| [1] | ZHAI Shuijing, YANG Longyuan, HU Weiping. Observations of atmospheric nitrogen and phosphorus deposition during the period of algal bloom formation in northern Lake Taihu, China[J]. Environ Manage, 2009, 44(3):542-551. |
| [2] | 安中徳二, 京才俊則.栄養塩類の除去技術:生物処理法と物理化学処理法の比較[J].土木研究センター, 1979, 21(7):363-368. ANNAKA T, KYOSAI S. Nutrient removal technologies:comparison of biological and physico-chemical treatment[J]. Civ Eng J, 1979, 21(7):363-368. |
| [3] | LIU Wei, YANG Dianhai, XU Li. Effect of return sludge pre-concentration on biological phosphorus removal in a novel oxidation ditch[J]. Energy Resour Environ Technol, 2012, 20(4):747-753. |
| [4] | 褚淑祎, 陈小敏, 潘国武, 等.上庄河污染河水原位生物修复试验[J].浙江农林大学学报, 2014, 31(1):105-110. CHU Shuyi, CHEN Xiaomin, PAN Guowu, et al. An in situ remediation test for polluted water in the Shangzhuang River[J]. J Zhejiang A&F Univ, 2014, 31(1):105-110. |
| [5] | 蒋跃平, 葛滢, 岳春雷, 等.人工湿地植物对观赏水中氮磷去除的贡献[J].生态学报, 2004, 24(8):1718-1723. JIANG Yueping, GE Ying, YUE Chunlei, et al. Nutrient removal role of plants in constructed wetland on sightseeing water[J]. Acta Ecol Sin, 2004, 24(8):1718-1723. |
| [6] | 刘伸伸, 张震, 何金铃, 等.水生植物对氮磷及重金属污染水体的净化作用[J].浙江农林大学学报, 2016, 33(5):910-919. LIU Shenshen, ZHANG Zhen, HE Jinling, et al. Purification effect of aquatic plants on nitrogen, phosphorus and heavy metal polluted water[J]. J Zhejiang A&F Univ, 2016, 33(5):910-919. |
| [7] | KIVAISI A K. The potential for constructed wetlands for wastewater treatment and reuse in developing countries:a review[J]. Ecol Eng, 2001, 16(4):545-560. |
| [8] | 侯亮, 唐任仲, 徐燕申.产品模块化设计理论、技术与应用研究进展[J].机械工程学报, 2004, 40(1):56-61. HOU Liang, TANG Renzhong, XU Yanshen. Review of theory, key technologies and its application of modular product design[J]. Chin J Mech Eng, 2004, 40(1):56-61. |
| [9] | MARTIN M V, ISHⅡ K. Design for variety:developing standardized and modularized product platform architectures[J]. Res Eng Des, 2002, 13(4):213-235. |
| [10] | 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[M]. 4版.北京:中国环境科学出版社, 2002. |
| [11] | 黄季超, 许仕荣, 卢少勇, 等.生态透水带去除洱海流域生活污水氮的效果[J].环境工程学报, 2017, 11(10):5409-5416. HUANG Jichao, XU Shirong, LU Shaoyong, et al. Effect of nitrogen removal by ecological permeable belts treating domestic wastewater of Erhai Lake basin[J]. Chin J Environ Eng, 2017, 11(10):5409-5416. |
| [12] | 卢少勇, 金相灿, 余刚.人工湿地的氮去除机理[J].生态学报, 2006, 26(8):2670-2677. LU Shaoyong, JIN Xiangcan, YU Gang. Nitrogen removal mechanism of constructed wetland[J]. Acta Ecol Sin, 2006, 26(8):2670-2677. |
| [13] | FRANCIS C A, BEMAN J M, KUYPERS M M. New processes and players in the nitrogen cycle:the microbial ecology of anaerobic and archaeal ammonia oxidation[J]. ISME J, 2007, 1(1):19. |
| [14] | 徐亚同. pH值、温度对反硝化的影响[J].中国环境科学, 1994, 14(4):308-313. XU Yatong. The influence of pH values and temperature on denitrification[J]. China Environ Sci, 1994, 14(4):308-313. |
