[1] Zeren Gurkan, Jingjie Zhang, Sven Erik Jørgensen. Development of a structurally dynamic model for forecasting the effects of restoration of Lake Fure, Denmark[J].Ecological Modelling, 2006, 197(1/2): 89-102.
[2] Ting D S, Appan A.General characteristics and fractions of phosphorus in aquatic sediments of two tropical reservoirs[J].Water Science & Technology,1996, 34(7/8): 53-59.
[3] Zhou Q, Gibson C E, Zhu Y. Evaluation of phosphorus bioavailability in sediments of three contrasting lakes in China and UK[J].Chemosphere, 2001, 42: 221-225.
[4] Fu Yongqing, Zhou Yiyong. Species and fractionation of phosphorus in sediments and their ecological significance[J].Journal of Lake Science, 1999,11(4):376-381.[付永清,周易勇.沉积物磷形态的分级分离及其生态学意义[J]. 湖泊科学, 1999, 11(4):376-381.]
[5] Chai Beibei. Study on Pollutants Release from Sediments and the Multi Phase Interface Effect[D]. Xi′an: Xi′an University of Architecture and Technology, 2008:6-7.[柴蓓蓓. 水体沉积物中污染物释放及其多相界面过程研究[D].西安:西安建筑科技大学, 2008:6-7.]
[6] Tuominen L, Makela K. Nutrient fluxes, pore water profiles and denitrification in sediment influenced by algal sedimentation and bioturbation by monporeia affinis[J].Estuarine, Coastal and Shelf Science,1999,49:83-97.
[7] Zhang Xihui.Principle and Application of Water Environment Restoration Engineering[M]. Beijing: Chemical Industry Press,2002.[张锡辉. 水环境修复工程学原理与应用[M]. 北京：化学工业出版社，2002.]
[8] Gao Yu, Mi Yongning. Study of reservoir′s Nitrogen and Phosphorus pollution and eutrophication in Liaoning province[J].Technical Supervision in Water Resources,2003,(2):40-42.[高宇,宓永宁.辽宁省水库氮、磷污染及富营养化研究[J].水利技术监督,2003,(2):40-42.]
[9] Jiang Shujun, Wang Jing. Analysis of water pollution and developing trend of Guanting reservoir[J].Beijing Water Resources, 2003,(2)：31-32.[蒋树军,王净.官厅水库水质污染状况及趋势分析[J].北京水利,2003，(2)：31-32.]
[10] Gary J Jones, Wojciech Poplawski. Understanding and management of cyanobacterial blooms in sub-tropical reservoirs of Queensland,Australia[J].Water Science Technology,1998, 37(2):161-168.
[11] Marc W Beutel. Inhibition of ammonia release from anoxic profundal sediments in lakes using hypolimnetic oxygenation[J].Ecological Engineering,2006, 28(3): 271-279.
[12] Connie D D, Erica L S, John S Gulliver. Impact of bubble and free surface oxygen transfer on diffused aeration systems[J].Water Research,2003, 37(8): 1 890-1 904.
[13] Goloka Behari Sahoo, David Luketina. Gas transfer during bubbler destratification of reservoirs[J].Journal of Environmental Engineering, 2005, 131(5): 702-715.
[14] Goloka Behari Sahoo, David Luketina. Response of a tropical reservoir to bubbler destratification[J].Journal of Environmental Engineering, 2006, 132(7): 736-746.
[15] Hector R Bravo, John S Gulliver, Miki Hondzo. Development of a commercial code-based two-fluid model for bubble plumes[J].Environmental Modelling & Software,2007, 22(4): 536-547.
[16] Schladow S Geoffrey. Lake destratification by bubble-plume systems: Design methodology[J].Journal of Hydraulic Engineering,1993, 119(3): 350-368.
[17] Erica L Schierholz, John S Gulliver, Steven C Wilhelms,et al. Gas transfer from air diffusers[J].Water Research,2006, 40(5): 1 018-1 026.
[18] John C Little. Hypolimnetic aerators: Predicting oxygen transfer and hydrodynamics[J].Water Research,1995, 29(11):2 475-2 482.
[19] Vickie L Burris,John C Little.Bubble dynamics and oxygen transfer in a hypolimnetic aerator[J].Water Science Technology, 1998, 37(2):293-300.
[20] Lindenschmidt K E, Hamblin P F. Hypolimnetic aeration in lake Tegel, Berlin[J].Water Research,1997,31(7): 1 619-1 628.
[21] Monzur Alam Imteaz, Takashi Asaeda. Artificial mixing of lake water by bubble plume and effects of bubbling operations on algal bloom[J].Water Research, 1999, 34(6): 1 919-1 929.
[22] Gustavo C Buscaglia, Fabián A Bombardelli, Marcelo H Garcia. Numerical modeling of large-scale bubble plumes accounting for mass transfer effects[J].International Journal of Multiphase Flow,2002, 28(11): 1763-1785.[23] Petra M Visser,Henk A, Ketelaars M.Reduced growth of the cyanobacterium microcystis in an artificially mixed lake and reservioir[J].Water Science Technology,1995, 32(4):53-54.
