Contribution of underlying terrain to sand dunes: evidence from the Qaidam Basin, Northwest China

Groundwater is a critical water resource for human survival and economic development in arid and semi-arid areas. It is crucial to understand the groundwater circulation and hydrochemical evolution for sustainable management and utilization of groundwater resources in those areas. To this end, an investigation of the hydrochemical characteristics of surface water and groundwater was conducted in Nomhon, an arid area located in the Qaidam Basin, northwest China, by using hydrochemical (major and trace elements) and stable isotopes (δD and δ18O) approaches. Stable isotopes and ion ratios were analyzed to determine the recharge sources, hydrochemistry characteristics, and major hydrogeochemical processes. Meanwhile, inverse geochemistry modeling was applied to quantitatively determine the mass transfer of hydrogeochemical processes. The results showed that groundwater in the study area is mainly recharged by atmospheric precipitation in mountainous areas, and the groundwater in the center of basin might originate from ancient water in cold and humid environments. Along the groundwater flow path, the TDS of groundwater increased gradually from fresh to salty (ranging from 462.50 to 19,604.40 mg/L), and the hydrochemical type changed from Cl·HCO3–Na·Mg·Ca to Cl–Na. Groundwater chemical composition and mass balance modeling results indicated that from alluvial fan to lacustrine plain, the main hydrogeochemical processes changed from the dissolution of halite and albite and the precipitation of dolomite and kaolinite to the dissolution of halite and gypsum, precipitation of calcite, redox (SO42− reduction), and cation exchange. This study would be helpful for water resources management in this area and other similar areas.

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Complete Chloroplast Genome of Psammochloa villosa (Poaceae), a Pioneer Grass Endemic to Sand Dunes in Northwest China

Cytology and Genetics ◽

10.3103/s0095452720060079 ◽

2020 ◽

Vol 54 (6) ◽

pp. 582-587

Author(s):

Y. Liu ◽

T. Lv ◽

X. Su ◽

Zh. Ren

Keyword(s):

Chloroplast Genome ◽

Sand Dunes ◽

Northwest China ◽

Complete Chloroplast Genome

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Changes in wind erosion climatic erosivity in northern China from 1981-2016: a comparison of two climate/weather factors of wind erosion models

Climate Research ◽

10.3354/cr01640 ◽

2021 ◽

Vol 83 ◽

pp. 133-146

Author(s):

F Zhang ◽

J Wang ◽

X Zou ◽

R Mao ◽

DY Gong ◽

...

Keyword(s):

Wind Erosion ◽

Qaidam Basin ◽

Dust Emission ◽

Northern China ◽

Northwest China ◽

Gobi Desert ◽

Weather Factors ◽

Weather Factor ◽

Increasing Trend ◽

Erosion Equation

Wind erosion is largely determined by wind erosion climatic erosivity. In this study, we examined changes in wind erosion climatic erosivity during 4 seasons across northern China from 1981-2016 using 2 models: the wind erosion climatic erosivity of the Wind Erosion Equation (WEQ) model and the weather factor from the Revised Wind Erosion Equation (RWEQ) model. Results showed that wind erosion climatic erosivity derived from the 2 models was highest in spring and lowest in winter with high values over the Kumtag Desert, the Qaidam Basin, the boundary between Mongolia and China, and the Hulunbuir Sandy Land. In spring and summer, wind erosion climatic erosivity showed decreasing trends in whole of northern China from 1981-2016, whereas there was an increasing trend in wind erosion climatic erosivity over the Gobi Desert from 1992-2011. For the weather factor of the RWEQ model, the difference between northern Northwest China and the Gobi Desert and eastern-northern China was much larger than that of the wind erosion climatic erosivity of the WEQ model. In addition, in contrast to a decreasing trend in the weather factor of the RWEQ model over southern Northwest China during spring and summer from 1981-2016, the wind erosion climatic erosivity of the WEQ model showed a decreasing trend for 1981-1992 and an increasing trend for 1992-2011 over southern Northwest China. According to a comparison between dust emission and wind erosion climatic erosivity, the 2 models have the ability to project changes in future wind erosion in northern China.

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Thermal History since the Paleozoic in the Eastern Qaidam Basin, Northwest China

Acta Geologica Sinica - English Edition ◽

10.1111/1755-6724.13801 ◽

2019 ◽

Vol 93 (2) ◽

pp. 297-306

Author(s):

Li WANG ◽

Zongxing LI ◽

Chenglin LIU ◽

Bo PENG ◽

Xinxin FANG ◽

...

Keyword(s):

Thermal History ◽

Qaidam Basin ◽

Northwest China

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Wind regime for long-ridge yardangs in the Qaidam Basin, Northwest China

Journal of Arid Land ◽

10.1007/s40333-019-0108-4 ◽

2019 ◽

Vol 11 (5) ◽

pp. 701-712 ◽

Cited By ~ 1

Author(s):

Xuemin Gao ◽

Zhibao Dong ◽

Zhenghu Duan ◽

Min Liu ◽

Xujia Cui ◽

...

Keyword(s):

Qaidam Basin ◽

Northwest China ◽

Wind Regime

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Abundant non-hydrocarbons in crude oils from the western Qaidam Basin, northwest China

GEOCHEMICAL JOURNAL ◽

10.2343/geochemj.38.461 ◽

2004 ◽

Vol 38 (5) ◽

pp. 461-471 ◽

Cited By ~ 5

Author(s):

Yi Duan ◽

Yaorong Qian ◽

Chuanyuan Wang ◽

Zhiping Wang ◽

Xiaobao Zhang ◽

...

