Conceptual model of recharge to southeastern Badain Jaran Desert groundwater and lakes from environmental tracers

Gates, John B.; Edmunds, W.M.; Darling, W.G.; Ma, Jinzhu; Pang, Zhonghe; Young, A.

doi:10.1016/j.apgeochem.2008.07.019

Cited by 146 publications

(133 citation statements)

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“…Long-term mean recharge in low-lying areas north of the Qinghai-Tibet Plateau (Fig. 1) is assessed to be about 0.9-2.5 kg m −2 yr −1 (∼ 1-2 % of mean annual total precipitation) based on chloride mass balance and isotopic assessments (Ma et al, 2008(Ma et al, , 2009Gates et al, 2008a, b), indicating that most of the surface and shallow-subsurface water generated in the mountains and flowing to the oases is eventually lost to the atmosphere as a result of evaporation. Lack of recharge of groundwater and excessive extraction of the resource for agricultural and other domestic uses has led to salinisation and desertification of the land surface in west-central Gansu (Zong et al, 2011;Aarnoudse et al, 2012;Currell et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

“…Kang et al, 1999;Gates et al, 2008a;Huo et al, 2008;Li et al, 2008;Jia et al, 2011;Ma et al, 2009Ma et al, , 2013Pang et al, 2011;Zhuang et al, 2011) make reference to the importance of orographic rainout and the role of oasis vegetation in supporting the water cycle in the Hexi Corridor. However, none of these studies explicitly connects in-mountain production of precipitation to the seasonal evolution of oasis vegetation.…”

Section: Introductionmentioning

confidence: 99%

“…Gates et al, 2008a;Ma et al, 2008Ma et al, , 2009Ma et al, , 2012Huang and Wen, 2014) and atmosphericcirculation modelling studies (e.g. Gao et al, 2004;Chu et al, 2005;Meng et al, 2009Meng et al, , 2012Meng et al, , 2015Wen et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

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Relating seasonal dynamics of enhanced vegetation index to the recycling of water in two endorheic river basins in north-west China

Matin

Bourque

2015

Hydrol. Earth Syst. Sci.

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Abstract. This study associates the dynamics of enhanced vegetation index in lowland desert oases to the recycling of water in two endorheic (hydrologically closed) river basins in Gansu Province, north-west China, along a gradient of elevation zones and land cover types. Each river basin was subdivided into four elevation zones representative of (i) oasis plains and foothills, and (ii) low-, (iii) mid-, and (iv) highmountain elevations. Comparison of monthly vegetation phenology with precipitation and snowmelt dynamics within the same basins over a 10-year period (2000)(2001)(2002)(2003)(2004)(2005)(2006)(2007)(2008)(2009) suggested that the onset of the precipitation season (cumulative % precipitation > 7-8 %) in the mountains, typically in late April to early May, was triggered by the greening of vegetation and increased production of water vapour at the base of the mountains. Seasonal evolution of in-mountain precipitation correlated fairly well with the temporal variation in oasisvegetation coverage and phenology characterised by monthly enhanced vegetation index, yielding coefficients of determination of 0.65 and 0.85 for the two basins. Convergent cross-mapping of related time series indicated bi-directional causality (feedback) between the two variables. Comparisons between same-zone monthly precipitation amounts and enhanced vegetation index provided weaker correlations. Start of the growing season in the oases was shown to coincide with favourable spring warming and discharge of meltwater from low-to mid-elevations of the Qilian Mountains (zones 1 and 2) in mid-to-late March. In terms of plant requirement for water, mid-seasonal development of oasis vegetation was seen to be controlled to a greater extent by the production of rain in the mountains. Comparison of water volumes associated with in-basin production of rainfall and snowmelt with that associated with evaporation seemed to suggest that about 90 % of the available liquid water (i.e. mostly in the form of direct rainfall and snowmelt in the mountains) was recycled locally.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Relating seasonal dynamics of enhanced vegetation index to the recycling of water in two endorheic river basins in north-west China

Matin

Bourque

2015

Hydrol. Earth Syst. Sci.

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“…Locations and elevations were recorded with a Garmin GPS, as shown in Table 1. Moisture contents were determined gravimetrically after drying overnight at 110 • C. These data have been partly reported in the previous studies [12,13,19,[25][26][27]. …”

Section: Soil Moisture Datamentioning

confidence: 99%

Entropy Base Estimation of Moisture Content of the Top 10-m Unsaturated Soil for the Badain Jaran Desert in Northwestern China

