerbaijan, Buildings, D-inSAR, Deformation, Differential interferometry, displacement, Extrusion, Ground displacement, Interferometry, mud volcano, Mud volcanoes, Pre-eruptive uplift, Radar, Radar interferometry, Satellite radar interferometry, Short duration pulse, Subsidence, synthetic aperture radar, uplift, volcanic eruption, volcanism, Volcanoes
Abstract

Mud volcanism is a process that leads to the extrusion of subsurface mud, fragments of country rocks, saline waters and gases. This mechanism is typically linked to hydrocarbon traps, and the extrusion of this material builds up a variety of conical edifices with a similar morphology to those of magmatic volcanoes, though smaller in size. The Differential Interferometry Synthetic Aperture Radar (DInSAR) technique has been used to investigate the ground deformation related to the activity of the mud volcanoes of Azerbaijan. The analysis of a set of wrapped and unwrapped interferograms, selected according to their coherence, allowed the detection of significant superficial deformation related to the activity of four mud volcanoes. The ground displacement patterns observed during the period spanning from October 2003 to November 2005 are dominated by uplift, which reach a cumulative value of up to 20 and 10. cm at the Ayaz-Akhtarma and Khara-Zira Island mud volcanoes, respectively. However, some sectors of the mud volcano edifices are affected by subsidence, which might correspond to deflation zones that coexist with the inflation zones characterized by the dominant uplift. Important deformation events, caused by fluid pressure and volume variations, have been observed both (1) in connection with main eruptive events in the form of pre-eruptive uplift, and (2) in the form of short-lived deformation pulses that interrupt a period of quiescence. Both deformation patterns show important similarities to those identified in some magmatic systems. The pre-eruptive uplift has been observed in many magmatic volcanoes as a consequence of magma intrusion or hydrothermal fluid injection. Moreover, discrete short-duration pulses of deformation are also experienced by magmatic volcanoes and are repeated over time as multiple inflation and deflation events. © 2014 Elsevier B.V.

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URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-84921958497&doi=10.1016%2fj.tecto.2014.10.005&partnerID=40&md5=b5cda8ec68b8402c1060675079669b81
DOI10.1016/j.tecto.2014.10.005
Citation KeyAntonielli2014163