The Malawi Active Fault Database: An Onshore‐Offshore Database for Regional Assessment of Seismic Hazard and Tectonic Evolution

Jack N. Williams; Luke N. J. Wedmore; Christopher A. Scholz; Folarin Kolawole; Lachlan J. M. Wright; Donna J. Shillington; Åke Fagereng; Juliet Biggs; Hassan Mdala; Zuze Dulanya; Felix Mphepo; Patrick R. N. Chindandali; Maximilian J. Werner

doi:10.1029/2022GC010425

Geochemistry, Geophysics, Geosystems (May 2022)

The Malawi Active Fault Database: An Onshore‐Offshore Database for Regional Assessment of Seismic Hazard and Tectonic Evolution

Jack N. Williams,
Luke N. J. Wedmore,
Christopher A. Scholz,
Folarin Kolawole,
Lachlan J. M. Wright,
Donna J. Shillington,
Åke Fagereng,
Juliet Biggs,
Hassan Mdala,
Zuze Dulanya,
Felix Mphepo,
Patrick R. N. Chindandali,
Maximilian J. Werner

Affiliations

Jack N. Williams: School of Environmental Sciences Cardiff University Cardiff UK
Luke N. J. Wedmore: School of Earth Sciences University of Bristol Bristol UK
Christopher A. Scholz: Department of Earth Sciences Syracuse University Syracuse NY USA
Folarin Kolawole: BP America Houston TX USA
Lachlan J. M. Wright: Department of Earth Sciences Syracuse University Syracuse NY USA
Donna J. Shillington: School of Earth and Sustainability Northern Arizona University Flagstaff AZ USA
Åke Fagereng: School of Environmental Sciences Cardiff University Cardiff UK
Juliet Biggs: School of Earth Sciences University of Bristol Bristol UK
Hassan Mdala: Geological Survey Department Mzuzu Regional Office Mzuzu Malawi
Zuze Dulanya: Geography and Earth Sciences Department University of Malawi Zomba Malawi
Felix Mphepo: Geological Survey Department Mzuzu Regional Office Mzuzu Malawi
Patrick R. N. Chindandali: Geological Survey Department Zomba Malawi
Maximilian J. Werner: School of Earth Sciences University of Bristol Bristol UK

DOI: https://doi.org/10.1029/2022GC010425
Journal volume & issue: Vol. 23, no. 5
pp. n/a – n/a

Abstract

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Abstract We present the Malawi Active Fault Database (MAFD), an open‐access (https://doi.org/10.5281/zenodo.5507190) geospatial database of 113 fault traces in Malawi and neighboring Tanzania and Mozambique. Malawi is located within the East African Rift's (EAR) Western Branch where active fault identification is challenging because chronostratigraphic data are rare, and/or faults are buried and so do not have a surface expression. The MAFD therefore includes any fault that has evidence for displacement during Cenozoic East African rifting or is buried beneath the rift valley and is favorably oriented to the regional stresses. To identify such faults, we consider a multidisciplinary data set: high‐resolution digital elevation models, previous geological mapping, field observations, seismic reflection surveys from offshore Lake Malawi, and aeromagnetic and gravity data. The MAFD includes faults throughout Malawi, where seismic risk is increasing because of population growth and its seismically vulnerable building stock. We also investigate the database as a sample of the normal fault population in an incipient continental rift. We cannot reject the null hypothesis that the distribution of fault lengths in the MAFD is described by a power law, which is consistent with Malawi's relatively thick seismogenic layer (30–40 km), low (<8%) regional extensional strain, and regional deformation localization (50%–75%) across relatively long hard‐linked border faults. Cumulatively, we highlight the importance of integrating onshore and offshore geological and geophysical data to develop active fault databases along the EAR and similar continental settings both to understand the regional seismic hazard and tectonic evolution.

Published in Geochemistry, Geophysics, Geosystems

ISSN: 1525-2027 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physics: Geophysics. Cosmic physics; Science: Geology
Website: https://agupubs.onlinelibrary.wiley.com/journal/15252027

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