Zhou

Lei

2016

Entropy

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Estimation of soil moisture distribution in desert regions is challenged by the deep unsaturated zone and the extreme natural environment. In this study, an entropy-based method, consisting of information entropy, principle of maximum entropy (PME), solutions to PME with constraints, and the determination of parameters, is used to estimate the soil moisture distribution in the 10 m deep vadose zone of a desert region. Firstly, the soil moisture distribution is described as a scaled probability density function (PDF), which is solved by PME with the constraints of normalization, known arithmetic mean and geometric mean, and the solution is the general form of gamma distribution. A constant arithmetic mean is determined by considering the stable average recharge rate at thousand year scale, and an approximate constant geometric mean is determined by the low flow rate (about 1 cm a year). Followed, the parameters of the scaled PDF of gamma distribution are determined by local environmental factors like terrain and vegetation: the multivariate linear equations are established to qualify the relationship between the parameters and the environmental factors on the basis of nineteen random soil moisture profiles about depth through the application of fuzzy mathematics. Finally, the accuracy is tested using correlation coefficient (CC) and relative error. This method performs with CC larger than 0.9 in more than a half profiles and most larger than 0.8, the relative errors are less than 30% in most of soil moisture profiles and can be as low as less than 15% when parameters fitted appropriately. Therefore, this study provides an alternative method to estimate soil moisture distribution in top 0-10 m layers of the Badain Jaran Desert based on local terrain and vegetation factors instead of drilling sand samples, this method would be useful in desert regions with extreme natural conditions since these environmental factors can be obtained by remote sensing data. Meanwhile, we should bear in mind that this method is challenged in humid regions since more intensive and frequent precipitation, and more vegetation cover make the system much more complex.

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“…Retaining spatio-temporal variations in hydrogen and oxygen isotopes in precipitation and groundwater, in conjunction with hydrologic observations and hydrochemistry, has been widely used to identify origins of water bodies (Vrbka et al 1993;Lambs 2000), infiltration modes of precipitation (Douglas 1997;Gazis and Feng 2004;Li et al 2007), the interactions between groundwater and other waters (Simpson and Herczeg 1991;McDonnell et al 1991;Mook 2000;Lamontagne et al 2005;Song et al 2006) and groundwater recharge mechanisms (Clark and Fritz 1997;Tang et al 2001;McGuire et al 2002;Rademacher et al 2003;Demlie et al 2007;Gates et al 2008). Limited isotopic studies have been performed in the Loess Plateau, mainly at profile or point scales.…”

Section: Introductionmentioning

confidence: 99%

Spatio-temporal variations of δ2H and δ18O in precipitation and shallow groundwater in the Hilly Loess Region of the Loess Plateau, China

et al. 2010

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Groundwater is of utmost significance to socioeconomic development and ecological recovery for the Loess Plateau. However, studies regarding the mechanism governing groundwater recharge over this area appear to be inadequate. This study is to examine the spatio-temporal variations of d 2 H and d 18 O in precipitation and shallow groundwater. On the basis of this, the mechanisms governing shallow groundwater recharge were explored. Precipitation and groundwater were sampled monthly from May to October during the period 2004-2006 at 13 sites in the Chabagou Catchment (187 km 2 ). In the Caopingxigou Experimental Watershed (0.1 km 2 ), meteorological variables were observed and rainfall larger than 5 mm was sampled immediately after each rain event. Across the area, 90% of the precipitation occurred from May to September primarily in the form of heavy rains or rainstorms with great spatial variability. There were about 30 localized rains in each year. It was indicated that there existed notable seasonality and pronounced spatial variability in precipitation isotopic compositions. Contributing factors and indications of isotopic compositions, as well as their climatic indications such as monsoon intensities and mixing processes of water vapor, were investigated. The d 2 Hd 18 O relation of groundwater was found to be d 2 H = 3.22 9 d 18 O -38.1, deviating from the local meteoric water line d 2 H = 7.57 9 d 18 O ? 3.9. The range of d values in groundwater is shrunken to be 15-21% of that in individual precipitations, and groundwater in the middle reaches shows a wider range of d values. Isotopic results showed that groundwater originates from precipitation with hydrogen and oxygen isotopic compositions being -69 and -9.7%, respectively, and most groundwater experiences serious evaporation and adequate mixing with old water during infiltration or percolation in the aerated zone. It was also founded that obvious fluctuations of isotopic compositions in groundwater mainly appear in the middle reaches especially at sites that are close to valleys, suggesting varying sources of groundwater from precipitation, precipitation runoff, isotopically enriched surface water and/or lateral recharge of adjacent groundwater.Electronic supplementary material The online version of this article (

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Conceptual model of recharge to southeastern Badain Jaran Desert groundwater and lakes from environmental tracers

Abstract: 1-2 ka for the desert's southeastern margin is inferred from radiocarbon. These results reveal that some replenishment to the desert aquifer is occurring but at a rate much lower than previously suggested, which is relevant for water resources planning in this ecologically-sensitive area.

Cited by 146 publications

References 42 publications

Relating seasonal dynamics of enhanced vegetation index to the recycling of water in two endorheic river basins in north-west China

Relating seasonal dynamics of enhanced vegetation index to the recycling of water in two endorheic river basins in north-west China

Entropy Base Estimation of Moisture Content of the Top 10-m Unsaturated Soil for the Badain Jaran Desert in Northwestern China

Spatio-temporal variations of δ2H and δ18O in precipitation and shallow groundwater in the Hilly Loess Region of the Loess Plateau, China

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