[1]窦燕.跨越式发展要求下的乌鲁木齐市水资源供需平衡趋势预测研究[J].节水灌溉,2013,(1):34-37.
[2]唐宏,夏富强,杨德刚.干旱区绿洲城市水资源开发利用的潜力——以乌鲁木齐市为例[J].干旱区研究,2013,30(6):973-980.
[3]邓铭江.新疆地下水资源开发利用现状及潜力分析[J].干旱区地理,2009,32(5):647-654.
[4]周金龙.新疆地下水研究[M].郑州:黄河水利出版社,2010.
[5]王晓蔚.新疆水资源开发利用超国际警戒线[EB/OL].http://www. xjdsb.com/news/1102488. shtml,2014-7-25.
[6]吕春玲,李烨,孔凡林.乌鲁木齐市地下水污染分析及防治对策[J].环境科学动态,2002,(4):24-27.
[7]朱瑾,霍传英,姜越,等.乌鲁木齐河流域地下水水位监测网设计[J].水文地质工程地质,2007,(2):8-14.
[8]赵梅,王素萍.2014年乌鲁木齐市环境质量公报,柴窝堡湖水质已无法监测[EB/OL].http://www.xjbs.com.cn/news/2015-06/05/cms1774888article.shtml?nodes=369,2015-06-05.
[9]张雷,余磊.乌鲁木齐治理水源地柴窝堡湖湖面萎缩生态恶化[EB/OL].http://news.cnr.cn/native/city/201411/t20141102_516709113.shtml,2014-11-02.
[10]韩盛,张斌.乌昌地区城镇污水处理方式探讨[J].新疆环境保护,2011,33(1):29-33.
[11]Page D,Dillon P,Toze S,et al.Valuing the subsurface pathogen treatment barrier in wa ter recycling via aquifers for drinking supplies[J].Water research,2010,44:1841-1852.
[12]胡洪营,吴乾元,黄晶晶,等.再生水水质安全评价与保障原理[M].北京:科学出版社,2011.
[13]Idelovitch E,Icekson-Tal N,Avraham O,et al.The long-term performance of soil aquifer treatment(SAT)for effluent reuse[J].Water Supply,2003,3(4):239-246.
[14]Pyne R D G.Groundwater recharge and wells:a guide to aquifer storage recovery[M].Boca Raton,Florida:Lewis Publishers,2002.
[15]Sheng Z P.An aquifer storage and recovery system with reclaimed wastewater to preserve native groundwater resources in El Paso,Texas[J].Journal of Environmental Management,2005,75:367-377.
[16]何江涛,沈照理.再生水入渗回灌利用的发展趋势[J].自然杂志,2010,32(6):348-352.
[17]陈卫平,吕斯丹,王美娥,等.再生水回灌对地下水水质影响研究进展[J].应用生态学报,2013,24(5):1253-1262.
[18]云桂春,成徐州.水资源管理的新战略:人工地下水回灌[M].北京:中国建筑工业出版社,2004.
[19]Asano T,Cotruvo J A.Groundwater recharge with reclaimed municipal wastewater:Health and regulatory considerations[J].Water Research,2004,38:1941-1951.
[20]吴琳琳,张猛,成徐州,等.土壤-纳滤系统处理再生水补充地下水的研究[J].环境工程学报,2011,5(2):267-270.
[21]Lian J J,Luo Z J,Jin M G.Transport and fate of bacteria in SAT system recharged with recycling water[J].International Biodeterioration&Biodegradation,2013,76:98-101.
[22]Laws B V,Dickenson E R V,Johnson T A,et al.Attenuation of contaminants of emer ging concern during surface-spreading aquifer recharge[J].Science of the Total Environment,2011,409(6):1087-1094.
[23]曹彬,王维平,韩延成.利用澳大利亚含水层补给管理国家指南对黄水河地下水库的评估研究[J].水利水电技术,2011,42(12):1-5.
[24]魏东斌,魏晓霞.再生水回灌地下的水质安全控制指标体系探讨[J].中国给水排水,2010,26(16):23-26.
[25]何星海,马世豪.再生水补充地下水水质指标及控制技术[J].环境科学,2004,25(5):61-64.
[26]靳孟贵,罗泽娇,梁杏,等.再生水地表回灌补给地下水的水质安全保障体系[J].地球科学(中国地质大学学报),2012,37(2):238-246.
[27]王燕,李华.城市再生水利用的研究进展[J].北方环境,2011,23(7):55-56.
[28]张英华,王文萍,黄占斌.近10年我国再生水研究文献的分析[J].农业图书情报学刊,2008,20(2):11-14.
[29]R Hochstrat,T Wintgens,C Kazner,et al.Managed aquifer recharge with reclaimed water:approaches to a European guidance framework[J].Water Science&Technology,2010,62(6):1265-1273.
[30]Jörg E Drewes.Ground Water Replenishment with Recycled Water-Water Quality Improve ments during Managed Aquifer Recharge[J].Ground Water,2009,47(4):502-505.
[31]Kazner Christian,Ernst Mathias,Hochstrat Rita,et al.European Perspective on Managed Aquifer Recharge with Reclaimed Water[J].Proceedings of the Water Environment Federation,2011,21(16):1244-1256.
