Abstract
As a component of streamflow, baseflow is critical for regulating seasonal distribution of river flows and stabilizing water supplies. Water resources in the arid area of Northwest China are mainly from multiple catchments in the alpine that could be influenced by varieties of climatic, land cover, soil and geological factors. While numerous studies have been done on streamflow, systematic analysis of baseflow in the alpine river systems is scare. Based on historical daily streamflow data and the automated digital filter method of baseflow separation, this study investigated characteristics of hydrographs of overland flow, streamflow and baseflow of river systems fed by rainfall, snowmelt, glacier melt or mixtures of these. This study also calculated the recession constants and baseflow indices of 65 river systems. While the recession constant was 0.0034–0.0728 with a mean of 0.018, the baseflow index was 0.27–0.79 with a mean of 0.57. Further, Spearman’s correlation analysis showed that the baseflow index was significantly correlated with catchment climatic factors (e.g., precipitation and temperature), topographic factors (e.g., elevation and slope) and aquifer properties represented by the recession constant. Multiple regression analysis indicated that the factors explained 65% of the variability of baseflow index in the study area.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abebe A, Foerd G (2006) Catchment characteristics as predictors of base flow index (BFI) in Wabishebele river basin, east Africa. Conference on International Agricultural Research for Development, Siegen, Germany, October 11–13, 2006.
Aksoy H, Kurt I, Eris E (2009) Filtered smoothed minima baseflow separation method. Journal of Hydrology 372: 94–101. DOI:10.1016/j.jhydrol.2009.03.037
Anderson MG, Burt TP (1980) Interpretation of recession flow. Journal of Hydrology 46: 89–101.
Arnold JG, Allen PM (1999) Automated methods for estimating baseflow and ground water recharge from streamflow records. Journal of the American Water Resources Association 35: 411–424.
Arnold JG, Allen PM, Muttiah R, et al. (1995) Automated base flow separation and recession analysis techniques. Ground Water 33: 1010–1018.
Arnold JG, Muttiah RS, Srinivasan R, et al. (2000) Regional estimation of baseflow and groundwater recharge in the Upper Mississippi river basin. Journal of Hydrology 227: 21–40.
Bloomfield JP, Allen DJ, Griffiths KJ (2009) Examining geological controls on baseflow index (BFI) using regression analysis: An illustration from the Thames Basin, UK. Journal of Hydrology 373: 164–176. DOI: 10.1016/j.jhydrol.2009.04.025
Chen RS, Kang ES, Ji XB, et al. (2007) Preliminary study of the hydrological processes in the alpine meadow and permafrost regions at the headwaters of Heihe River. Journal of Glaciology and Geocryology 29: 387–396.
Chennault JW (2002) Contributions of glacial meltwater to streamflow at Thunder Creek, using a distributed hydrology model, North Cascades National Park, Washington. Western Washington University, Washington, USA.
Dong XG, Deng MJ (2005) Xinjiang groundwater resources. Xinjiang: Xinjiang Science and Technology Press. pp 88–92. (In Chinese)
Duan JJ, Cao XL, Shen YP, et al. (2010) Surface water resources and its trends in Weigan River basin on the south slope of Tianshan, China during 1956–2007. Journal of Glaciology and Geocryology 32(6): 1211–1219. (In Chinese)
Eckhardt K (2005) How to construct recursive digital filters for baseflow separation. Hydrological Processes 19: 507–515. DOI: 10.1002/hyp.5675
Eckhardt K (2008) A comparison of baseflow indices, which were calculated with seven different baseflow separation methods. Journal of Hydrology 352: 168–173. DOI: 10.1016/j.jhydrol.2008.01.005
Fan Y, Chen Y, Li W (2014) Increasing precipitation and baseflow in Aksu River since the 1950s. Quaternary International 336: 26–34.
Fan Y, Chen Y, Liu Y, Li W (2013) Variation of baseflows in the headstreams of the Tarim River Basin during 1960–2007. Journal of Hydrology 487: 98–108.