| [15] | 郑平, 胡宝兰.厌氧氨氧化菌混培物生长及代谢动力学研究[J].生物工程学报, 2001, 17(2):193-198. ZHENG Ping, HU Baolan. Kinetics of amaerobic ammonia oxidation[J]. Chin J Biotechnol, 2001, 17(2):193-198. |
| [16] | TANAKA Y, TAMAKI H, MATSUZAWA H, et al. Microbial community analysis in the roots of aquatic plants and isolation of novel microbes including an organism of the candidate phylum OP10[J]. Microb Environ, 2012, 27(2):149. |
| [17] | WU Weizhong, YANG Feifei, YANG Luhua. Biological denitrification with a novel biodegradable polymer as carbon source and biofilm carrier[J]. Bioresour Technol, 2012, 118(4):136-140. |
| [18] | LI Shuying, ZHOU Yuanqing, HU Cheng, et al. Water purification of rhizosphere microorganism in mosaic community of macrophytes[J]. Environ Sci Technol, 2010, 33(3):148-153. |
| [19] | 种云霄, 胡洪营, 钱易.大型水生植物在水污染治理中的应用研究进展[J].环境工程学报, 2003, 4(2):36-40. ZHONG Yunxiao, HU Hongying, QIAN Yi. Advances in utilization of macrophytes in water pollution control[J]. Tech Equip Environ Pollut Control, 2003, 4(2):36-40. |
| [20] | 刘足根, 张萌, 李雄清, 等.沉水-挺水植物镶嵌组合的水体氮磷去除效果研究[J].长江流域资源与环境, 2015, 24(增刊1):171-181. LIU Zugen, ZHANG Meng, LI Xiongqing, et al. Nitrogen and phosphorus removal of eutrophic water by the mosaic system of submerged-emerged plants[J]. Resour Environ Yangtze Basin, 2015, 24(suppl 1):171-181. |
| [21] | COLMER T D. Long-distance transport of gases in plants:a perspective on internal aeration and radial oxygen loss from roots[J]. Plant Cell Environ, 2003, 26(1):17-36. |
| [22] | LAI Wenling, ZHANG Yang, CHEN Zhanghe. Radial oxygen loss, photosynthesis, and nutrient removal of 35 wetland plants[J]. Ecol Eng, 2012, 39(7):24-30. |
| [23] | JAMES C, EATON J W, HARDWICK K, et al. Competition between three submerged macrophytes, Elodea canadensis, Elodea nuttallii and Lagarosiphon major[C]//MONTEIRO A, VASCONCELOS T, CATARINO L. Management and Ecology of Aquatic Plants. Proceedings of 10th Ewrs International Symposium on Aquatic Weeds. Netherlands: European Weed Research Society, 1998. |
| [24] | LIN Jianhua, YANG Yang, LI Li, et al. Characteristics of growth and radial oxygen loss of eight wetland plants[J]. J Lake Sci, 2015, 27(6):1042-1048. |
| [25] | 张凡, 程江, 杨卓如, 等.废水处理用生物填料的研究进展[J].环境污染治理技术与设备, 2004, 5(4):8-12. ZHANG Fan, CHENG Jiang, YANG Zhuoru, et al. Research progress in biofilm carrier for wastewater treatment[J]. Thech Equip Environ Pollut Control, 2004, 5(4):8-12. |
| [26] | 施云芬, 魏冬雪.悬浮填料同时生物脱氮除磷研究进展[J].硅酸盐通报, 2013, 32(11):2286-2291. SHI Yunfen, WEI Dongxue. Research progress of simultaneous biological nitrogen and phosphorus removal by suspension pachking[J]. Bull Chin Ceram Soc, 2013, 32(11):2286-2291. |
| [27] | 谭阳, 李激, 徐巧, 等.反硝化悬浮填料适用性及其微生物群落结构解析[J].环境科学, 2017, 38(6):2486-2495. TAN Yang, LI Ji, XU Qiao, et al. Applicability and microbial community structure of denitrification suspended carriers[J]. Environ Sci, 2017, 38(6):2486-2495. |