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Palaeo-earthquake and palaeo-mudflow events at the Machangyuan Ruins in the Huangshui River valley, northeastern margin of the Tibetan Plateau

Guo, Yongqiang ; Huang, Chun Chang ; Pang, Jiangli ; [et al.]

SAGE Publications ; 2016

In: The Holocene Vol. 26, No. 8 ( 2016-08), p. 1208-1224

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In: The Holocene, SAGE Publications, Vol. 26, No. 8 ( 2016-08), p. 1208-1224

Abstract: Palaeo-earthquake event recorded by loess rapture fissures (N30°–40°W and N40°–50°E trending) and palaeo-mudflow event recorded by red clay deposits were identified at the Machangyuan Ruins in the Huangshui River valley, at the foot of the northeastern Tibetan Plateau. Comparative analysis of grain-size distributions and geochemical elements of local outcrops indicates that the red mudflows were sourced from the gullies on the valley side where unconsolidated Neogene red clay formation was exposed The palaeo-earthquake was associated with regional tectonic structures including a NNW-trending left-lateral strike-slip fault (Lajishan fault) and a NE-trending local fault (Bazhougou fault). Analysis combining optically stimulated luminescence ages and radiocarbon ages of archaeological record dates the palaeo-earthquake and palaeo-mudflow events to ca. 4.80 ka BP. During that stage, many Neolithic settlements distributed around the Machangyuan Ruins. Enhanced human activities of the Majiayao Culture disturbed the landscape of the Minhe Basin causing widespread soil erosion. Contemporaneous storm rain and earthquake mobilized the loosened sediments in the upper stream gullies forming mudflows. The hollow ground around the Machangyuan Ruins was covered by mudflow and the earthquake fissures were filled in by the mudflow at the same time. This study provides important insights into early human impact during climatic and tectonic events in the environmentally vulnerable zones over the world.

Type of Medium: Online Resource

ISSN: 0959-6836 , 1477-0911

URL: Article

DOI: 10.1177/0959683616638437

RVK:

RA 1000

Language: English

Publisher: SAGE Publications

Publication Date: 2016

detail.hit.zdb_id: 2027956-5

SSG: 14

SSG: 3,4

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OSL dating of the massive landslide-damming event in the Jishixia Gorge, on the upper Yellow River, NE Tibetan Plateau

Zhang, Yuzhu ; Huang, Chun Chang ; Pang, Jiangli ; [et al.]

SAGE Publications ; 2015

In: The Holocene Vol. 25, No. 5 ( 2015-05), p. 745-757

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In: The Holocene, SAGE Publications, Vol. 25, No. 5 ( 2015-05), p. 745-757

Abstract: Frequent natural hazards cause huge damage to human life and society in the mountainous regions along the eastern rim of the Tibetan Plateau. A massive landslide damming event has been reported in the Jishixia Gorge on the upper Yellow River as it emerges from the NE Tibetan Plateau. It was speculated that a breach of the dammed lake might have resulted in a super flood disaster that ruined the major Neolithic settlement at Lajia (4.20–3.95 ka BP) within the Guanting Basin that is located in the downstream. However, our detailed investigations along the Jishixia Gorge and Guanting Basin indicate that the dammed lake became shallower and desiccated gradually rather than breaching suddenly. The Yellow River has cut into the dammed lake deposits forming well-exposed profiles on the riverbanks. The dammed lake deposits are considered to provide an accurate natural record of the life-span of the dammed lake. Optically Stimulated Luminescence (OSL) dating was carried out on a series of eight samples taken from the profile. The OSL ages of the dammed lake deposits fall within the range of 8.25 ± 0.39 to 5.65 ± 0.21 ka at the Yisiri site about 2.5 km upstream of the landslide dam. These results indicate that the massive landslide damming event and the corresponding dammed lake occurred at 8.25 ka in the early Holocene. The dammed lake existed for about 2600 years and desiccated gradually and disappeared at 5.65 ka because the landslide dam was dissected slowly by the Yellow River. This means that the landslide dammed lake on the Yellow River disappeared about 1700 years before the Neolithic settlement at Lajia became ruins. The landslide damming event in the Jishixia Gorge is not related to the prehistorical catastrophic disasters that overcame the Lajia settlement within the Guanting Basin.

Type of Medium: Online Resource

ISSN: 0959-6836 , 1477-0911

URL: Article

DOI: 10.1177/0959683614567885

RVK:

RA 1000

Language: English

Publisher: SAGE Publications

Publication Date: 2015

detail.hit.zdb_id: 2027956-5

SSG: 14

SSG: 3,4

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Extreme paleoflood events 3200–3000 a BP in the Jingyuan–Jingtai reaches of the upper Yellow River, China

Hu, Guiming ; Huang, Chun Chang ; Zhou, Yali ; [et al.]

SAGE Publications ; 2016

In: The Holocene Vol. 26, No. 5 ( 2016-05), p. 790-800

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In: The Holocene, SAGE Publications, Vol. 26, No. 5 ( 2016-05), p. 790-800

Abstract: A set of paleoflood slack water deposit (SWD) beds was identified within slope clasts at the Jinpingcun (JPC) site in the Jingyuan–Jingtai reaches of the upper Yellow River gorges based on sedimentary criteria and analytical results. Paleoflood hydrology methods were applied to reconstruct paleoflood events in the Jingyuan–Jingtai reaches. The paleoflood peak stages were calculated based on the highest end-point elevations of the SWDs. The HEC-RAS model and optically stimulated luminescence dating enabled robust paleo-discharge estimates to be calculated between 12,750 and 16,310 m 3 /s for paleoflood events that occurred during 3200–3000 a BP. The peak discharges, including gauged and historical flood data at the Lanzhou gauge station and the reconstructed paleoflood peak discharges at the JPC site, were input for flood frequency analysis. These paleo-hydrological approaches can also be applied to other regions in the Yellow River gorges. Furthermore, the ages of the paleoflood events correspond well with the known climatic events at 3100 a BP during Holocene climatic variability. These findings are significant for flood risk estimation, in the assessment of water sources in dryland environments, and in understanding the interactions between hydrological systems and climatic change in arid and semi-arid regions of the upper Yellow River in China.

Type of Medium: Online Resource

ISSN: 0959-6836 , 1477-0911

URL: Article

DOI: 10.1177/0959683615618257

RVK:

RA 1000

Language: English

Publisher: SAGE Publications

Publication Date: 2016

detail.hit.zdb_id: 2027956-5

SSG: 14

SSG: 3,4

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