Ford D, Williams P (1989) Karst geomorphology and hydrology. Unwin Hyman Ltd., London 601.
Fountain AG, Tangborn WV (1985) The effect of glaciers on streamflow variations. Water Resource Research 21(4): 579–586.
Gao X, Zhang SQ, Ye BS, et al. (2010) Glacier runoff change in the upper stream of Yarkant River and its impact on river runoff during 1961–2006. Journal of Glaciology and Geocryology 32(3): 445–453. DOI: 1000-0240(2010)03-0445-09 (In Chinese)
Gan R, Luo Y (2013) Using the nonlinear aquifer storagedischarge relationship to simulate the baseflow of glacier- and snowmelt-dominated basins in northwest China. Hydrology and Earth System Science 17: 3577–3586. DOI: 10.5194/hess-17-3577-2013.
Guo ZR, Han SP, Jing EC (2005) Recharge and loss of groundwater during freezing-thawing period in inland basin, Northwestern China. Advances in Water Science 26: 322–325.
Hall FR (1968) Base flow recession, a review. Water Resource Research 4(5): 973–983.
Haberlandt U, Klocking B, Krysanova V, et al. (2001) Regionalisation of the base flow index from dynamically simulated flow components — a case study in the Elbe River Basin. Journal of Hydrology 248: 35–53.
Hewlett JD, Hibbert AR (1967) Factors affecting the response of small watersheds to precipitation in humid areas. Forest Hydrology: 275–290.
Immerzeel WW, Pellicciotti F, Bierkens MFP (2013) Rising river flows throughout the twenty-first century in two Himalayan glacierized watersheds. Nature geoscience 4: 742–745. DOI: 10.1038/NGEO1896.
Institute of Hydrology (1980) Low Flow Studies Report, Wallingford, UK.
Kang ES (1983) Glacial meltwater runoff on the north flank of Bogda in Tianshan and its contribution to river flow. Journal of Glaciologyand Geocryology 5: 114–122.
Lacey CG, Grayson RB (1998) Relating baseflow to catchment properties in south-eastern Australia. Journal of Hydrology 204: 231–250.
Longobardi A, Villani P (2008) Baseflow index regionalization analysis in a mediterranean area and data scarcity context: Role of the catchment permeability index. Journal of Hydrology 355: 63–75. DOI:10.1016/j.jhydrol.2008.03.011
Luo Y, Arnold J, Allen P, Chen X (2012) Baseflow simulation using SWAT model in an inland river basin in Tianshan Mountain, Northwest China. Hydrology and Earth System Sciences 16: 1259–1267. DOI: 10.5194/hess-16-1259-2012.
Lyne V and Hollick M (1979) Stochastic time variable rainfall runoff modeling. In: Hydrology and Water Resources Symposium Perth 1979 Proceedings. National Committee on Hydrology and Water Resources of the Institution of Engineers, Australia. pp 89–92.
Mark BG, Seltzer GO (2003) Tropical glacier meltwater contribution to stream discharge: a case study in the Cordillera Blanca, Peru. Journal of Glaciology 49: 271–281.
Mazvimavi D, Maijerink AMJ, Savenije HHG, et al. (2005) Prediction of flow characteristics using multiple regression and neural networks: a case study in Zimbabwe. Physics and Chemistry of the Earth 30: 639–647. DOI: 10.1016/j.pce.2005.08.003.
Mwakalila S, Feyen J, Wyseure G (2002) The influence of physical catchment properties on baseflow in semi-arid environments. Journal of Arid Environments 52: 245–258. DOI:10.1006/jare.2001.0947.
Nathan RJ, Austin K, Crawford D, et al. (1996) The estimation of monthly yield in ungauged catchments using a lumped conceptual model. Australian Journal of Water Resources 1(2): 65–75.
