Rupture Geometry and Slip Distribution of the Mw 7.2 Nippes Earthquake, Haiti, From Space Geodetic Data

On 14 August 2021 the Mw 7.2 Nippes earthquake struck southern Haiti, rupturing a segment of the Enriquillo‐Plantain Garden Fault system (EPGF), a 300 km‐long strike‐slip fault system that accommodates half of the highly oblique convergence displacement between the Caribbean and the North American p...

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Bibliographic Details
Published in:Geochemistry, geophysics, geosystems : G3 geophysics, geosystems : G3, 2023-04, Vol.24 (4), p.n/a
Main Authors: Raimbault, B., Jolivet, R., Calais, E., Symithe, S., Fukushima, Y., Dubernet, P.
Format: Article
Language:English
Subjects:
Deformation
Distribution
Earth Sciences
earthquake
Earthquakes
Fault lines
Geological hazards
Geometry
Geophysics
GNSS
Haiti
InSAR
Movement
Navigation
Navigation satellites
Navigation systems
Navigational satellites
Plate boundaries
Plates
SAR (radar)
Satellite imagery
Satellite radar
Satellites
Sciences of the Universe
Seismic activity
Seismic hazard
slip inversion
Synthetic aperture radar
Tectonics
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Summary:On 14 August 2021 the Mw 7.2 Nippes earthquake struck southern Haiti, rupturing a segment of the Enriquillo‐Plantain Garden Fault system (EPGF), a 300 km‐long strike‐slip fault system that accommodates half of the highly oblique convergence displacement between the Caribbean and the North American plates. We use coseismic surface displacements from Interferometric Synthetic Aperture Radar and Global Navigation Satellite System (GNSS) to estimate the geometry of the rupture through a systematic parametric exploration, determine its mechanism, and relate them to the regional tectonics derived from interseismic GNSS measurements. We show that the earthquake ruptured a north dipping fault (66 ± 4° dip) with a geodetically determined moment release that is 40% reverse and 60% strike‐slip. We cannot conclude whether this north‐dipping structure is the EPGF itself or a distinct fault running parallel to the EPGF. The rupture then evolved to the west on a vertical (86 ± 2° dip) fault parallel to the EPGF, the Ravine du Sud fault, with left‐lateral strike‐slip motion. The coseismic slip distribution of the 2010 Léogane and 2021 Nippes earthquakes, consistent with the transpressional interseismic strain rate field, show a segmentation of the Caribbean–North American plate boundary in southern Haiti and imply a revision in our understanding of the mode of earthquake rupture within the EPGF system. Plain Language Summary On 14 August 2021, a magnitude Mw 7.2 earthquake struck the Southern Peninsula of Haiti, a Caribbean country highly vulnerable to natural hazards. Haiti's Peninsula is the locus of the Enriquillo‐Plantain Garden Fault (EPGF), known to accumulate elastic strain susceptible to be released in earthquakes to come. We use satellite radar images and Global Navigation Satellite System (GNSS) data acquired in the epicentral areas of the earthquake to investigate the geometry of the fault involved in the earthquake, the fault motion, and how they match the long‐term, decadal‐scale, regional deformation pattern derived from GNSS data. We show that the earthquake first ruptured a north‐dipping fault (66 ± 4°) and continued to the west on a vertical strike‐slip (86 ± 2°) fault corresponding to the mapped Ravine du Sud fault. We cannot conclude whether this north‐dipping structure is the EPGF itself or a distinct fault running parallel to the EPGF. We show that the fault motion during the earthquake is consistent with the long‐term deformation pattern, with strong
ISSN:1525-2027
1525-2027
DOI:10.1029/2022GC010752