Rifting Processes at a Continent-Ocean Transition Rift Revealed by Fault Analysis: Example of Dabbahu-Manda-Hararo Rift (Ethiopia) | Publication details

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Publication details

Document type
Journal articles

Document subtype
Full paper

Title
Rifting Processes at a Continent-Ocean Transition Rift Revealed by Fault Analysis: Example of Dabbahu-Manda-Hararo Rift (Ethiopia)

Participants in the publication
S. Dumont (Author)
UNIVERSIDADE DA BEIRA INTERIOR
IDL
Y. Klinger (Author)
A. Socquet (Author)
J. Escartín (Author)
R. Grandin (Author)
E. Jacques (Author)
S. Medynski (Author)
C. Doubre (Author)

Summary
Analyses of fault attributes have contributed to unraveling fault growth processes in diverse tectonic settings. By integrating such analysis at the scale of a fault population, we propose to investigate the characteristics of a rift that has evolved up to a stage typical of a continent-ocean transition. We address this problem by considering Dabbahu-Manda-Hararo (DMH) rift segment (Central Afar,\\\\\\\\nEthiopia), recognized for being in a late rifting stage. We quantify fault azimuth, length, and throw attributes for 668 normal faults. Along DMH rift, the mean fault density is 0.87 ± 0.7 km/km 2 and the median tectonic strain ranges from 1.8% to 3.1% assuming a fault dip of 60° and 45°, respectively. Maximum tectonic strain (>10%) is found where the rift azimuth changes. Along-rift variations in fault azimuth, length, and scaling relationships suggest a different stage of rifting in the northern part of the rift. We show that this difference can be attributed to the influence of the Dabbahu volcano located at the northern tip of the rift, which captured the propagating Manda-Hararo rift in the last ~100 kyr. The morpho-tectonic analysis reveals numerous common features with slow-spreading ridge segments, such as the Lucky Strike segment located along the Mid-Atlantic ridge (segment length, spreading rate, associated magmatic system) but also with intermediate and fast ones (axial valley, fault throws, and diking). This study reveals that a rift at the continent-ocean transition may be characterized by a transient and evolutionary behavior that shares features with oceanic ridges from slow- to fast-spreading rates.

Date of Submisson/Request
2018-05-10

Date of Acceptance
2018-11-30

Date of Publication
2019-01

Where published
Tectonics

Publication Identifiers
ISSN - 0278-7407

Publisher
American Geophysical Union (AGU)

Volume
38

Number
1

Number of pages
24

Starting page
190

Last page
214

Document Identifiers
DOI - https://doi.org/10.1029/2018tc005141
URL - http://dx.doi.org/10.1029/2018tc005141

Keywords
rifting processes; continent-ocean transition fault attribute analysis

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APA
S. Dumont, Y. Klinger, A. Socquet, J. Escartín, R. Grandin, E. Jacques, S. Medynski, C. Doubre, (2019). Rifting Processes at a Continent-Ocean Transition Rift Revealed by Fault Analysis: Example of Dabbahu-Manda-Hararo Rift (Ethiopia). Tectonics, 38, 190-214. ISSN 0278-7407. eISSN . http://dx.doi.org/10.1029/2018tc005141

IEEE
S. Dumont, Y. Klinger, A. Socquet, J. Escartín, R. Grandin, E. Jacques, S. Medynski, C. Doubre, "Rifting Processes at a Continent-Ocean Transition Rift Revealed by Fault Analysis: Example of Dabbahu-Manda-Hararo Rift (Ethiopia)" in Tectonics, vol. 38, pp. 190-214, 2019. 10.1029/2018tc005141

BIBTEX
@article{46292, author = {S. Dumont and Y. Klinger and A. Socquet and J. Escartín and R. Grandin and E. Jacques and S. Medynski and C. Doubre}, title = {Rifting Processes at a Continent-Ocean Transition Rift Revealed by Fault Analysis: Example of Dabbahu-Manda-Hararo Rift (Ethiopia)}, journal = {Tectonics}, year = 2019, pages = {190-214}, volume = 38 }

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