从Piton de La Fournaise的地面变形推断出喷发周期——这是全球火山项目的一个案例研究

2008 Second Workshop on Use of Remote Sensing Techniques for Monitoring Volcanoes and Seismogenic Areas Pub Date : 2008-11-01 DOI:10.1109/USEREST.2008.4740363

A. Peltier, É. Kaminski, J. Komorowski

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引用次数: 0

摘要

由于其高喷发活动，Piton de La Fournaise是跟踪与喷发活动相关的地面变形的理想案例研究。地面变形由Piton de La Fournaise火山观测站在现场监测。GPS数据揭示了地面变形的两个时间尺度:(1)在每次喷发前几分钟到几小时监测到大的短期位移(高达20×103 mm d-1);(2)自2000年以来，在喷发前的动荡(峰顶膨胀0.4-0.7 mm d-1)和大的远端喷发(峰顶收缩0.3-1.3 mm d-1)期间记录到小的长期地面位移。可用于跟踪喷发周期的大型GPS数据集对于验证全球火山项目所显示的遥感数据特别有用。在火山爆发前的动荡时期，GPS和PSInSAR数据之间的良好相关性使我们能够利用PSInSAR数据验证Piton de La Fournaise的地面变形映射。未来，PSInSar与GPS数据的结合将为我们在更大的空间尺度上研究与喷发旋回相关的地面变形提供补充数据，从而更好地约束变形源。

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Eruptive cycles inferred from ground deformation at Piton de La Fournaise - a case study for the Globvolcano project

Due to its high eruptive activity, Piton de La Fournaise is an ideal case study to follow ground deformation associated with eruptive activity. Ground deformation is monitored in the field by the Volcanological Observatory of Piton de La Fournaise. GPS data reveal the presence of two time scales of ground deformation: (1) large short-term displacements (up to 20×103 mm d-1 ) monitored a few min to hours prior each eruption (2) and since 2000, small long-term ground displacements recorded during pre-eruptive unrests (0.4-0.7 mm d-1 of summit inflation) and after major distal eruptions (0.3-1.3 mm d-1 of summit deflation). The large GPS dataset available to follow the eruptive cycles is particularly useful to validate the remote sensing data as shown by the Globvolcano project. The good correlation between GPS and PSInSAR data recorded during pre-eruptive unrest periods allowed us to validate the ground deformation mapping using PSInSAR data at Piton de La Fournaise. The combination of PSInSar and GPS data, in the future, will give us complementary data to investigate the ground deformation associated with eruptive cycles on a larger space scale and thus better constrain the deformation sources.

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2008 Second Workshop on Use of Remote Sensing Techniques for Monitoring Volcanoes and Seismogenic Areas

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