Cascading partial rupture of the Flores Thrust during the 2018 Lombok earthquake sequence, Indonesia
A series of four Mw > 6 earthquakes struck the northern region of Lombok, eastern Indonesia, in a span of three weeks from late July to mid-August 2018. The series was thought to be associated with the Flores thrust, but the exact mechanism causing the unusual earthquake series has remained elusi...
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sg-ntu-dr.10356-1433312023-02-28T16:41:44Z Cascading partial rupture of the Flores Thrust during the 2018 Lombok earthquake sequence, Indonesia Salman, Rino Lindsey, Eric Ostrom Lythgoe, Karen H. Bradley, Kyle Muzli, Muzli Yun, Sang-Ho Chin, Shi Tong Tay, Cheryl Wen Jing Costa, Fidel Wei, Shengji Hill, Emma Mary Asian School of the Environment Earth Observatory of Singapore Science::Geology Earthquakes InSAR A series of four Mw > 6 earthquakes struck the northern region of Lombok, eastern Indonesia, in a span of three weeks from late July to mid-August 2018. The series was thought to be associated with the Flores thrust, but the exact mechanism causing the unusual earthquake series has remained elusive. Our Interferometric Synthetic Aperture Radar analysis, combined with insights from seismology, indicates that the events originated at different hypocenter depths with differing fault geometries, which may explain the cascading behavior of the events, and indicates that better imaging of active fault geometry might provide some insight into future rupture behavior on other similar thrust systems. Our static stress change calculations suggest that the earlier events in the sequence played a role in promoting the later events. In addition, the second event brought the most significant impact on a nearby volcano, by causing volumetric expansion at its shallow magma plumbing system and unclamping its magma ascent zone, which may potentially have an impact on its future eruptive activity. However, no volcanic activity has so far occurred after the earthquakes. Finally, our damage proxy maps suggest that the second event caused the greatest damage to buildings. Accepted version 2020-08-24T07:48:18Z 2020-08-24T07:48:18Z 2020 Journal Article Salman, R., Lindsey, E. O., Lythgoe, K. H., Bradley, K., Muzli, M., Yun, S.-H., ... Hill, E. M. (2020). Cascading partial rupture of the Flores Thrust during the 2018 Lombok earthquake sequence, Indonesia. Seismological Research Letters, 91(4), 2141-2151. doi:10.1785/0220190378 0895-0695 https://hdl.handle.net/10356/143331 10.1785/0220190378 4 91 2141 2151 en Seismological Research Letters https://doi.org/10.21979/N9/2VXWWP © 2020 Seismological Society of America. All rights reserved. This paper was published in Seismological Research Letters and is made available with permission of Seismological Society of America. application/pdf |
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Science::Geology Earthquakes InSAR |
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Science::Geology Earthquakes InSAR Salman, Rino Lindsey, Eric Ostrom Lythgoe, Karen H. Bradley, Kyle Muzli, Muzli Yun, Sang-Ho Chin, Shi Tong Tay, Cheryl Wen Jing Costa, Fidel Wei, Shengji Hill, Emma Mary Cascading partial rupture of the Flores Thrust during the 2018 Lombok earthquake sequence, Indonesia |
| description |
A series of four Mw > 6 earthquakes struck the northern region of Lombok, eastern Indonesia, in a span of three weeks from late July to mid-August 2018. The series was thought to be associated with the Flores thrust, but the exact mechanism causing the unusual earthquake series has remained elusive. Our Interferometric Synthetic Aperture Radar analysis, combined with insights from seismology, indicates that the events originated at different hypocenter depths with differing fault geometries, which may explain the cascading behavior of the events, and indicates that better imaging of active fault geometry might provide some insight into future rupture behavior on other similar thrust systems. Our static stress change calculations suggest that the earlier events in the sequence played a role in promoting the later events. In addition, the second event brought the most significant impact on a nearby volcano, by causing volumetric expansion at its shallow magma plumbing system and unclamping its magma ascent zone, which may potentially have an impact on its future eruptive activity. However, no volcanic activity has so far occurred after the earthquakes. Finally, our damage proxy maps suggest that the second event caused the greatest damage to buildings. |
| author2 |
Asian School of the Environment |
| author_facet |
Asian School of the Environment Salman, Rino Lindsey, Eric Ostrom Lythgoe, Karen H. Bradley, Kyle Muzli, Muzli Yun, Sang-Ho Chin, Shi Tong Tay, Cheryl Wen Jing Costa, Fidel Wei, Shengji Hill, Emma Mary |
| format |
Article |
| author |
Salman, Rino Lindsey, Eric Ostrom Lythgoe, Karen H. Bradley, Kyle Muzli, Muzli Yun, Sang-Ho Chin, Shi Tong Tay, Cheryl Wen Jing Costa, Fidel Wei, Shengji Hill, Emma Mary |
| author_sort |
Salman, Rino |
| title |
Cascading partial rupture of the Flores Thrust during the 2018 Lombok earthquake sequence, Indonesia |
| title_short |
Cascading partial rupture of the Flores Thrust during the 2018 Lombok earthquake sequence, Indonesia |
| title_full |
Cascading partial rupture of the Flores Thrust during the 2018 Lombok earthquake sequence, Indonesia |
| title_fullStr |
Cascading partial rupture of the Flores Thrust during the 2018 Lombok earthquake sequence, Indonesia |
| title_full_unstemmed |
Cascading partial rupture of the Flores Thrust during the 2018 Lombok earthquake sequence, Indonesia |
| title_sort |
cascading partial rupture of the flores thrust during the 2018 lombok earthquake sequence, indonesia |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/143331 https://doi.org/10.21979/N9/2VXWWP |
| _version_ |
1759856806881918976 |