[1] 李亚治.2000水葫芦水草人工湿地系统再生浆造纸废水处理中的应用研究[J].环境科学动态,2:28~30. [2] 吴振斌,陈辉蓉,雷腊梅,等.2000人工湿地系统去除藻毒素的研究[J].长江流域资源与环境,9(2):242~247 [3] 张毅敏,张永春.1998.利用人工湿地治理太湖流域小城镇生活污水可行性探讨[J].农业环境保护,17(5):232 234 [4] 陈国喜,周启星.2000.恒液位推流式BSBR工艺工程设计及研究[J].应用基础与工程科学学报,8(3):273~277. [5] 陈桂珠,陈桂葵,谭凤仪,等.2000.白骨壤模拟人工湿地系统对污水的净化效应[J].海洋环境科学,19(4):23~26. [6] 杨健,陆雍森,王树乾.2001绿色生态滤池处理城镇污水的中式研究[J].环境工程,19(2):20~22 [7] 周启星1997湿地资源保护与合理利用的生态学[A]生态环境研究与可持续发展[C]北京:中国环境科学出版社,15~20 [8] 周启星2002.从第二届世界水资源论坛看辽宁的水资源危机及对策[J].生态学杂志,2l(2):36~39. [9] 俞孔坚,李迪华,孟亚凡.2001.湿地及其在高科技园区中的营造[J].中国园林,2:26~28. [10] 黄正,Sakadevan K,BavorJ.2000.Cd2+、Cu2+和Zn2+对人工湿地反硝化作用的影响[J]环境科学,21(4):110~112 [11] 黄时达,王庆安,钱骏,等.2000从成都活水公园看人工湿地系统处理工艺[J].四川环境,19(2):8~12. [12] 戴全裕,蔡述伟,张秀英.1998.多花黑麦草对黄金废水净化与富集的研究[J]环境科学学报,18(50):553~556. [13] 籍国东,孙铁珩,李顺.2002.人工湿地及其在工业废水处理中的应用[J]应用生态学报,13(2):224 228. [14] Bavor HJ, et al. 1995. Challenges for the development of advanced constructed wetlands technology [J]. Wat. Sci. Technol., 32(3): 13~20. [15] Brix H. 1994. Use of constructed wetland in water pollution of duckweed-based wastewater treatment systems [J]. Wat. Sci.Tech nol., 35 (5): 239~246. [16] Geller G. 1997. Horizontal subsurface flow systems in Germen speaking countries:Summary of long-term scientific and practical experience; recommendations [J]. Wat Sci. Technol., 35 (5):157~166. [17] Giraud F, et al. 2001. Biodegradation of anthracene and fluoranthene by fungi isolated from an experimental constructed wetland for wastewater treatment [J]. Wat. Res., 35 (17): 4126~4136. [18] Jenssen PD, et al. 1993. Potential use of constructed wetlands for wastewater treatment in northern environments [J]. Wat. Sci.Technol., 28(10): 149~157. [19] Ji Guodong, et al. 2002. Constructed subsurface flow wetland for treating heavy oil-produced water of the Lianhe Oilfield in China[J]. Ecol. Eng., 18(4) :459~465. [20] Kern J, Idler C. 1999. Treatment of domestic and agricultural wastewater by reed bed systems [J]. Ecol. Eng., 12 (1~2): 13~25. [21] Kickuth R. 1997. Degradation and incorporation of nutrients from rural wastewaters by plant rhizosphere under limnic conditions[A]. ln:Utilization of Manure by Land Spreading[C]. London: Comm. of the Euro. Communities, EUR 5672c, 335. [22] Kivaisi AK. 2001. The potential for constructed wetlands for wastewater treatment and reuse in developing countries:a review[J]. Ecol. Eng., 17(16) :545~560. [23] Mclatchey GP, Reddy KR. 1998. Regulation of organic matter decomposition and nutrient release in a wetland soil [J]. J. Environ. Qual ., 27(5): 1268~1274. [24] Kickuth SK. 1976. Macrophytes and Water Purification[A]. Biological Control of Water Pollution[C]. Philadelphia: .Pensylvania Univercity Press. [25] Urbanc-Bercic O. 1997. Reed stands in constructed wetlands:"edge effect" and photochemical efficiency of PS2 in common reed [J]. Wat. Sci. Technol., 35(5): 143~147. [26] Verhoeven JTA, Meuleman AFM. 1999. Wetlands for wastewater treatment: opportunities and limitations [J]. Ecol. Eng., 12:(1~2):5~12. [27] Vrhovsek D, et al. 1996.Constructed wetland (CW) for industrial waste water treatment [J]. Wat. Res., 30 (10): 2287~2292. [28] Vyrnazal J. 2002. The use of sub-surface constructed wetlands for wastewater treatment in the Czech Repubtic:10 years experience[J]. Ecol. Eng., 18(5) :633~646. [29] Werker AG. et al. 2002. Treatment variability for wetland wastewater treatment design in cold climates [J]. Ecol. Eng., 19(1): 1~11. [30] Zhu T. 1997. Phosphate sorption and chemical characteristics of lightweight aggregates (LWV) - potential filter media in treatment wetlands [J]. Wat. Sci. Technol., 35(5): 103~108. |