Surface Uplift and Topographic Rejuvenation of a Tectonically Inactive Range: Insights From the Anti‐Atlas and the Siroua Massif (Morocco)
The Atlas‐Meseta intracontinental orographic system of Morocco experienced recent, large‐scale surface uplift as documented by elevated late Miocene, shallow‐water marine deposits exposed in the Middle Atlas Mountains. The Anti‐Atlas Mountains do not present any stratigraphic records that document r...
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| Vydáno v: | Tectonics (Washington, D.C.) Ročník 42; číslo 2 |
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| Hlavní autoři: | , , , , , , , , |
| Médium: | Journal Article |
| Jazyk: | angličtina |
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Washington
Blackwell Publishing Ltd
01.02.2023
American Geophysical Union (AGU) |
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| ISSN: | 0278-7407, 1944-9194 |
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| Abstract | The Atlas‐Meseta intracontinental orographic system of Morocco experienced recent, large‐scale surface uplift as documented by elevated late Miocene, shallow‐water marine deposits exposed in the Middle Atlas Mountains. The Anti‐Atlas Mountains do not present any stratigraphic records that document regional vertical movements, however, the presence of a high‐standing, erosional surface, and the transient state of the river network, provides insights into the uplift history of the belt and the mechanisms that drove it. Here, we combine geomorphic and stream profiles analyses, celerity of knickpoints and linear inverse landscape modeling with available geological evidence, to decipher the spatial and temporal variations of surface uplift in the Anti‐Atlas and the Siroua Massif. Our results highlight the presence of a transient landscape and document a long wave‐length topographic swell (∼100 × 600 km) with a maximum surface uplift of ∼1,500 m in the Siroua Massif and ∼1,100 m in the central Anti‐Atlas most likely starting from ∼14 to 10 Ma. Surface uplift occurred in association with the onset of late Miocene magmatism in the Siroua and Saghro Massif and contractional deformation in the High Atlas. Regional surface uplift was most likely due to deep‐seated mechanism, such as asthenospheric upwelling. Additional processes such as magma injection and faulting contributed to the surface uplift of the Siroua Massif. Overall, our approach allows to quantitatively constrain the transient state of the landscape and the contribution of regional surface uplift on mountain building processes.
Key Points
The transient state of the stream network and the high‐standing erosional surface document a recent phase of topographic rejuvenation
Uplift started at ∼14–10 Ma and increases from the western (0.5 km) to the central Anti‐Atlas (1.1 km) and the Siroua Massif (1.5 km)
Regional surface uplift is most likely due to astenospheric upwelling, locally combined (Siroua Massif) with magma injection and faulting |
|---|---|
| AbstractList | The Atlas‐Meseta intracontinental orographic system of Morocco experienced recent, large‐scale surface uplift as documented by elevated late Miocene, shallow‐water marine deposits exposed in the Middle Atlas Mountains. The Anti‐Atlas Mountains do not present any stratigraphic records that document regional vertical movements, however, the presence of a high‐standing, erosional surface, and the transient state of the river network, provides insights into the uplift history of the belt and the mechanisms that drove it. Here, we combine geomorphic and stream profiles analyses, celerity of knickpoints and linear inverse landscape modeling with available geological evidence, to decipher the spatial and temporal variations of surface uplift in the Anti‐Atlas and the Siroua Massif. Our results highlight the presence of a transient landscape and document a long wave‐length topographic swell (∼100 × 600 km) with a maximum surface uplift of ∼1,500 m in the Siroua Massif and ∼1,100 m in the central Anti‐Atlas most likely starting from ∼14 to 10 Ma. Surface uplift occurred in association with the onset of late Miocene magmatism in the Siroua and Saghro Massif and contractional deformation in the High Atlas. Regional surface uplift was most likely due to deep‐seated mechanism, such as asthenospheric upwelling. Additional processes such as magma injection and faulting contributed to the surface uplift of the Siroua Massif. Overall, our approach allows to quantitatively constrain the transient state of the landscape and the contribution of regional surface uplift on mountain building processes.
