[1] Xu M (徐 敏), Yao R-H (姚瑞华), Song L-L (宋玲玲), et al. Primary exploration of general plan of the urban black-odor river treatment in China. Chinese Journal of Environmental Management (中国环境管理), 2015, 7(2): 74-78 (in Chinese) [2] Suffet IH, Mallevialle J, Kawczynski E. Advances in taste and odor treatment and control. Report of American Water Works Association Research Foundation, 1995 [3] Zhao Y (赵 越), Yao R-H (姚瑞华), Xu M (徐 敏), et al. Study on the practice and route of combating urban black and malodorous water body. Environmental Protection (环境保护), 2015, 43(13): 27-29 (in Chinese) [4] The State Council (国务院). Action Plan of Water Pollution Prevention, Beijing, 2015 (in Chinese) [5] Lazaro TR. Urban Hydrology. Michigan: Ann Arbor Science Publishers, 1979 [6] Ministry of Housing and Urban-Rural Development of China (住房和城乡建设部). Guideline for Urban Black and Odorous Water Treatment, Beijing, 2015 (in Chinese) [7] Gu G-W (顾国维), Cai B-T (蔡不忒). Preliminary prediction of the trends of black-odor in Huangpu River. Shanghai Environmental Sciences (上海环境科学), 1983, 2(4): 24-26 (in Chinese) [8] Wu G-Y (吴国元). A research on the assessment of water quality of Huangpujiang. Journal of Huazhong Normal University (Natural Science) (华东师范大学学报:自然科学版), 1979(1): 121-126 (in Chinese) [9] Wood S, Williams ST, White WR, et al. Factors influencing geosmin production by a streptomycete and their relevance to the occurrence of earthy taints in reservoirs. Water Science and Technology, 1983, 15: 191-198 [10] Luo J-D (罗纪旦), Fang B-R (方柏蓉). Research on black-odor issue of Huangpu River. Shanghai Environmental Sciences (上海环境科学), 1983, 2(5): 6-8 (in Chinese) [11] Canfield DE, Linda SB, Hodgson LM, et al. Relations between color and some limnological characteristics of Flodia lakes. Journal of the American Water Resources Association, 1984, 20: 323-329 [12] Tang X-B (汤兴宝).Dynamic analysis of the black-odorous water in Huangpu River in nearly three years. Environmental Engineer (环境工程), 1985(2): 12-13 (in Chinese) [13] Luo M-W (骆梦文). The origin of the black-odor water in Huangpu River. Shanghai Environmental Sciences (上海环境科学), 1986, 5(5): 37-38 (in Chinese) [14] Hishida Y, Ashitani K, Fujiwara K. Occurrence of musty odor in the Yodo River. Water Science and Technology, 1988, 8: 193-196 [15] Ying T-L (应太林), Zhang G-Y (张国莹), Wu R-R (吴蕊蕊). The mechanism of blackening and stink and effects of resuspended sediments on Suzhou Creek water body. Shanghai Environmental Sciences (上海环境科学), 1997, 16(1): 23-26 (in Chinese) [16] Hu G-C (胡国臣), Wang Z (王 忠), Chang X-Q (常晓青). Study on water quality index for preventing black and offensive odor in water. Shanghai Environmental Sciences (上海环境科学), 1999, 18(11): 523-525 (in Chinese) [17] Sun C-J (孙从军), Zhang M-X (张明旭). Application of aeration technique in river pollution control. Environmental Protection (环境保护), 2001, 29(4): 12-14, 20 (in Chinese) [18] Sugiura N, Utsumi M, Wei B, et al. Assessment for the complicated occurrence of nuisance odours from phytoplankton and environmental factors in a eutrophic lake. Lakes & Reservoirs: Research and Management, 2004, 9: 195-201 [19] Jin C-X (金承翔), Sun J-J (孙建军), Huang M-S (黄民生). Study on purification and remediation of black-colored and odorous water body by combined bio-technologies. Water Purification Technology (净水技术), 2005, 24(4): 1-4 (in Chinese) [20] Cheng J (程 江), Wu A-N (吴阿娜), Che Y (车 越), et al. Study on key indicators for judging black and odorous water in area of plain river system. China Water and Wastewater (中国给水排水), 2006, 22(9): 19-22 (in Chinese) [21] Li W-J (李伟杰),Wang Y-H (汪永辉). The cycle and conversion of iron in the rivers and its relation to water blackening and stink. Water Purification Technology (净水技术), 2007, 26(2): 35-37 (in Chinese) [22] Li Z (李 真), Huang M-S (黄民生), He Y (何 岩), et al. The relationship between the form transformation of iron and sulfur and the black-odor water body. Environmental Science & Technology (环境科学与技术), 2010, 33(6E): 1-7 (in Chinese) [23] Cui W, Zhang Y, Huang MS. Activities of urease and phosphatase in integrated vertical flow constructed wetland and purification effect of black and malodorous river. Agricultural Science & Technology, 2011, 12: 1186-1190 [24] Xu M-D (徐明德), Yan Z-K (阎正坤), Zhu