[24] Jeremy Simmons.Algal control and destratification at Hanningfield reservoir[J].Water Science Technology, 1998, 37(2):309-316.
[25] Chipofya V H, Matapa E J. Destratification of an impounding reservoir using compressed air case of Mudi reservoir, Blantyre, Malawi[J].Physics and Chemistry of the Earth, 2003, 28(27): 1 161-1 164.
[26] Lindenschmidt K E, Hamblin P F. Hypolimnrtic aeration in lake Tegel, Berlin[J].Water Research,1996, 31(7): 1 619-1 628.
[27] Vickie L Burris, Daniel F McGinnis, John C Little. Predicting oxygen transfer and water flow rate in airlift aerators[J].Water Research,2002, 36(18): 4 605-4 615.
[28] Dong Seo,Dong Soon Jang,Oh Hun Kwon. The Evaluation of Effects of Artificial Circulation on Daechung Lake,Korea[R]. Proceedings Vol.1 of 6th International Conference on the Conservation and Management of Lakes, 1995:336-339.
[29] Daniel F McGinnis, John C Little. Predicting diffused-bubble oxygen transfer rate using the discrete-bubble model[J].Water Research, 2002, 36(18): 4 627-4 635.
[30] Rohan Stephens, Jörg Imberger. Reservoir destratification via mechanical mixers[J].Journal of Hydraulic Engineering, 1993, 119(4):438-457.
[31] Brian Kirke, Ahmed El Gezawy. Design and model tests for an efficient mechanical circulator/aerator for lakes and reservoirs[J].Water Research, 1996, 31(6): 1 283-1 290.
[32] Rebecca Lawson, Michael A Anderson. Stratification and mixing in Lake Elsinore, California: An assessment of axial flow pumps for improving water quality in a shallow eutrophic lake[J].Water Research, 2007, 41(19): 4 457-4 467.
[33] Heinz G Stefan, Ruochuan Gu. Efficiency of jet-mixing of temperature-stratified water[J].Journal of Environmental Engineering,1992, 118(3): 363-379.
[34] Stephen A McCord,Schladow S Geoffrey, Theron G Miller. Modelling artificial aeration kinetics in inc-covered lakes[J].Journal of Environmental Engineering, 2000, 126(1): 21-31.
[35] Cong Haibing, Huang Tinglin, Miao Jingguang, et al. Development of rehabilitation device for water body—Water lifting aerator[J].China Water & Wastewater, 2005,21(3):41-45.[丛海兵，黄廷林，缪晶广,等.水体修复装置——扬水曝气器的开发[J].中国给水排水，2005,21(3):41-45.]
[36] He Wenjie, Li Weiguang, Zhang Xiaojian,et al. Novel Technology for Drinking Water Safety[M]. Beijing: Chinese Construction Industry Press, 2006:125-152.[何文杰,李伟光,张晓建,等.安全饮用水保障技术[M]. 北京：中国建筑工业出版社,2006：125-152.]
[37] Cong Haibing, Huang Tinglin, Zhao Jianwei,et al. Application of the technology of lifting water and aeration for improving water quality[J].Environmental Pollution & Control,2006, 28(3):215-218.[丛海兵,黄廷林,赵建伟,等.扬水曝气技术在水源水质改善中的应用[J].环境污染与防治,2006,28(3):215-218.]
[38] Huang Tinglin, Li Jianjun. Water lifting and aeration technology for improving raw water quality in Fenhe river reservoir[J].Water Technology, 2007,1(4)：13-16.[黄廷林,李建军. 扬水曝气技术对汾河水库原水水质的改善[J]. 供水技术,2007,1(4)：13-16.]
[39] Chen Hanhui, Sun Guosheng. Research progress and application on biological contact oxidation of micropolluted source water[J].Techniques and Equipment for Environmental Pollution Control, 2000,1(3):55-60.[陈汉辉,孙国胜.生物接触氧化法处理微污染源水的研究进展与应用[J].环境污染治理技术与设备,2000,1(3):55-60.]
[40] Zhang Hua. Performance of biological pretreatment process in Huinan water works, Shanghai[J].China Water & Wastewater, 2000,16(8):12-14.[张华.上海惠南水厂生物预处理工艺的运行效果[J].中国给水排水,2000,16(8):12-14.]
[41] Gong Mingshu, Yin Yunlan, Wang Zhansheng,et al. Biopretreatment of raw water in water intake[J].Water & Wastewater Engineering, 1999,25(4):5-8.[龚明树,殷云兰,王占生,等.取水口水源水生物预处理中试研究[J].给水排水,1999,25（4）:5-8.]
[42] Huang Tinglin, Cong Haibing, Zhou Zhenming,et al. The onsite experiment study of enhanced bio-contact oxidation process for pretreatment of Luanhe river water[J].Acta Scientiae Circumstantiae, 2006,26(5):785-790.[黄廷林,丛海兵,周真明,等. 强化原位生物接触氧化技术改善水源水质的实验研究[J].环境科学学报,2006,26(5):785-790.][43] Huang Tinglin, Miao Jingguang, Cong Haibing. Pretreatment of micro-polluted source water by biological contact oxidation under conditions of lifting water and aeration[J].Technology of Water Treatment,2005, 31(12):46-48.[黄廷林,缪晶广,丛海兵. 扬水曝气条件下生物接触氧化处理微污染源水中试研究?[J].水处理技术,2005,31(12):46-48.]
