MEYBECK M. Riverine quality at the Anthropocene:Propositions for global space and time analysis, illustrated by the Seine River[J]. Aquatic Sciences-Research Across Boundaries, 2002,64(4):376-393.
AJI K, TANG C, SONG X, et al. Characteristics of chemistry and stable isotopes in groundwater of Chaobai and Yongding River basin, North China Plain[J]. Hydrological Processes, 2010,22(1):63-72.
CURRELL MATTHEW J, CARTWRIGHT IAN. Major-ion chemistry, δ 13 C and 87 Sr/86 Sr as indicators of hydrochemical evolution and sources of salinity in groundwater in the Yuncheng Basin, China[J]. Hydrogeology Journal, 2011,19(4):835-850.
HUANG G, LIU C, SUN J, et al. A regional scale investigation on factors controlling the groundwater chemistry of various aquifers in a rapidly urbanized area:A case study of the Pearl River Delta[J]. Science of the Total Environment, 2018,625:510-518.
LI J, LI Z. Analysis of spatiotemporal variations in land use on the Loess Plateau of China during 1986-2010[J]. Environmental Earth Sciences, 2016,75(11):997-1012.
QIAN J, PENG Y, ZHAO W, et al. Hydrochemical processes and evolution of karst groundwater in the northeastern Huaibei Plain, China[J]. Hydrogeology Journal, 2018,26(4):1721-1729.
WANG T, CHEN J, XU I, et al. Isotopes and hydrochemistry of Daihai Lake recharging sources, Northern China[J]. Journal of Radioanalytical & Nuclear Chemistry, 2017,312(3):615-629.
CHEN J S, SUN X X, TAN H B, et al. Isotopic and hydrochemical data to restrict the origin of the groundwater in the Badain Jaran Desert, Northern China[J], Geochemistry International, 2012,50(5):455-465.
CHENG L, LIU W, LI Z, et al. Study of soil water movement and groundwater recharge for the loess tableland using environmental tracers[J]. Transactions of the Asabe, 2014,57(1):23-30.
GATES JOHN B, SCANLON B R, MU X M, et al. Impacts of soil conservation on groundwater recharge in the semi-arid Loess Plateau, China[J]. Hydrogeology Journal, 2011,19(4):865-875.
LI Z, LIN X Q, COLES A E, et al. Catchment-scale surface water-groundwater connectivity on China's Loess Plateau[J]. Catena, 2017,152:268-276.
ZHAN L C, CHEN J S, XU Y, et al. Allogenic water recharge of groundwater in the Erenhot wasteland of northern China[J]. Journal of Radioanalytical & Nuclear Chemistry, 2017,311(3):2015-2028.
CHENG L, LIU W, LI Z, et al. Land use change affects groundwater recharge in the Changwu Loess Tableland of China[J]. Advances in Water Science, 2016,27(5):670-678.
MO X G, LIN Z, LIU S X. Climate change impacts on the ecohydrological processes in the Wuding River basin[J]. Eco Summit, 2007,50(6):229-229.
寇永朝,华琨,李洲,等.泾河支流地表水及地下水的水化学特征及其控制因素[J].环境科学,2018, 39(7):140-147. KOU Y C,HUA K, LI Z, et al. Hydrochemical characteristics and controlling factors of surface water and groundwater in tributaries of Jing River[J].Environmental Science,2018, 39(7):140-147(in Chinese).
FAN B, ZHAO Z, TAO F, et al. Characteristics of carbonate, evaporite and silicate weathering in Huanghe River basin:A comparison among the upstream, midstream and downstream[J]. Journal of Asian Earth Sciences, 2014,96:17-26.
HU M, STALLARD R F, EDMOND J M. Major ion chemistry of some large Chinese Rivers[J]. Nature, 1982,298(5874):550-553.
ZHANG Q Q, JIN Z D, ZHANG F, et al. Seasonal variation in river water chemistry of the middle reaches of the Yellow River and its controlling factors[J]. Journal of Geochemical Exploration, 2015,156(3):101-113.
刘东生. 黄土的物质成分和结构[M].北京:科学出版社,1966. LIU D S. Material composition and structure of loess[M].Beijing:Science Press,1966(in Chinese).
沈照理. 水文地质学[M].北京:科学出版社, 1985. SHEN Z L. Hydrogeology[M].Beijing:Science Press, 1985(in Chinese).
陈曦, 李志, 程立平,等. 黄土塬区大气降水的氢氧稳定同位素特征及水汽来源[J]. 生态学报. 2016,36(1):98-106. CHEN X, LI Z, CHENG L P, et al. Hydrogen and oxygen stable isotope characteristics and water vapor sources of atmospheric precipitation in the Loess Plateau Region[J]. Chinese Journal of Ecology. 2016,36(1):98-106(in Chinese).
吴明清, 文启忠, 潘景瑜,等. 黄河中游地区马兰黄土主要化学成分的再研究[J]. 自然科学进展:国家重点实验室通讯, 1996(1):80-85. WU M Q, WEN Q Z, PAN J Y, et al. The rediscovery of major chemistry of Malan loess in the middle reaches of Yellow River basin[J]. Prog. Nat. Sci. 1996 ,6(1), 80-85(in Chinese).
MITAMURA OSAMU, SEIKE YASUSHI, KONDO KUNIO, et al. First investigation of ultraoligotrophic alpine Lake Puma Yumco in the pre-Himalayas, China[J]. Limnology, 2003,4(3):167-175.
PIPER A M. A graphic procedure in the geochemical interpretation of water-analyses[J]. Eos, Transactions American Geophysical Union, 1944, 25(6):914-928.
GIBBS R J. Mechanisms controlling world water chemistry[J]. Science, 1970, 170(3962):1088-1090.
GALY A, FRANCE-LANORD C. Weathering processes in the Ganges-Brahmaputra basin and the riverine alkalinity budget[J]. Chemical Geology, 1999, 159(1-4):31-60.
XIAO J. Chemical composition and source identification of rainwater constituents at an urban site in Xi'an[J]. Environmental Earth Sciences, 2016,75(3):209-221-
胡春华, 童乐, 万齐远, 等. 环鄱阳湖浅层地下水水化学特征的时空变化[J]. 环境化学, 2013,32(6):974-979. HU C H, TONG L, WAN Q Y, et al. Temporal and spatial changes of groundwater hydrochemical characteristics in the shallow layer of Poyang Lake[J]. Environmental Chemistry, 2013,32(6):974-979(in Chinese).
林永生, 裴建国, 杜毓超, 等. 基于多元统计方法的岩溶地下水化学特征及影响因素分析[J]. 环境化学, 2016,35(11):2394-2401. LIN Y S, YAN J G, DU Y C, et al. Analysis of karst groundwater chemical characteristics and influencing factors based on multivariate statistical methods[J]. Environmental Chemistry, 2016,35(11):2394-401(in Chinese).
YOKOO Y, NAKANO T, NISHIKAWA M, et al. Mineralogical variation of Sr-Nd isotopic and elemental compositions in loess and desert sand from the central Loess Plateau in China as a provenance tracer of wet and dry deposition in the northwestern Pacific[J]. Chemical Geology, 2004,204(1-2):45-62.
SCHOELLER H. Hydrodynamique dans le karst[J]. Chroniqued Hydrogeologie, 1967, 10(2):7-21.
XIAO J, JIN Z D, DING H, et al. Geochemistry and solute sources of surface waters of the Tarim River Basin in the extreme arid region, NW Tibetan Plateau[J]. Journal of Asian Earth Sciences, 2012,54-55(2):162-173.