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  1. Article: Glacier change in China over past decades: Spatiotemporal patterns and influencing factors

    Su, Bo / Xiao, Cunde / Chen, Deliang / Huang, Yi / Che, Yanjun / Zhao, Hongyu / Zou, Mingbo / Guo, Rong / Wang, Xuejia / Li, Xin / Guo, Wanqin / Liu, Shiyin / Yao, Tandong

    Earth-science reviews. 2022 Mar., v. 226

    2022  

    Abstract: China has the largest area of glaciers situated within the middle- and low-latitude areas worldwide. Rapid changes in mountain glaciers across western China in the last decades have not only affected glacial runoff and hazards but also had profound ... ...

    Abstract China has the largest area of glaciers situated within the middle- and low-latitude areas worldwide. Rapid changes in mountain glaciers across western China in the last decades have not only affected glacial runoff and hazards but also had profound impacts on ecosystems and socioeconomic activities in the extensive cold and arid regions of Asia and even beyond. Therefore, research on glacier change is of significant importance for regional sustainability. This study re-analyzes the first and second Chinese Glacier Inventories (CGI-1 and CGI-2) and summarizes available in-situ observation-based studies on glacier mass balance and length to provide a spatially explicit and coherent national-scale assessment of glacier changes and associated influencing factors in recent decades. We connect the glaciers between CGI-1 (from the 1950s to the 1980s) and CGI-2 (from the 2000s to the 2010s) one by one to explore the area, volume, and Equilibrium Line Altitude (ELA) changes at both the individual glacier and river basin scales for the first time. The results show that the long-term area and volume changes in China's glaciers during the area-weighted average period from CGI-1 (around 1969) to CGI-2 (around 2008) were − 5.6%/decade and − 5.3%/decade, respectively, with a mean ELA change of 12.5 m/decade. Approximately 17.2% of the total number of glaciers in CGI-1 disappeared, only 5.5% of the glaciers advanced, and the majority of glaciers decreased in size during the period between CGI-1 and CGI-2, which was characterized by a shrinkage in area and volume and a rise in ELA or division into multiple branches. In-situ observation-based analysis shows that glacier length has reduced since at least the 1960s on average, and their trends have accelerated since the 1990s. The negative trend of mass balance was slightly larger than that of the reference glaciers globally during 1960–2019, while the mean mass loss in any given decade was lower than that of the global mean. The changes have different regional characteristics. Overall, the shrinkage increased from the interior to the southeast in the Tibetan Plateau and decreased from the northeast to the southwest in northern Xinjiang, including the Chinese Tien Shan Mountains. Climatic conditions, as reflected in annual mean temperature and precipitation, are the primary causes of different spatiotemporal patterns of glacier change. A significant positive correlation is observed between annual absolute area/volume changes and snowfall variations, and a significant negative correlation is found with rainfall variations, but there is no significant correlation between the indicators of air temperature and glacial changes at the river basin scale. Additionally, other local-scale factors, such as glacial morphology and topographic conditions, have exerted profound impacts on glacier retreat for individual glaciers.
    Keywords air temperature ; altitude ; cold ; glaciers ; latitude ; rain ; runoff ; shrinkage ; snow ; watersheds ; China
    Language English
    Dates of publication 2022-03
    Publishing place Elsevier B.V.
    Document type Article
    ZDB-ID 1792-9
    ISSN 0012-8252
    ISSN 0012-8252
    DOI 10.1016/j.earscirev.2022.103926
    Database NAL-Catalogue (AGRICOLA)

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  2. Article: Chronostratigraphic framework and paleoenvironmental interpretation of the Holocene loess-paleosol sequence in the Luoyang Basin, Central China

    Jia, Ya-na / Zhang, Yuzhu / Wang, Ninglian / Chang Huang, Chun / Qiu, Haijun / Wang, Haoyu / Yu, Yikun / Seilbike, Aidina / Zou, Mingbo / Lin, Xu / Tan, Zihui / Liu, Wanqing / Hu, Sheng / Patton, Nicholas R

    Aeolian research. 2021 Jan., v. 48

    2021  

    Abstract: The loess-paleosol sequences in the Loess Plateau are major paleoclimatic archives which document the evolution of East Asian Monsoon (EAM) during the Quaternary glacial-interglacial cycles. A complete Holocene loess-paleosol sequence was identified by ... ...

