The Chaman and Paghman active faults, west of Kabul, Afghanistan: active tectonics, geomorphology, and evidence for rupture in the destructive 1505 earthquake
The city of Kabul, Afghanistan, lies within the Kabul Block, which is bounded by the Sarobi, Gardez and Paghman fault, the northern extension of the Chaman fault, accommodating oblique convergence between the Indian and Eurasian plates. In this paper, we describe the geologic structure and tectonic...
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Format: | Journal article |
Language: | English |
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Elsevier
2023
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author | Shnizai, Z Walker, R Tsutsumi, H |
author_facet | Shnizai, Z Walker, R Tsutsumi, H |
author_sort | Shnizai, Z |
collection | OXFORD |
description | The city of Kabul, Afghanistan, lies within the Kabul Block, which is bounded by the Sarobi, Gardez and Paghman fault, the northern extension of the Chaman fault, accommodating oblique convergence between the Indian and Eurasian plates. In this paper, we describe the geologic structure and tectonic geomorphology of the northeast-striking Paghman fault and a ∼10-km-long portion of the Chaman fault using a combination of field observations and remote sensing data, and assess evidence for rupturing in the 1505 historical earthquake. The Paghman fault is predominantly a left-lateral strike-slip fault with a minor dip-slip component along the eastern margin of the Paghman Mountains. The Chaman and Paghman faults displaces Paleogene to Quaternary units with clear displacement of recent deposits. Continuous left-lateral movement of the both faults have caused stream deflection, capturing, abandonment, and finally, incision of alluvial deposits inside the Kabul Basin. We identify several stages in the alluvial fan development and displacement that were once a continuous unit displaced left-laterally as a single fan but are now incised by beheaded and offset stream channels. An approximately 30-km-long active fault trace is identified with geomorphic evidence of recent faulting and vertical offset ∼0.5–3 m, which we interpret is related to the historical 1505 earthquake in the area along the Chaman and Paghman faults. Our observations indicate significant along-strike variations in faults trace geometry. The seismic event comprises several fault segments separated by discontinuities such as stepovers. The two faults have accumulated enough elastic strain to cause a larger earthquake since the 1505 quake. |
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format | Journal article |
id | oxford-uuid:f4e23ce2-f53d-4dae-b00d-1b244847b501 |
institution | University of Oxford |
language | English |
last_indexed | 2024-03-07T08:14:55Z |
publishDate | 2023 |
publisher | Elsevier |
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spelling | oxford-uuid:f4e23ce2-f53d-4dae-b00d-1b244847b5012023-12-15T14:57:51ZThe Chaman and Paghman active faults, west of Kabul, Afghanistan: active tectonics, geomorphology, and evidence for rupture in the destructive 1505 earthquakeJournal articlehttp://purl.org/coar/resource_type/c_dcae04bcuuid:f4e23ce2-f53d-4dae-b00d-1b244847b501EnglishSymplectic ElementsElsevier2023Shnizai, ZWalker, RTsutsumi, HThe city of Kabul, Afghanistan, lies within the Kabul Block, which is bounded by the Sarobi, Gardez and Paghman fault, the northern extension of the Chaman fault, accommodating oblique convergence between the Indian and Eurasian plates. In this paper, we describe the geologic structure and tectonic geomorphology of the northeast-striking Paghman fault and a ∼10-km-long portion of the Chaman fault using a combination of field observations and remote sensing data, and assess evidence for rupturing in the 1505 historical earthquake. The Paghman fault is predominantly a left-lateral strike-slip fault with a minor dip-slip component along the eastern margin of the Paghman Mountains. The Chaman and Paghman faults displaces Paleogene to Quaternary units with clear displacement of recent deposits. Continuous left-lateral movement of the both faults have caused stream deflection, capturing, abandonment, and finally, incision of alluvial deposits inside the Kabul Basin. We identify several stages in the alluvial fan development and displacement that were once a continuous unit displaced left-laterally as a single fan but are now incised by beheaded and offset stream channels. An approximately 30-km-long active fault trace is identified with geomorphic evidence of recent faulting and vertical offset ∼0.5–3 m, which we interpret is related to the historical 1505 earthquake in the area along the Chaman and Paghman faults. Our observations indicate significant along-strike variations in faults trace geometry. The seismic event comprises several fault segments separated by discontinuities such as stepovers. The two faults have accumulated enough elastic strain to cause a larger earthquake since the 1505 quake. |
spellingShingle | Shnizai, Z Walker, R Tsutsumi, H The Chaman and Paghman active faults, west of Kabul, Afghanistan: active tectonics, geomorphology, and evidence for rupture in the destructive 1505 earthquake |
title | The Chaman and Paghman active faults, west of Kabul, Afghanistan: active tectonics, geomorphology, and evidence for rupture in the destructive 1505 earthquake |
title_full | The Chaman and Paghman active faults, west of Kabul, Afghanistan: active tectonics, geomorphology, and evidence for rupture in the destructive 1505 earthquake |
title_fullStr | The Chaman and Paghman active faults, west of Kabul, Afghanistan: active tectonics, geomorphology, and evidence for rupture in the destructive 1505 earthquake |
title_full_unstemmed | The Chaman and Paghman active faults, west of Kabul, Afghanistan: active tectonics, geomorphology, and evidence for rupture in the destructive 1505 earthquake |
title_short | The Chaman and Paghman active faults, west of Kabul, Afghanistan: active tectonics, geomorphology, and evidence for rupture in the destructive 1505 earthquake |
title_sort | chaman and paghman active faults west of kabul afghanistan active tectonics geomorphology and evidence for rupture in the destructive 1505 earthquake |
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