[44] Mats Janson.Uptake, exchange, and excretion of orthophosphate in phosphate-starved Scenedesmus quadricauda and Pseudomonas K7[J].Limnology and Oceanography, 1993,38(6):1 162-1 178.
[45] Zhou Yuexi, Chen Fangrong, Qian Yi,et al. Study on the mechanism of uptake and release of phosphate by Pseudomonas sp.[J].Acta Scientiae Circumstantiae, 1994,14(4):212-215.[周岳溪,陈方荣,钱易,等.假单胞菌摄磷和释磷条件的研究[J].环境科学学报,1994,14(4): 212-215.]
[46] Li Guangke, Sang Nan. Study on biological phosphate removal by rhodobacter sphacroides[J].Urban Environment & Urban Ecology, 2001,14(2):22-24.[李广科,桑楠. 球形红杆菌废水除磷作用的研究[J].城市环境与城市生态,2001,14(2):22-24.]
[47] Tian Shuyuan, Wang Jingfeng, Yangrui,et al. Relationship between PHB and polyphosphate under anaerobic condition and related biochemical mechanisms[J].China Water & Wastewater, 2000,16(7):5-7.[田淑媛,王景峰，杨睿，等.厌氧下PHB 和聚磷酸盐及生化机理研究[J].中国给水排水,2000,16(7):5-7.]
[48] Wang J P,Yu L.Kinetic analysis on inhibited growth and poly (3-hydroxybutyrate) formation of alcaligenes eutrophus on acetate under nutrient-rich conditions[J].Process Biochemistry,2000,36:201-207.
[49] Xia Qi, Jiang Weihong. Study on molecular regulation and control of phosphorus′s metabolism by bacteria[J].Microbiology, 1998 ,25(5):281-283.[夏琪,姜卫红. 细菌磷代谢的分子调控[J].微生物学通报,1998,25(5): 281-283.][50] Gu Zonglian. Bioremediation of eutrophied lakes in China[J].Rural Eco-environment, 2002,18(1):42-45.[顾宗濂. 中国富营养化湖泊的生物修复[J]. 农村生态环境,2002 ,18(1):42-45.]
[51] Awadallah R M , Soltan M E, Shabeb M S A, et al.Bacterial removal of nitrate, nitrite and sulphate in wastewater[J].Water Research,1998,32(10):3 080-3 084.
[52] Liu Dongshan, Luo Qifang. Distribution and role of denitrifying, nitrifying, nitrosation and ammonifying bacteria in East lake[J].Chinese Journal of Environmental Science, 2002, 23(3):28-35.[刘东山,罗启芳.东湖氮循环细菌分布及其作用[J].环境科学,2002,23(3):28-35.]
[53] Kuenen J G,Robretson L A. Combined nitrification-denitrification process[J].FEMS Microbiology Review, 1994,15(2):109-117.
[54] Usui T, Koike I, Ogura N. N₂O Production, nitrification and denitrification in an estuarine sediment, estuarine[J].Coastal and Shelf Science,2001, 52:769-781.
[55] Shekhar Nautiyal C, Bhadauria S, Kumar P, et al.Stress induced phosphate solubilization in bacteria isolated from alkaline soils[J].FEMS Microbiology Letters, 2000,182:291-296.
[56] Fttimah M Yousoff, Hazel B Matias, Zarina A Khalid.Culture of microalage using interstitial water extracted from shrimp pond bottom sediments[J].Aquaculture,2001, 201:263-270.
[57] Chen Yucheng. Bioremediation Technology of Polluted Environment[M]. Beijing: Chemical Industry Press, 2003.[陈玉成.污染环境生物修复技术[M]. 北京：化学工业出版社,2003.]
[58] Li Xuemei, Yang Zhongyi, Jian Shuguang, et al. Control of algae bloom in eutrophic water by effective microorganisms[J].Acta Scientiarum Naturalum Universitatis Sunyatseni,2000,29(1):81-85.[李雪梅,杨中艺,简曙光，等.有效微生物群控制富营养化湖泊蓝藻的效应[J].中山大学学报，2000,29(1):81-85.]
[59] Eila Varjo, Anu Liikanen, Veli-Pekka Salonen, Pertti J. Martikainen. A new gypsum-based technique to reduce methane and phophorus release from sediments of eutrophied lakes: (Gypsum treatment to reduce internal loading)[J].Water Research,2003,37(1):1-10.
[60] Emil Rydin,Eugene B Welch. Aluminum dose required to inactivate phosphate in lake sediments[J].Water Research,1998, 32(10): 2 969-2 976.
[61] Thomas Deppe,Jürgen Benndorf. Phosphorus reduction in a shallow hypereutrophic reservoir by in-lake dosage of ferrous iron[J].Water Research,2002, 36(18): 4 525-4 534.