Keyword(s):

Qaidam Basin ◽

Northwest China ◽

Crude Oils ◽

Western Qaidam Basin

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Early Carboniferous athyridid brachiopods from the Qaidam Basin, northwest China

Journal of Paleontology ◽

10.1017/s002233600004470x ◽

2003 ◽

Vol 77 (5) ◽

pp. 844-862 ◽

Cited By ~ 2

Author(s):

Zhong-Qiang Chen ◽

G. R. Shi ◽

Li-Pei Zhan

Keyword(s):

North America ◽

South China ◽

Qaidam Basin ◽

Early Carboniferous ◽

Northwest China ◽

Taxonomic Composition ◽

Mississippi Valley ◽

Western Yunnan ◽

Moscow Basin ◽

New Material

Four new Early Carboniferous athyridid species in three genera, including one new genus, Bruntonathyris, are described from the Qaidam Basin, northwest China: Lamellosathyris qaidamensis, Bruntonathyris amunikeensis, Bruntonathyris? heijianshanensis, and Lochengia qinghaiensis. Based on the new material and also on published information, we also reviewed the taxonomic composition and the stratigraphic and paleogeographic distributions of the three genera. As a result, Lamellosathyris is considered to be indicative of late Famennian to Viséan age, originating in late Famennian in central North America and Armenia of Russia, respectively. Later, the genus appears to have two migratory directions: one branch rapidly dispersed over Mississippi Valley, Oklahoma, Texas and New Mexico of central North America in Tournaisian; alternatively, another branch from Armenia migrated westerly to Belgium, France, Spain, Britain, Ireland, via the Moscow Basin and Ural seaway, eastward to the Tienshan Mountains and Qaidam Basin of northwest China during the Tournaisian to Viséan, and easterly along the southern shelves of the Paleo-Tethys to Iran and western Yunnan of southwestern China in Tournaisian. Both Bruntonathyris and Lochengia are restrictedly Tournaisian to Viséan in age, and probably originated in the Qaidam Basin. Later, Bruntonathyris migrated easterly to South China and Japan, and westerly to Urals, Moscow Basin, Donetsk Basin and Britain; Lochengia migrated easterly to South China and westerly to the Urals seaway and the adjoined Russian Platform (i.e., both the Moscow and Donetsk Basins).

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Hydrochemical Characteristics of Groundwater and Dominant Water–Rock Interactions in the Delingha Area, Qaidam Basin, Northwest China

Water ◽

10.3390/w12030836 ◽

2020 ◽

Vol 12 (3) ◽

pp. 836 ◽

Cited By ~ 3

Author(s):

Biao Zhang ◽

Dan Zhao ◽

Pengpeng Zhou ◽

Shen Qu ◽

Fu Liao ◽

...

Keyword(s):

Water Samples ◽

Qaidam Basin ◽

Flow Direction ◽

Groundwater Resources ◽

Saturation Index ◽

Northwest China ◽

Ion Concentration ◽

Groundwater Samples ◽

Mountain Front ◽

Rational Management

Groundwater is undoubtedly important for water supplies and eco-environment protection, especially for arid and semi-arid regions. Analyzing the characteristics and evolution of groundwater is significant for the rational management of groundwater resources. This study investigated the hydrogeochemical characteristics and evolutions of groundwater in the Delingha area, northeast of the Qaidam Basin, northwest China, with a total of 123 water samples, including 105 unconfined groundwater samples, 12 confined groundwater samples, and 6 surface water samples. Hydrochemical results showed that the unconfined and confined groundwater presented diversity in ion concentration. Total Dissolved Solids (TDS) of the unconfined groundwater increased from 146.5 to 8954 mg/L along the groundwater flow direction. The groundwater hydrochemical types were HCO3-Ca·Mg and HCO3·SO4-Ca·Mg in the mountain front area, SO4·HCO3-Ca·Mg and SO4·Cl-Ca·Mg types in the alluvial-lacustrine plain, and Cl·SO4-Na and Cl-Na types in the lacustrine plain. The saturation index showed that parts of the groundwater samples were supersaturated with carbonate minerals (calcite and dolomite); however, all the samples were undersaturated with evaporite minerals (halite and gypsum). Groundwater chemical evolution is mainly controlled by evaporite and carbonate mineral dissolutions, aluminosilicates weathering, and cation exchange.

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How climate change affected the evolution of ancient civilizations in eastern Ancient Silk Road?

10.5194/egusphere-egu2020-1818 ◽

2020 ◽

Author(s):

Guanghui Dong ◽

Ruo Li ◽

Shanjia Zhang ◽

Fengwen Liu

Keyword(s):

Climate Change ◽

Late Holocene ◽

Qaidam Basin ◽

Northwest China ◽

Silk Road ◽

Coupling Relationship ◽

Long Run ◽

Precipitation Variation ◽

Ancient Civilizations ◽

Ancient Silk Road

<p>The study of the coupling relationship between climate change and civilization evolution along the Ancient Silk, can provide valuable insights for understanding the history, pattern and mechanism of man-land relation evolution from a long-run perspective. Here we provide two case studies from the Hexi Corridor and Qaidam basin in northwest China, where locates at eastern Ancient Silk Road, and became a center for trans-continental exchange since the second Millennium BC, hydrological change in these areas is very drastic. The results reveal three significant desertification events occurred in these two areas during late Holocene, which was likely related to precipitation variation in surrounding mountains instead of basins, and triggered the shrinkage of ancient oases and then the decline of ancient civilizations. We also try to explain the linkage between climate change and the evolution of ancient civilizations in the two areas.</p>

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