Nathan RJ, McMahon TA (1990) Evaluation of automated techniques for baseflow and recession analysis. Water Resources Research 26(7): 1465–1473.
Partington D, Brunner P, Simmons CT, et al. (2012) Evaluation of outputs from automated baseflow separation methods against simulated baseflow from a physically based, surface water-groundwater flowmodel. Journal of Hydrology 458–459: 28–39.
Ponce VM, Shetty AV (1995a) A conceptual model of catchment water balance. 1. Formulation and calibration. Journal of Hydrology 173: 27–40.
Ponce VM, Shetty AV (1995b) A conceptual model of catchment water balance. 2. Application to runoff and baseflow modeling. Journal of Hydrology 173: 41–50.
Qing DH, Xiao CD, Ding YJ, et al (2006) Progress on cryospheric studies by international and Chinese communities and perspectives. Journal of Applied Meteorological Science 17(6): 649–656.
Santhi C, Allen PM (2008) Regional estimation of base flow for the conterminous United States by hydrologic landscape regions. Journal of Hydrology 351: 139–153. DOI: 10.1016/j.jhydrol.2007.12.018
Sheng YP, Wang GY, Ding YJ, et al. (2009) Changes in Merzbacher lake of Inylchek glacier and glacial flash floods in Aksu River basin, Tianshan during the period of 1903–2009. Journal of Glaciology and Geocryology 31: 993–1001.
Singh KP, Stahl JB (1971) Derivation of baseflow recession curves and parameters. Water Resource Research 7(2): 292–303.
Stuckey MH (2006) Low flow, base flow, and mean flow regression equations for Pennsylvania streams. US Geological Survey Scientific Investigations Report 2006–5130.
Szilagyi J (2004) Heuristic continuous base flow separation. Journal of Hydrological Engineering 9(4): 311–318.
Tang XL, Lv X, Li JF (2011) Runoff characteristics of Manasi River Basin in the past 50 years. Journal of Arid Land Resources and Environment 25(5): 124–129. (In Chinese)
Unger-Shayesteh K, Vorogushyn S, Farinotti D, et al. (2013) What do we know about past changes in the water cycle of Central Asian headwaters? A review. Global and Planetary Change 110: 4–25.
Viessman W, Lewis GL (2002) Introduction to hydrology. Prentice Hall PTR.
Vogel RM, Kroll CN (1990) Generalized low-flow frequency relationships for ungauged sites in Massachussets. Water Resources Bulletin 26(2): 241–253.
Vogel RM, Kroll CN (1992) Regional geohydrologic-geomorphic relationships for the estimation of low-flow statistics. Water Resources Research 28(9): 2451–2458.
Wang QF, Zhang TJ, Peng XQ (2013) Freezing and thawing processes and their impact on ground surface radiation balance in the upper reaches of Heihe River. Journal of Lanzhou University (Natural Sciences) 49(2): 12–191.
Wu JC, Sheng Y, Yu H, et al. (2007) Permafrost in the middleeast section of Qilian mountains (I): distribution of permafrost. Journal of Glaciology and Geocryology 29: 418–425.
Xie ZC, Liu CH (2010) An introduction to glaciology. Shanghai Popular Science Press, Shanghai, China.
Yang ZN (1980) Mountain stream types in northwest China. Journal of Glaciology and Geocryology 3: 24–31. (In Chinese)
Yang ZN (1991) Glacier water resources in China. Gansu Science and Technology Press, Gansu, China. (In Chinese)
Zhu YH, Day RL (2009) Regression modeling of streamflow, baseflow, and runoff using geographic information systems. Journal of Environmental Management 90: 946–953. DOI: 10.1016/j.jenvman.2008.02.011.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Gan, R., Sun, L. & Luo, Y. Baseflow characteristics in alpine rivers — a multi-catchment analysis in Northwest China. J. Mt. Sci. 12, 614–625 (2015). https://doi.org/10.1007/s11629-013-2959-z
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11629-013-2959-z