[32]周俊,陈凯麒,梁鹏,等. ASR技术模式在我国地下水库工程建设应用中面临的问题与应用展望[J].南水北调与水利科技,2014,12(6):192-195.
[33]Quanrud D M,Hafer J,Karpiscak M M,et al.Fate of organics during soil-aquifer treat ment:sustainability of removals in the field[J]. Water Research,2003,37:3401-3411.
[34]Rauch-Williams T,Drewes J E.Using soil biomass as an indicator for the biological removal of effluent-derived organic carbon during soil infiltration[J]. Water Research,2006,40:961-968.
[35]Lin C,Eshel G,Negev I,et al.Long-term accumulation and material balance of organic matter in the soil of an efflu-ent infiltration basin[J]. Geoderma,2008,148:35-42.
[36]Diaz-Cruz M S,Barcelo D.Trace organic chemicals contamination in ground water recharges[J]. Chemosphere,2008,72:333-342.
[37]Zhang H,Qu J,Liu H.Isolation of dissolved organic matter in effluents from sewage treatment plant and evaluation of the influences on its DBPs formation[J].Separation and Purification Technology,2008,64:31-37.
[38]Mahjoub O,Leclercq M,Bachelot M,et al.Es-trogen,arylhysdrocarbon and pregnane X receptors activities in reclaimed water and irrigated soils in Oued Souhil area(Nabeul,Tunisia)[J]. Desalination,2009,246:425-434.
[39]Westerhoff P,Pinney M.Dissolved organic carbon transformations during laboratory-scale groundwater recharge using lagoon-treated wastewater[J]. Waste Management,2000,20:75-83.
[40]Al-Lahham O,ElAssi N M,Fayyad M.Impact of treated wastewater irrigation on quality attributes and contaminati on of tomato fruit[J].Agricultural Water Management,2003,61(1):51-62.
[41]Pollice A,Lopez A,Laera G,et al.Tertiary filtered municipal wastewater as alternative water source in agriculture:a field investigation in Southern Italy[J].Science of the Total Environment,2004,324:201-210.
[42]Bange M P,Hammer G L,Rickert K G.Environmental control of potential yield of sun flower in the subtropics[J]. Australian Journal of Agricultural Research,1997,48:231-240.
[43]Gadallah M A A.Effects of industrial and sewage wastewater on the concentration of soluble carbon,nitrogen,and some mineral elements in sunflower plants[J]. Journal of Plant Nutrition,1994,17:1369-1384.
[44]Grieve C M,Poss J A,Grattan S R,et al.Evaluation of salt-tolerant forages for sequential water reuse systems.II. Plant-ion relations[J].Agricultural Water Management,2004,70:121-135.
[45]Adriel F F,Uwe H,Alessandra M P,et al.Agriculture use of treated sewage effluents:agronomic and environmental implications and perspective for brazil[J]. Sci Agric,2007,64(2):194-209.
[46]Paranychianakis N V,Nikolantonakis M,Spanakis Y,et al. The effect of recycled water on the nutrient status of Soultanina grapevines grafted on different rootstocks[J]. Agricultural Water Management,2006,81:185-198.
[47]Alit W S,Zeev R,Noam W,et al.Potential changes in soil properties following irrigation with surfactant-rich greywater[J]. Ecological engineering,2006,26(31):348-354.
[48]Wang Z,Chang A C,Wu L,et al.Assessing the soil quality of long-term reclaimed wastewater-irrigated cropland[J]. Geoderma,2003,114:261-278.
[49]Carlos A,Lucho C,Francisco P G,et al.Chemical fractionation of boron and heavy metals in soils irrigated with wastewater in central Mexico[J]. Agriculture,Ecosystems and Environment,2005,18:57-71.
[50]Qian Y L,Mecham B.Long-term effects of recycled wastewater irrigation on soil chemical properties on golf course fairways[J]. Agron J,2005,97(3):717-721.
[51]Mclain J E T,Martens D A.N 2 O production by heterotrophic N transformations in a semiarid soil[J].Applied Soil Ecology,2006,32:253-263.
[52]Friedel J K,Langer T,Siebe C,et al.Effects of long-term wastewater irrigation on soil organic matter,soil microbial biomass and its activities in central Mexico[J]. Biology and Fertility of Soils,2000,31:414-421.
[53]Kass A,Gavrieli I,Yechieli Y,et al.The impact of freshwater and wastewater irrigation on the chemistry of shallow groundwater:a case study from the Israeli Coastal Aquifer[J]. Journal of Hydrology,2005,300:314-331.
[54]Taylor K S,Anda M,Sturman J,et al.Subsurface dripline tubing-an experimental design for assessing the effectiveness of using dripline to apply treated wastewater for turf irrigation in Western Australia[J]. Desalination,2006,187:375-385.
[55]Assadian N W,Giovanni D,Enciso G D,et al.The transport of waterborne solutes and bacteriophage in soil subirrigated with a wastewater blend[J]. Agriculture,Ecosystems and Environment,2005,111:1-4.
[56]EPA. Guidelines for the microbiological quality of treated wastewater used in agriculture:Recommendations for revising WHO guidelines[S].2000.
[57]EPB.Treated Municipal Wastewater Irrigation Guidelines[S].2004.
[58]FAO.Wastewater treatment and use in agriculture[S].Irrigation and Drainage,1992.