Reconstruction of mid-Holocene extreme flood events in the upper Minjiang River valley, eastern Tibetan Plateau, China

Reconstruction of mid-Holocene extreme flood events in the upper Minjiang River valley, eastern Tibetan Plateau, China

In this paper, we analyze the Holocene record of extreme flood events in the upper Minjiang River valley of the eastern Tibetan Plateau, China. Slackwater deposits (SWDs), the fine-grained sediments of palaeofloods, were identified within debris flow deposits at a tributary mouth and in channel expa...

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Veröffentlicht in:Palaeogeography, palaeoclimatology, palaeoecology palaeoclimatology, palaeoecology, 2023-05, Vol.617, p.111517, Article 111517
Hauptverfasser: Guo, Yongqiang, Ge, Yonggang, Mao, Peini, Liu, Tao
Format: Artikel
Sprache:eng
Schlagworte:
bedrock
China
Chronology
climate
Flood geomorphology
Holocene epoch
inland waters
luminescence
mass movement
monsoon season
Mountain canyons
Palaeoflood hydrology
palaeogeography
paleoclimatology
paleoecology
risk analysis
river valleys
Slackwater deposits
Yangtze River
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Ge, Yonggang
Mao, Peini
Liu, Tao
description In this paper, we analyze the Holocene record of extreme flood events in the upper Minjiang River valley of the eastern Tibetan Plateau, China. Slackwater deposits (SWDs), the fine-grained sediments of palaeofloods, were identified within debris flow deposits at a tributary mouth and in channel expansions along the bedrock gorge. Eight palaeoflood SWDs were dated to between 6.0 ± 0.9 ka and 4.6 ± 0.9 ka using optically-stimulated luminescence analysis in combination with the minimum age model and represent at least two phases of palaeoflood events. The palaeoflood history in the upper Minjiang River Valley is consistent with the record of the mid-Holocene flood events in the mainstream of the Yangtze River. These mid-Holocene extreme flood events were closely related to strong ENSO activity and variability of the monsoon climate in the eastern Tibetan Plateau. In our study area, minimum palaeoflood discharges were estimated as 6500–7800 m3/s by the step-backwater method. These estimated discharges are less than the values inferred for the outburst flood that occurred in the upper Minjiang River Valley in 1933. Flood-inundation maps show that palaeoflood SWDs were deposited in low-velocity backwater zones. Our palaeoflood reconstructions are important for improving regional records of maximum flood and help to develop risk analysis for rare flood events. •Sedimentary characteristics of palaeoflood records in complex environment were identified.•Palaeoflood discharges were estimated to be 6500–7800 m3/s at the three study sites.•Palaeoflood results redefine the envelope curve of the regional maximum floods.•Response of mid-Holocene (6.0–4.6 ka) extreme flood events to climate variability.•Palaeoflood reconstructions help to develop risk analysis for rare flood events.
doi_str_mv 10.1016/j.palaeo.2023.111517
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Slackwater deposits (SWDs), the fine-grained sediments of palaeofloods, were identified within debris flow deposits at a tributary mouth and in channel expansions along the bedrock gorge. Eight palaeoflood SWDs were dated to between 6.0 ± 0.9 ka and 4.6 ± 0.9 ka using optically-stimulated luminescence analysis in combination with the minimum age model and represent at least two phases of palaeoflood events. The palaeoflood history in the upper Minjiang River Valley is consistent with the record of the mid-Holocene flood events in the mainstream of the Yangtze River. These mid-Holocene extreme flood events were closely related to strong ENSO activity and variability of the monsoon climate in the eastern Tibetan Plateau. In our study area, minimum palaeoflood discharges were estimated as 6500–7800 m3/s by the step-backwater method. These estimated discharges are less than the values inferred for the outburst flood that occurred in the upper Minjiang River Valley in 1933. 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Slackwater deposits (SWDs), the fine-grained sediments of palaeofloods, were identified within debris flow deposits at a tributary mouth and in channel expansions along the bedrock gorge. Eight palaeoflood SWDs were dated to between 6.0 ± 0.9 ka and 4.6 ± 0.9 ka using optically-stimulated luminescence analysis in combination with the minimum age model and represent at least two phases of palaeoflood events. The palaeoflood history in the upper Minjiang River Valley is consistent with the record of the mid-Holocene flood events in the mainstream of the Yangtze River. These mid-Holocene extreme flood events were closely related to strong ENSO activity and variability of the monsoon climate in the eastern Tibetan Plateau. In our study area, minimum palaeoflood discharges were estimated as 6500–7800 m3/s by the step-backwater method. These estimated discharges are less than the values inferred for the outburst flood that occurred in the upper Minjiang River Valley in 1933. 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Slackwater deposits (SWDs), the fine-grained sediments of palaeofloods, were identified within debris flow deposits at a tributary mouth and in channel expansions along the bedrock gorge. Eight palaeoflood SWDs were dated to between 6.0 ± 0.9 ka and 4.6 ± 0.9 ka using optically-stimulated luminescence analysis in combination with the minimum age model and represent at least two phases of palaeoflood events. The palaeoflood history in the upper Minjiang River Valley is consistent with the record of the mid-Holocene flood events in the mainstream of the Yangtze River. These mid-Holocene extreme flood events were closely related to strong ENSO activity and variability of the monsoon climate in the eastern Tibetan Plateau. In our study area, minimum palaeoflood discharges were estimated as 6500–7800 m3/s by the step-backwater method. These estimated discharges are less than the values inferred for the outburst flood that occurred in the upper Minjiang River Valley in 1933. Flood-inundation maps show that palaeoflood SWDs were deposited in low-velocity backwater zones. Our palaeoflood reconstructions are important for improving regional records of maximum flood and help to develop risk analysis for rare flood events. •Sedimentary characteristics of palaeoflood records in complex environment were identified.•Palaeoflood discharges were estimated to be 6500–7800 m3/s at the three study sites.•Palaeoflood results redefine the envelope curve of the regional maximum floods.•Response of mid-Holocene (6.0–4.6 ka) extreme flood events to climate variability.•Palaeoflood reconstructions help to develop risk analysis for rare flood events.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.palaeo.2023.111517</doi></addata></record>
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source ScienceDirect Journals (5 years ago - present)
subjects bedrock
China
Chronology
climate
Flood geomorphology
Holocene epoch
inland waters
luminescence
mass movement
monsoon season
Mountain canyons
Palaeoflood hydrology
palaeogeography
paleoclimatology
paleoecology
risk analysis
river valleys
Slackwater deposits
Yangtze River
title Reconstruction of mid-Holocene extreme flood events in the upper Minjiang River valley, eastern Tibetan Plateau, China
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