Crustal Structure of the Nile Delta: Interpretation of Seismic-Constrained Satellite-Based Gravity Data

Crustal Structure of the Nile Delta: Interpretation of Seismic-Constrained Satellite-Based Gravity Data

Interpretations of the tectonic setting of the Nile Delta of Egypt and its offshore extension are challenged by the thick sedimentary cover that conceals the underlying structures and by the paucity of deep seismic data and boreholes. A crustal thickness model, constrained by available seismic and g...

Ausführliche Beschreibung

Gespeichert in:
Bibliographische Detailangaben
Veröffentlicht in:Remote sensing (Basel, Switzerland) Switzerland), 2021-05, Vol.13 (10), p.1934, Article 1934
Hauptverfasser: Hassan, Soha, Sultan, Mohamed, Sobh, Mohamed, Elhebiry, Mohamed S., Zahran, Khaled, Abdeldayem, Abdelaziz, Issawy, Elsayed, Kamh, Samir
Format: Artikel
Sprache:eng
Schlagworte:
Boreholes
Continental crust
Earthquakes
Environmental Sciences
Environmental Sciences & Ecology
Fault lines
Geology
Geosciences, Multidisciplinary
Gravity anomalies
hinge zone
Imaging Science & Photographic Technology
inversion
Investigations
Life Sciences & Biomedicine
Moho depth
Nile Delta
Oceanic crust
Physical Sciences
Remote Sensing
satellite gravity
Science & Technology
Sediments
seismic
Seismic activity
Shorelines
Spectrum analysis
Technology
Tectonics
Transition zone
Two dimensional models
Volcanic activity
Volcanic eruptions
Online-Zugang:Volltext
Tags: Tag hinzufügen
Keine Tags, Fügen Sie den ersten Tag hinzu!
Beschreibung
Zusammenfassung:Interpretations of the tectonic setting of the Nile Delta of Egypt and its offshore extension are challenged by the thick sedimentary cover that conceals the underlying structures and by the paucity of deep seismic data and boreholes. A crustal thickness model, constrained by available seismic and geological data, was constructed for the Nile Delta by inversion of satellite gravity data (GOCO06s), and a two-dimensional (2D) forward density model was generated along the Delta's entire length. Modelling results reveal the following: (1) the Nile Delta is formed of two distinctive crustal units: the Southern Delta Block (SDB) and the Northern Delta Basin (NDB) separated by a hinge zone, a feature widely reported from passive margin settings; (2) the SDB is characterized by an east-west-trending low-gravity (similar to-40 mGal) anomaly indicative of continental crust characteristics (depth to Moho (DTM): 36-38 km); (3) the NDB and its offshore extension are characterized by high gravity anomalies (hinge zone: similar to 10 mGal; Delta shore line: >40 mGal; south Herodotus Basin: similar to 140 mGal) that are here attributed to crustal thinning and stretching and decrease in DTM, which is similar to 35 km at the hinge zone, 30-32 km at the shoreline, and 22-20 km south of the Herodotus Basin; and (4) an apparent continuation of the east-northeast-west-southwest transitional crust of the Nile Delta towards the north-northeast-south-southwest-trending Levant margin in the east. These observations together with the reported extensional tectonics along the hinge zone, NDB and its offshore, the low to moderate seismic activity, and the absence of volcanic eruptions in the Nile Delta are all consistent with the NDB being a non-volcanic passive margin transition zone between the North African continental crust (SDB) and the Mediterranean oceanic crust (Herodotus Basin), with the NDB representing a westward extension of the Levant margin extensional transition zone.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs13101934