Seismicity Associated With the Formation of a New Island in the Southern Red Sea
Volcanic eruptions at mid-ocean ridges are rarely witnessed due to their inaccessibility, and are therefore poorly understood. Shallow waters in the Red Sea allow the study of ocean ridge related volcanism observed close to sea level. On the 18th December 2011, Yemeni fishermen witnessed a volcanic...
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Frontiers Media S.A.
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| Series: | Frontiers in Earth Science |
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| Online Access: | https://www.frontiersin.org/article/10.3389/feart.2018.00141/full |
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doaj-7b53f6f14b924b20b6982fb63c25da152020-11-25T00:03:30ZengFrontiers Media S.A.Frontiers in Earth Science2296-64632018-09-01610.3389/feart.2018.00141404681Seismicity Associated With the Formation of a New Island in the Southern Red SeaJade H. W. Eyles0Jade H. W. Eyles1Finnigan Illsley-Kemp2Finnigan Illsley-Kemp3Derek Keir4Derek Keir5Joël Ruch6Joël Ruch7Sigurjón Jónsson8Ocean and Earth Science, University of Southampton, Southampton, United KingdomSchool of Environmental Sciences, University of East Anglia, Norwich, United KingdomOcean and Earth Science, University of Southampton, Southampton, United KingdomSchool of Geography, Environment and Earth Sciences, Victoria University of Wellington, Wellington, New ZealandOcean and Earth Science, University of Southampton, Southampton, United KingdomDipartimento di Scienze della Terra, Universita degli Studi di Firenze, Florence, ItalyDepartment of Earth Sciences, University of Geneva, Geneva, SwitzerlandPhysical Science and Engineering Division, King Abdullah University of Science and Technology, Thuwal, Saudi ArabiaPhysical Science and Engineering Division, King Abdullah University of Science and Technology, Thuwal, Saudi ArabiaVolcanic eruptions at mid-ocean ridges are rarely witnessed due to their inaccessibility, and are therefore poorly understood. Shallow waters in the Red Sea allow the study of ocean ridge related volcanism observed close to sea level. On the 18th December 2011, Yemeni fishermen witnessed a volcanic eruption in the Southern Red Sea that led to the formation of Sholan Island. Previous research efforts to constrain the dynamics of the intrusion and subsequent eruption relied primarily on interferometric synthetic aperture radar (InSAR) methods, data for which were relatively sparse. Our study integrates InSAR analysis with seismic data from Eritrea, Yemen, and Saudi Arabia to provide additional insights into the transport of magma in the crust that fed the eruption. Twenty-three earthquakes of magnitude 2.1–3.9 were located using the Oct-tree sampling algorithm. The earthquakes propagated southeastward from near Sholan Island, mainly between December 12th and December 13th. The seismicity is interpreted as being induced by emplacement of a ∼12 km-long dike. Earthquake focal mechanisms are primarily normal faulting and suggest the seismicity was caused through a combination of dike propagation and inflation. We combine these observations with new deformation modeling to constrain the location and orientation of the dike. The best-fit dike orientation that satisfies both geodetic and seismic data is NNW-SSE, parallel to the overall strike of the Red Sea. Further, the timing of the seismicity suggests the volcanic activity began as a submarine eruption on the 13th December, which became a subaerial eruption on the 18th December when the island emerged from the beneath the sea. The new intrusion and eruption along the ridge suggests seafloor spreading is active in this region.https://www.frontiersin.org/article/10.3389/feart.2018.00141/fullRed Seamid-ocean ridgedikeseismicityInSAReruption |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Jade H. W. Eyles Jade H. W. Eyles Finnigan Illsley-Kemp Finnigan Illsley-Kemp Derek Keir Derek Keir Joël Ruch Joël Ruch Sigurjón Jónsson |
| spellingShingle |
Jade H. W. Eyles Jade H. W. Eyles Finnigan Illsley-Kemp Finnigan Illsley-Kemp Derek Keir Derek Keir Joël Ruch Joël Ruch Sigurjón Jónsson Seismicity Associated With the Formation of a New Island in the Southern Red Sea Frontiers in Earth Science Red Sea mid-ocean ridge dike seismicity InSAR eruption |
| author_facet |
Jade H. W. Eyles Jade H. W. Eyles Finnigan Illsley-Kemp Finnigan Illsley-Kemp Derek Keir Derek Keir Joël Ruch Joël Ruch Sigurjón Jónsson |
| author_sort |
Jade H. W. Eyles |
| title |
Seismicity Associated With the Formation of a New Island in the Southern Red Sea |
| title_short |
Seismicity Associated With the Formation of a New Island in the Southern Red Sea |
| title_full |
Seismicity Associated With the Formation of a New Island in the Southern Red Sea |
| title_fullStr |
Seismicity Associated With the Formation of a New Island in the Southern Red Sea |
| title_full_unstemmed |
Seismicity Associated With the Formation of a New Island in the Southern Red Sea |
| title_sort |
seismicity associated with the formation of a new island in the southern red sea |
| publisher |
Frontiers Media S.A. |
| series |
Frontiers in Earth Science |
| issn |
2296-6463 |
| publishDate |
2018-09-01 |
| description |
Volcanic eruptions at mid-ocean ridges are rarely witnessed due to their inaccessibility, and are therefore poorly understood. Shallow waters in the Red Sea allow the study of ocean ridge related volcanism observed close to sea level. On the 18th December 2011, Yemeni fishermen witnessed a volcanic eruption in the Southern Red Sea that led to the formation of Sholan Island. Previous research efforts to constrain the dynamics of the intrusion and subsequent eruption relied primarily on interferometric synthetic aperture radar (InSAR) methods, data for which were relatively sparse. Our study integrates InSAR analysis with seismic data from Eritrea, Yemen, and Saudi Arabia to provide additional insights into the transport of magma in the crust that fed the eruption. Twenty-three earthquakes of magnitude 2.1–3.9 were located using the Oct-tree sampling algorithm. The earthquakes propagated southeastward from near Sholan Island, mainly between December 12th and December 13th. The seismicity is interpreted as being induced by emplacement of a ∼12 km-long dike. Earthquake focal mechanisms are primarily normal faulting and suggest the seismicity was caused through a combination of dike propagation and inflation. We combine these observations with new deformation modeling to constrain the location and orientation of the dike. The best-fit dike orientation that satisfies both geodetic and seismic data is NNW-SSE, parallel to the overall strike of the Red Sea. Further, the timing of the seismicity suggests the volcanic activity began as a submarine eruption on the 13th December, which became a subaerial eruption on the 18th December when the island emerged from the beneath the sea. The new intrusion and eruption along the ridge suggests seafloor spreading is active in this region. |
| topic |
Red Sea mid-ocean ridge dike seismicity InSAR eruption |
| url |
https://www.frontiersin.org/article/10.3389/feart.2018.00141/full |
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