Q-L (朱秋丽). Study on black-stink assessment of river based on BP neural network-membership grade. Mathematics in Practice and Theory (数学的实践与认识), 2012, 42(17): 55-61 (in Chinese) [25] Kutovaya OA, Watson SB. Development and application of a molecular assay to detect and monitor geosmin-producing cyanobacteria and actinomycetes in the Great Lakes. Journal of Great Lakes Research, 2014, 40: 404-414 [26] Zhang J-Y (张晶尧), Xu M-D (徐明德), Zhang J-J (张君杰), et al. Application of entropy-weighted matter-element model in black-odour prediction for river. Yellow River (人民黄河), 2015, 37(2): 85-88 (in Chinese) [27] Chen J, Xie P, Ma ZM, et al. A systematic study on spatial and seasonal patterns of eight taste and odor compounds with relation to various biotic and abiotic para-meters in Gonghu Bay of Lake Taihu, China. Science of the Total Environment, 2010, 409: 314-325 [28] Lu G-H (陆桂华), Ma Q (马 倩). Analysis on the causes of forming black water cluster in Taihu Lake. Advance in Water Science (水科学进展), 2009, 20(3): 438-442 (in Chinese) [29] Gao JH, Jia JJ, Kettner AJ, et al. Changes in water and sediment exchange between the Changjiang River and Poyang Lake under natural and anthropogenic conditions, China. Science of the Total Environment, 2014, 481: 542-553 [30] Xiao L (肖 靓), Zhao W-T (赵文涛), Luan J-S (栾敬帅), et al. Review on black-odor prediction mo-dels and pollution control technology for urban river. Journal of Anhui Agricultural Sciences (安徽农业科学), 2014, 42(26): 9116-9120 (in Chinese) [31] Zhang M (张 敏), Yang Q-W (杨芹伟). Feasible measure for basically eliminating black and stink of waterways in urban area. Shanghai Environmental Sciences (上海环境科学), 2004, 23(4): 161-163 (in Chinese) [32] Wang H (王 浩), Yan D-H (严登华), Xiao W-H (肖伟华), et al. Total Quantity Control of Water Pollutions Based on Watershed Hydrological Cycle: Theory, Method and Application. Beijing: China Water and Po-wer Press, 2012 (in Chinese) [33] Yu Y-B (于玉彬), Huang Y (黄 勇). Review of reason and mechanism of black and stink in urban rivers. Environmental Science and Technology (环境科技), 2010, 23(suppl.2): 113-114 (in Chinese) [34] Ding Q (丁 琦), Tang L-H (汤利华), Xie D (谢 丹). Forming mechanism of black-odor of a campus lake. Industrial Water and Wastewater (工业用水与废水), 2012, 43(3): 28-30 (in Chinese) [35] Lu X (卢 信), Feng Z-Y (冯紫艳), Shang J-G (商景阁), et al. Black water bloom induced by different types of organic matters and forming mechanisms of major odorous compounds. Environmental Science (环境科学), 2012, 33(9): 3152-3159 (in Chinese) [36] Li W-J (李伟杰), Wang Y-H (汪永辉). The cycle and conversion of iron in the rivers and its relation to water blackening and stink. Water Purification Technology (净水技术), 2007, 26(2): 35-37 (in Chinese) [37] Li X-L (李相力), Zhang P-C (张鹏程), Yu H-C (于洪存). Analysis on black color and odor of Weigong River in Shenyang. Environmental Protection Science (环境保护科学), 2003, 29(5): 27-28 (in Chinese) [38] Kiene RP, Hines ME. Microbial formation of dimethyl sulfide in anoxic Sphagnum peat. Applied and Environmental Microbiology, 1995, 61: 2720-2726 [39] Kiene RP, Linn LJ. The fate of dissolved dimethylsulfoniopropionate (DMSP) in seawater: Tracer studies using 35S-DMSP. Geochimica et Cosmochimica Acta, 2000, 64: 2797-2810 [40] Bentley R, Chasteen TG. Environmental VOSCs: Formation and degradation of dimethyl sulfide, methanethiol and related materials. Chemosphere, 2004, 55: 291-317 [41] Lu X, Fan CX, He W, et al. Sulfur-containing amino acid methionine as the precursor of volatile organic sulfur compounds in algea-induced black bloom. Journal of Environmental Sciences, 2013, 25: 33-43 [42] Parinet J, Rodriguez MJ, Serodes J. Influence of water quality on the presence of off-flavour compounds (geosmin and 2-methylisoborneol). Water Research, 2010, 44: 5847-5856 [43] Dionigi CP, Lawlor TE, McFarland JE, et al. Evaluation of geosmin and 2-merhylisoborneol on the histidine dependence of TA98 and TA100 salmonella typhimurium tester strains. Water Research, 1993, 27: 1615-1618 [44] Gerber NN. A volatile metabolite of actinomycetes, 2-methylisoborneol. Journal of Antibiotics, 1969, 22: 508-509 [45] Gerber NN. Geosmin from microorganisms, istrans-1, 10-dimethyl-Trans-9- decalol. Tetrahedron Letters, 1968, 25: 2971-2974 [46] Gerber