    Abstract The loess-paleosol sequences in the Loess Plateau are major paleoclimatic archives which document the evolution of East Asian Monsoon (EAM) during the Quaternary glacial-interglacial cycles. A complete Holocene loess-paleosol sequence was identified by detailed field investigations in the Luoyang Basin, which is located at the southeastern margin of the Loess Plateau, Central China. Laboratory analysis including magnetic susceptibility, hygroscopic water, grain-size distribution, geochemical elements characteristics, AMS ¹⁴C dating, Bacon age-depth modelling and stratigraphic correlations have been carried out. Our results show that the stratigraphic sequence, from top to bottom, is topsoil (TS), recent loess (L₀), mid-Holocene paleosol (S₀), early Holocene transitional loess (Lₜ) and Malan loess (L₁). The intensity of weathering and pedogenesis varies significantly in different layers and presents such a tendency of S₀ > L₀ > Lₜ > L₁. This indicates four distinct stages in the EAM evolution: 1) an extreme dry-cold climate with strengthened East Asian winter monsoon (EAWM) during the last glacial period, 2) an episode of gradual transition to the warm-humid climate with intensive East Asian summer monsoon (EASM) in the early Holocene (11,500–8500 yr BP), 3) a warm-humid climate affected by intense EASM in the mid-Holocene (8500–3100 yr BP), and lastly 4) an episode of gradually shifting to dry-cool climate with weakened EASM (3100–0 yr BP). These results provide basic data for exploring the Holocene weathering and pedogenesis and paleoenvironmental evolution in Central China.
    Keywords Holocene epoch ; bacon ; basins ; chemical elements ; climate ; correlation ; evolution ; laboratories ; loess ; magnetism ; models ; monsoon season ; paleoclimatology ; paleoecology ; paleosolic soil types ; soil formation ; summer ; topsoil ; water ; winter ; China
    Language English
    Dates of publication 2021-01
    Publishing place Elsevier B.V.
    Document type Article
    Note NAL-light
    ISSN 1875-9637
    DOI 10.1016/j.aeolia.2020.100657
    Database NAL-Catalogue (AGRICOLA)

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  3. Article: Palaeoclimatic and palaeoenvironmental implications of late-Pleistocene aeolian sand in the Jin-Shaan Gorges of the Yellow River valley revealed by luminescence chronology

    Zhang, Yuzhu / Huang, Chun Chang / Tan, Zhihai / Qiu, Haijun / Chen, Yinglu / Cuan, Yuda / Zhao, Hui / Tan, Zihui / Zou, Mingbo / Wang, Jiahui / Zhang, Yuxiang

    Holocene. 2019 June, v. 29, no. 6

    2019  

    Abstract: River valleys are critical water-gas-rock interactions zone, where close interaction between fluvial and aeolian deposition are a pronounced feature in arid, semi-arid, and semi-humid environments. Pedo-sedimentological investigations were carried out in ...

    Abstract River valleys are critical water-gas-rock interactions zone, where close interaction between fluvial and aeolian deposition are a pronounced feature in arid, semi-arid, and semi-humid environments. Pedo-sedimentological investigations were carried out in the Jin-Shaan Gorges of the Yellow River valley. Two late-Pleistocene and Holocene aeolian sand-loess profiles were identified within the cliff riverbank. The aim of this study is to reveal the palaeoclimatic conditions and driving factors for the formation of palaeo-aeolian sand in the Jin-Shaan Gorges of the Yellow River valley. Five samples were taken from the aeolian sand-loess profiles for optically stimulated luminescence (OSL) dating. The OSL ages are in stratigraphic order and range from 12.8 ± 0.7 ka to 11.8 ± 1.0 ka. By combining OSL ages with additional stratigraphic correlations, the deposition period of the palaeo-aeolian sand is dated to 12.5–11.8 ka, which would place it at the Younger Dryas (YD) time interval that punctuated the last glacial-Holocene transition period. The formation of palaeo-aeolian sand in the region was due to sufficient sediment supply from the riverbed sand of the Yellow River, strong East Asian winter monsoon, and strong wind erosion. These results give insights into the palaeoclimatic and palaeoenvironmental conditions for the formation of aeolian sand associated with the river valleys in semi-arid and sub-humid regions.
    Keywords eolian sands ; luminescence ; monsoon season ; paleoclimatology ; paleoecology ; riparian areas ; river valleys ; sand ; stream channels ; wind erosion ; wind speed ; winter ; Yellow River
    Language English
    Dates of publication 2019-06
    Size p. 964-974.
    Publishing place SAGE Publications
    Document type Article
    ZDB-ID 2027956-5
    ISSN 1477-0911 ; 0959-6836
    ISSN (online) 1477-0911
    ISSN 0959-6836
    DOI 10.1177/0959683619831421
    Database NAL-Catalogue (AGRICOLA)

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