| [1] | 骆其金, 谌建宇, 许振成, 等. 曝气生态浮床/PRB组合工艺净化重污染河水研究. 中国给水排水, 2009, 25(23): 22-28 Luo Qijin, Chen Jianyu, Xu Zhencheng, et al. Purification of heavy polluted riverw ater by combined EAFB-PRB process. China Water & Wastewater, 2009, 25(23): 22-28(in Chinese) |
| [2] | Bergmann B. A., Cheng J., Classen J., et al. Nutrient removal from swine lagoon effluent by duckweed. Transactions of the American Society of Agricultural Engineers, 2000, 43(2): 263-269 |
| [3] | Cheng J., Bergmann B. A., Classen J. J., et al. Nutrient recovery from swine lagoon water by Spirodela punctata. Bioresource Technology, 2002, 81(1): 81-85 |
| [4] | Van Der Steen P., Brenner A., Van Buuren J., et al. Post-treatment of UASB reactor effluent in an integrated duckweed and stabilization pond system. Water Research, 1999, 33(3): 615-620 |
| [5] | Al-Nozaily F. A., Alaerts G. Performance of duckweed-covered sewage lagoons in Sana'a, Yemen, depending on sewage strength. Journal of Water Supply: Research and Technology-AQUA, 2002, 51(3): 173-182 |
| [6] | Awuah E., Lubberding H. J., Asante K., et al. The effect of pH on enterococci removal in Pistia-, duckweed-and algae-based stabilization ponds for domestic wastewater treatment. Water Science and Technology, 2002, 45(1): 67-74 |
| [7] | El-Shafai S. A., El-Gohary F. A., Nasr F. A., et al. Nutrient recovery from domestic wastewater using a UASB-duckweed ponds system. Bioresource Technology, 2007, 98(4): 798-807 |
| [8] | Short M. D., Cromar N. J., Nixon J. B., et al. Relative performance of duckweed ponds and rock filtration as advanced in-pond wastewater treatment processes for upgrading waste stabilisation pond effluent: A pilot study. Water Science and Technology, 2007, 55(11): 111-119 |
| [9] | Van Der Steen N. P., Nakiboneka P., Mangalika L., et al. Effect of duckweed cover on greenhouse gas emissions and odour release from waste stabilisation ponds. Water Science and Technology, 2003, 48(2): 341-348 |
| [10] | Edwards P., Hassan M. S., Chao C. H., et al. Cultivation of duckweeds in septage-loaded earthen ponds. Bioresource Technology, 1992, 40(2): 109-117 |
| [11] | Yamaga F., Washio K., Morikawa M. Sustainable Biodegradation of Phenol by Acinetobacter calcoaceticus P23 Isolated from the Rhizosphere of Duckweed Lemna aoukikusa. Environmental Science & Technology, 2010, 44(16): 6470-6474 |
| [12] | Toyama T., Sei K., Yu N., et al. Enrichment of bacteria possessing catechol dioxygenase genes in the rhizosphere of Spirodela polyrrhiza: A mechanism of accelerated biodegradation of phenol. Water Research, 2009, 43(15): 3765-3776 |
| [13] | Sasmaz A., Obek E. The accumulation of arsenic, uranium, and boron in Lemna gibba L. exposed to secondary effluents. Ecological Engineering, 2009, 35(10): 1564-1567 |
| [14] | Khellaf N., Zerdaoui M. Phytoaccumulation of zinc by the aquatic plant, Lemna gibba L. Bioresource Technology, 2009, 100(23): 6137-6140 |
| [15] | Cheng J., Landesman L., Bergmann B. A., et al. Nutrient removal from swine lagoon liquid by Lemna minor 8627. Transactions of the Asae, 2002, 45(4): 1003-1010 |
| [16] | Hammouda O., Gaber A., Abdel-Hameed M. S. Assessment of the effectiveness of treatment of wastewater-contaminated aquatic systems with Lemna gibba. Enzyme and Microbial Technology, 1995, 17(4): 317-323 |
| [17] | Ran N., Agami M., Oron G. A pilot study of constructed wetlands using duckweed (Lemna gibba L.) for treatment of domestic primary effluent in Israel. Water Research, 2004, 38(9): 2241-2248 |
| [18] | Sutton D. L., Harold Ornes W. Growth of Spirodela polyrhiza in static sewage effluent. Aquatic Botany, 1977, 3: 231-237 |
| [19] | Sutton D. L., Ornes W. H. Phosphorus removal from static sewage effluent using duckweed. J. Environ. Qual., 1974, 4(3): 367-370 |
| [20] | Frederic M., Samir L., Louise M., et al. Comprehensive modeling of mat density effect on duckweed (Lemna minor) growth under controlled eutrophication. Water Research, 2006, 40(15): 2901-2910 |
| [21] | Tkalec M., Vidakovic-Cifrek Z., Regula I. The effect of oil industry "high density brines" on duckweed Lemna minor L. Chemosphere, 1998, 37(13): 2703-2715 |
| [22] | 中国科学院上海植物生理研究所. 现代植物生理学实验指南. 北京: 科学出版社, 1999 |
| [23] | 国家环境保护总局《水和废水监测分析方法》编委会. 水和废水监测分析方法(第4版). 北京: 中国环境科学出版社, 2002 |
| [24] | Reinhold D. M., Saunders E. M. Phytoremediation of fluorinated agrochemicals by duckweed. Transactions of the Asabe, 2006, 49(6): 2077-2083 |
| [25] | 种云霄, 胡洪营, 钱易. 细脉浮萍和紫背浮萍在污水营养条件下的生长特性. 环境科学, 2004, 25(6): 59-64 Chong Yunxiao, Hu Hongying, Qian Yi. Growth feature of biomass of Lemna aequinoctialis and Spirodela polyrrhizain in medium with nutrient character of wastewater. Environmental Science, 2004, 25(6): 59-64(in Chinese) |
| [26] | Xu J., Shen G. Growing duckweed in swine wastewater for nutrient recovery and biomass production. Bioresource Technology, 2011, 102(2): 848-853 |
| [27] | Suppadit T. Nutrient removal of effluent from quail farm through cultivation of Wolffia arrhiza. Bioresource Technology, 2011, 102(16): 7388-7392 |
| [28] | 黄辉, 刘杰, 赵浩, 等. 浮萍放养体系对污水氮磷的净化效果. 农业环境科学学报, 2007, 26(增刊): 242-245 Huang Hui, Liu Jie, Zhao Hao, et al. Removal of nitrogen and phosphorus by duckweed-cultured system. Journal of Agro-Environment Science, 2007, 26(Supplement): 242-245(in Chinese) |
| [29] | Porath D., Pollock J. Ammonia stripping by duckweed and its feasibility in circulating aquaculture. Aquatic Botany, 1982, 13: 125-131 |