Key Points
The transient state of the stream network and the high‐standing erosional surface document a recent phase of topographic rejuvenation
Uplift started at ∼14–10 Ma and increases from the western (0.5 km) to the central Anti‐Atlas (1.1 km) and the Siroua Massif (1.5 km)
Regional surface uplift is most likely due to astenospheric upwelling, locally combined (Siroua Massif) with magma injection and faulting The Atlas-Meseta intracontinental orographic system of Morocco experienced recent, large-scale surface uplift as documented by elevated late Miocene, shallow-water marine deposits exposed in the Middle Atlas Mountains. The Anti-Atlas Mountains do not present any stratigraphic records that document regional vertical movements, however, the presence of a high-standing, erosional surface, and the transient state of the river network, provides insights into the uplift history of the belt and the mechanisms that drove it. Here, we combine geomorphic and stream profiles analyses, celerity of knickpoints and linear inverse landscape modelling with available geological evidence, to decipher the spatial and temporal variations of surface uplift in the Anti-Atlas and the Siroua Massif. Our results highlight the presence of a transient landscape and document a long wave-length topographic swell (~ 100 x 600 km) with a maximum surface uplift of ~1500 m in the Siroua Massif and ~1100 m in the central Anti-Atlas most likely starting from ~14-10 Ma. Surface uplift occurred in association with the onset of late Miocene magmatism in the Siroua and Saghro Massif and contractional deformation in the High Atlas. Regional surface uplift was most likely due to deep-seated mechanism, such as astenopsheric upwelling. Additional processes such as magma injection and faulting contributed to the surface uplift of the Siroua Massif. Overall, our approach allows to quantitatively constrain the transient state of the landscape and the contribution of regional surface uplift on mountain building processes. The Atlas‐Meseta intracontinental orographic system of Morocco experienced recent, large‐scale surface uplift as documented by elevated late Miocene, shallow‐water marine deposits exposed in the Middle Atlas Mountains. The Anti‐Atlas Mountains do not present any stratigraphic records that document regional vertical movements, however, the presence of a high‐standing, erosional surface, and the transient state of the river network, provides insights into the uplift history of the belt and the mechanisms that drove it. Here, we combine geomorphic and stream profiles analyses, celerity of knickpoints and linear inverse landscape modeling with available geological evidence, to decipher the spatial and temporal variations of surface uplift in the Anti‐Atlas and the Siroua Massif. Our results highlight the presence of a transient landscape and document a long wave‐length topographic swell (∼100 × 600 km) with a maximum surface uplift of ∼1,500 m in the Siroua Massif and ∼1,100 m in the central Anti‐Atlas most likely starting from ∼14 to 10 Ma. Surface uplift occurred in association with the onset of late Miocene magmatism in the Siroua and Saghro Massif and contractional deformation in the High Atlas. Regional surface uplift was most likely due to deep‐seated mechanism, such as asthenospheric upwelling. Additional processes such as magma injection and faulting contributed to the surface uplift of the Siroua Massif. Overall, our approach allows to quantitatively constrain the transient state of the landscape and the contribution of regional surface uplift on mountain building processes. The Atlas‐Meseta intracontinental orographic system of Morocco experienced recent, large‐scale surface uplift as documented by elevated late Miocene, shallow‐water marine deposits exposed in the Middle Atlas Mountains. The Anti‐Atlas Mountains do not present any stratigraphic records that document regional vertical movements, however, the presence of a high‐standing, erosional surface, and the transient state of the river network, provides insights into the uplift history of the belt and the mechanisms that drove it. Here, we combine geomorphic and stream profiles analyses, celerity of knickpoints and linear inverse landscape modeling with available geological evidence, to decipher the spatial and temporal variations of surface uplift in the Anti‐Atlas and the Siroua