NN, Lechevalier HA. Geosmin, an earthy-smelling substance isolated from actinomycetes. Applied Microbiology, 1965, 13: 935-937 [47] Gerber NN. Geosmin, an earthy-smelling substance isolated from actinomycetes. Biotechnology and Bioengineering, 1967, 9: 321-327 [48] Tabachek JL, Yurkowski M. Isolation and identification of blue green algae producing musty odor metabolites, geosmin and 2-methylisoborneol in saline lakes in Manitoba. Journal of Fisheries Research Board of Canada, 1976, 33: 25-35 [49] Tsuchiya Y, Matsumoto A, Okamoto T. Volatile metabolites produced by actinomycetes, isolated from Lake Tairo at Miyakejima. Yakugaku Zasshi, 1978, 98: 454-550 [50] Sugiura N, Yagi O, Sudo R. Effect of various environmental factors in musty odor production by actinomycetes (Streptomyces). Japanese Journal of Water Pollution Research, 1983, 6: 77-86 [51] Sugiura N, Yagi O, Sudo R. Musty odor blue green algae, Phormidium tenue, in Lake Kasumigaura. Environmental Science and Technology Letters, 1986, 7: 77-86 [52] Pirbazari M, Ravindran V, Badriyha BN, et al. GAC absorber design protocol for the removal of off-flavors. Water Research, 1993, 27: 1153-1166 [53] Juttner F, Watson SB. Biochemical and ecological control of geosmin and 2-methylisoborneol in source waters. Applied and Environmental Microbiology, 2007, 73: 4395-4406 [54] Fang Y-Q (方宇翘), Qiu Z-N (裘祖楠), Zhang G-Y (张国莹). Study of the phenomena of water blackening and stink on Suzhou Creek. China Environmental Science (中国环境科学), 1993, 13(4): 256-262 (in Chinese) [55] Dai S-G (戴树桂), Zhuang Y-Y (庄源益), Jin Z-H (金朝晖). Statistical analysis of parameters for simulated polluted aquatic ecosystems. Acta Scientiae Circumastantiae (环境科学学报), 1994, 14(2): 144-151 (in Chinese) [56] Yu X (俞 欣), Chen T-A (陈天安). Study of a ra-pid assessment method on black-odor river. Environmental Science and Management (环境科学与管理), 2015, 40(3): 176-179 (in Chinese) [57] Lyu J-J (吕佳佳), Yang J-Y (杨娇艳), Liao W-F (廖卫芳), et al. Study on the water quality and environmental conditions of the formation of black-odorous water. Journal of Huazhong Normal University (Natural Science) (华东师范大学学报:自然科学版), 2014, 48(5): 711-716 (in Chinese) [58] Liu D-S (刘德生). Environmental Monitoring. Beijing: Chemical Industry Press, 2001: 51-120 (in Chinese) [59] Zhu M (诸 敏), Yao Z-Y (姚祯业), Shen B-K (沈炳康). Research on the stink-smell and purification capacity of drainage brook. Environment Pollution and Control (环境污染与防治), 1986, 7(5): 14-21 (in Chinese) [60] Xu Z-X (徐祖信). Comprehensive water quality identification index for environmental quality assessment of surface water. Journal of Tongji University (Natural Science) (同济大学学报:自然科学版), 2005, 33(4): 482-488 (in Chinese) [61] Hao X-M (郝晓明), Hu Z-B (胡湛波), Liu C (刘 成), et al. Development of black-odour prediction model for Nanning Zhupai Creek. Journal of East China Normal University (Natural Science)(华东师范大学学报:自然科学版), 2011 (1): 163-171 (in Chinese) [62] Li P-Z (李鹏章). A Study on the Characterization Method of Apparent Pollution for Scenic Water. Master Thesis. Suzhou: Suzhou University of Science and Technology, 2011 (in Chinese) [63] Christensen VG, Graham JL, Milligan CR, et al. Water quality and relation to taste-and-odor compounds in the North Fork Ninnescah River and Cheney Reservoir, South central Kansas. United States Geological Survey Scientific Investigations Report. Center for Integrated Data Analytics, Wisconsin Science Center, 2006 [64] Smith VH, Jonathan SD, Frank DJ, et al. Managing taste and odor problems in a eutrophic drinking water reservoir. Journal of Lake and Reservoir Management, 2002, 18: 319-323 [65] Mau DP, Ziegler AC, Porter SD, et al. Surface water-quality conditions and relation to taste-and-odor occurrences in the Lake Olathe Watershed, Northeast Kansas, 2000-02. United States Geological Survey Scientific Investigations Report, 2004: 95 [66] Dzialowski AR, Smith VH, Huggins DG, et al. Deve-lopment of predictive models for geosmin-related taste and odor in Kansas, USA, drinking water reservoirs. Water Research, 2009, 43: 2829-2840 [67] Si Y-B (司有斌), Bao J-J (包军杰), Cao D-J (曹德菊), et al. Purification of eutrophicated water body by Vetiveria zizanioids. Chinese Journal of Applied Ecology (应用生态学报), 2003, 14(2): 277-279 (in Chinese) |