A Moho Model for Africa
Abd-Elmotaal, H., Seitz, K., Kuehtreiber, N., Grombein, T., Heck, B., Kutterer, H. (2025). A Moho Model for Africa. EKB Journal Management System, 44(2), 33-38. doi: 10.21608/jaet.2025.372553.1362
Hussein A. Abd-Elmotaal; Kurt Seitz; Norbert Kuehtreiber; Thomas Grombein; Bernhard Heck; Hansjoerg Kutterer. "A Moho Model for Africa". EKB Journal Management System, 44, 2, 2025, 33-38. doi: 10.21608/jaet.2025.372553.1362
Abd-Elmotaal, H., Seitz, K., Kuehtreiber, N., Grombein, T., Heck, B., Kutterer, H. (2025). 'A Moho Model for Africa', EKB Journal Management System, 44(2), pp. 33-38. doi: 10.21608/jaet.2025.372553.1362
Abd-Elmotaal, H., Seitz, K., Kuehtreiber, N., Grombein, T., Heck, B., Kutterer, H. A Moho Model for Africa. EKB Journal Management System, 2025; 44(2): 33-38. doi: 10.21608/jaet.2025.372553.1362

A Moho Model for Africa

Journal of Advanced Engineering Trends
Volume 44, Issue 2, July 2025, Page 33-38  XML PDF (1.07 MB)
Document Type: Original Article
DOI: 10.21608/jaet.2025.372553.1362
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Authors
Hussein A. Abd-Elmotaal email orcid 1; Kurt Seitz2; Norbert Kuehtreiber3; Thomas Grombein2; Bernhard Heck2; Hansjoerg Kutterer2
1Civil Engineering Dep., Faculty of Engineering, Minia University, Minia, Egypt
2Geodetic Institute, Karlsruhe Institute of Technology, Karlsruhe, Germany
3Institute of Geodesy, Graz University of Technology, Graz, Austria
Abstract
The Mohorovičić´ discontinuity (Moho depth) is important information regarding the Earth’s interior. It is used in several applications in geodesy and geophysics. Recent advances in Moho models, which integrate seismic, gravity, and satellite data, provide new opportunities for several geodetic and geophysical applications, e.g., enhancing the geoid determination accuracy, understanding regional geodynamics and plate motion, as well as studying the tectonic motion and earthquake monitoring. Several Moho models were tested, ultimately leading to the creation of a composite model for Africa. This model was derived using least-squares interpolation technique. In order to perform the least-squares interpolation technique, a trend surface has been removed from all source Moho data to satisfy the necessarily condition of having centered interpolated field, i.e., a field with zero mean. A smart approach for fitting the covariance function has been implemented. The removed trend surface has been restored after the interpolation process yielding the 3′ × 3′ AFRMoho25 Moho model for Africa.
Keywords
Moho depth; Africa; geoid; gravity; least-squares prediction
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