Massif. Our results highlight the presence of a transient landscape and document a long wave‐length topographic swell (∼100 × 600 km) with a maximum surface uplift of ∼1,500 m in the Siroua Massif and ∼1,100 m in the central Anti‐Atlas most likely starting from ∼14 to 10 Ma. Surface uplift occurred in association with the onset of late Miocene magmatism in the Siroua and Saghro Massif and contractional deformation in the High Atlas. Regional surface uplift was most likely due to deep‐seated mechanism, such as asthenospheric upwelling. Additional processes such as magma injection and faulting contributed to the surface uplift of the Siroua Massif. Overall, our approach allows to quantitatively constrain the transient state of the landscape and the contribution of regional surface uplift on mountain building processes. The transient state of the stream network and the high‐standing erosional surface document a recent phase of topographic rejuvenation Uplift started at ∼14–10 Ma and increases from the western (0.5 km) to the central Anti‐Atlas (1.1 km) and the Siroua Massif (1.5 km) Regional surface uplift is most likely due to astenospheric upwelling, locally combined (Siroua Massif) with magma injection and faulting |
| Author | Clementucci, R. Siame, L. Lanari, R. Sembroni, A. Ballato, P. Yaaqoub, A. Fox, M. Faccenna, C. Essaifi, A. |
| Author_xml | – sequence: 1 givenname: R. orcidid: 0000-0003-2332-5812 surname: Clementucci fullname: Clementucci, R. email: romano.clementucci@uniroma3.it organization: Aix‐Marseille University – sequence: 2 givenname: P. orcidid: 0000-0002-3836-8199 surname: Ballato fullname: Ballato, P. organization: Università Roma Tre – sequence: 3 givenname: L. orcidid: 0000-0002-4288-9528 surname: Siame fullname: Siame, L. organization: Aix‐Marseille University – sequence: 4 givenname: M. orcidid: 0000-0002-7401-8583 surname: Fox fullname: Fox, M. organization: University College London – sequence: 5 givenname: R. surname: Lanari fullname: Lanari, R. organization: Università di Firenze – sequence: 6 givenname: A. orcidid: 0000-0003-4672-6125 surname: Sembroni fullname: Sembroni, A. organization: Università Roma Tre – sequence: 7 givenname: C. orcidid: 0000-0003-0765-4165 surname: Faccenna fullname: Faccenna, C. organization: GFZ‐German Research Centre for Geosciences – sequence: 8 givenname: A. surname: Yaaqoub fullname: Yaaqoub, A. organization: Universite´ Cadi Ayyad – sequence: 9 givenname: A. surname: Essaifi fullname: Essaifi, A. organization: Universite´ Cadi Ayyad |
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| CitedBy_id | crossref_primary_10_1029_2022EF003297 crossref_primary_10_1029_2022TC007461 crossref_primary_10_1029_2024TC008335 crossref_primary_10_1016_j_jsg_2025_105394 crossref_primary_10_1016_j_tecto_2024_230533 crossref_primary_10_5194_esurf_12_973_2024 crossref_primary_10_1016_j_earscirev_2024_104901 crossref_primary_10_1029_2023TC008002 crossref_primary_10_1016_j_catena_2024_108325 crossref_primary_10_1002_esp_70090 crossref_primary_10_1029_2024JF007759 crossref_primary_10_1029_2022TC007737 crossref_primary_10_1007_s00531_025_02509_y crossref_primary_10_1016_j_geomorph_2023_108765 crossref_primary_10_1016_j_geomorph_2024_109410 |
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| Publisher | Blackwell Publishing Ltd American Geophysical Union (AGU) |
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| Snippet | The Atlas‐Meseta intracontinental orographic system of Morocco experienced recent, large‐scale surface uplift as documented by elevated late Miocene,... The Atlas-Meseta intracontinental orographic system of Morocco experienced recent, large-scale surface uplift as documented by elevated late Miocene,... |
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| SubjectTerms | Asthenosphere Atlas‐Meseta system Continental interfaces, environment Deformation Earth Sciences Fluvial deposits Geomorphology knickpoints landscape evolution Lava Magma Miocene Mountains Ocean circulation Orogeny quantitative geomorphology River networks Sciences of the Universe Stream profiles surface uplift Tectonics Temporal variations Topography transient topography Uplift Upwelling |
| Title | Surface Uplift and Topographic Rejuvenation of a Tectonically Inactive Range: Insights From the Anti‐Atlas and the Siroua Massif (Morocco) |
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