[1] 秦伯强. 浅水湖泊湖沼学与太湖富营养化控制研究. 湖泊科学, 2020, 32(5): 1229-1243 [Qin B-Q. Shallow lake limnology and control of eutrophication in Lake Taihu. Journal of Lake Sciences, 2020, 32(5): 1229-1243] [2] Hayes NM, Vanni MJ. Microcystin concentrations can be predicted with phytoplankton biomass and watershed morphology. Inland Waters, 2018, doi:10.1080/20442041.2018.1446408 [3] 舒金华. 我国湖泊富营养化程度评价方法的探讨. 环境污染与防治,1990, 12(5): 2-7 [Shu J-H. The assessment methodology for eutrophication level of lakes in China. Oceanologia et Limnologia Sinica, 1990, 12(5): 2-7] [4] 蔡庆华. 湖泊富营养化综合评价方法. 湖泊科学, 1997, 9(1): 89-94 [Cai Q-H. On the comprehensive evaluation methods for lake eutrophication. Journal of Lake Sciences, 1997, 9(1): 89-94] [5] Phillips G, Lyche-Solheim A, Skjelbred B, et al. A phytoplankton trophic index to assess the status of lakes for the water framework directive. Hydrobiologia, 2013, 704: 75-95 [6] Lepist L, Holopainen AL, Vuoristo H. Type-specific and indicator taxa of phytoplankton as a quality criterion for assessing the ecological status of Finnish boreal lakes. Limnologica, 2004, 34: 236-248 [7] Brettum P, Halvorsen G. The phytoplankton of Lake Atnsjøen, Norway: A long-term investigation. Hydrobiologia, 2004, 521: 141-147 [8] Hilsenhoff WL. An improved biotic index of organic stream pollution. Great Lakes Entomologist, 1987, 20: 31-39 [9] Zhu HM, Chen Q, Wang ZF, et al. Development of water quality evaluation model for urban river networks based on GIS raster data. Journal of Environment & Health, 2015, 32(1): 54-57 [10] Katsiapi M, Moustaka-Gouni M, Michaloudi E, et al. Phytoplankton and water quality in a Mediterranean drinking-water reservoir (Marathonas Reservoir, Greece). Environmental Monitoring & Assessment, 2011, 181: 563-575 [11] 庞清江, 李白英. 东平湖水体富营养化评价. 水资源保护, 2003(5): 42-44 [Pang Q-J, Li B-Y. Evaluation of waters eutrophication in Dongping Lake, China. Water Resources Protection, 2003(5): 42-44] [12] Hessen DO, Faafeng BA, Smith VH, et al. Extrinsic and intrinsic controls of zooplankton diversity in lakes. Ecology, 2006, 87: 433-443 [13] Janauer GA. Is what has been measured of any direct relevance to the success of the macrophyte in its particular environment? Journal of Limnology, 2001, 60(suppl. 1): 33-38 [14] Kocic A, Hengl T, Horvatic J. Water nutrient concentrations in channels in relation to occurrence of aquatic plants: A case study in eastern Croatia. Hydrobiologia, 2008, 603: 253-266 [15] 易雨君, 林楚翘, 唐彩红. 1960s以来白洋淀水文、环境、生态演变趋势. 湖泊科学, 2020, 32(5): 1333-1347 [Yi Y-J, Lin C-Q, Tang C-H. Hydrology, environment and ecological evolution of Lake Baiyangdian since 1960s. Journal of Lake Sciences, 2020, 32(5): 1333-1347] [16] 邱琳. 白洋淀干淀原因与对策分析. 水科学与工程技术, 2017(4): 38-41 [Qiu L. Analysis of the causes and countermeasures of drying up of Baiyangdian wetland. Water Sciences and Engineering Technology, 2017(4): 38-41] [17] 赵翔, 崔保山, 杨志峰. 白洋淀最低生态水位研究. 生态学报, 2005, 25(5): 1033-1040 [Zhao X, Cui B-S, Yang Z-F. A study of the lowest ecological water level of Baiyangdian Lake. Acta Ecologica Sinica, 2005(5): 1033-1040] [18] 王文林, 吴新玲, 王占峰. 引黄济淀对白洋淀的生态效益分析. 水利建设与管理, 2011, 31(7): 37-39 [Wang W-L, Wu X-L, Wang Z-F. Ecological impacts of water diversion from Yellow River in Baiyangdian Lake. Water Conservancy Construction and Management, 2011, 31(7): 37-39] [19] 杨薇, 孙立鑫, 王烜, 等. 生态补水驱动下白洋淀生态系统服务演变趋势. 农业环境科学学报, 2020, 39(5): 1077-1084 [Yang W, Sun L-X, Wang H, et al. Changes in ecosystem services in Baiyangdian Lake driven by environmental flow releases. Journal of Agro-Environment Science, 2020, 39(5): 1077-1084] [20] Chandrasekaran S. Adaptive environmental assessment and management. Fire Safety Journal, 1978, 42(1): 11-24 [21] 王钦. 海河流域典型水域沉水植物水质指标作用研究. 博士论文. 北京: 北京师范大学, 2011 [Wang Q. Using Submerged Macrophytes as Water Quality Indicators in Typical Regions of Haihe Rivers Basin. PhD Thesis. Beijing: Beijing Normal University, 2011] [22] 王明翠, 刘雪芹, 张建辉. 湖泊富营养化评价方法及分级标准. 中国环境监测, 2002, 18(5): 47-49 [Wang M-C, Liu X-Q, Zhang J-H. Evaluate method and classification standard on lake eutrophication. Environmental Monitoring in China, 2002, 18(5): 47-49] [23] 金相灿, 屠清瑛. 湖泊富营养化调查规范. 北京: 中国环境科学出版社, 1990 [Jin X-C, Tu Q-Y. Survey Specification of Lake Eutrophication. Beijing: China Environmental Science Press, 1990] [24] Bonilla S, Aubriot L, Soares MCS, et al. What drives the distribution of the bloom-forming cyanobacteria Planktothrix agardhii and Cylindrospermopsis raciborskii. FEMS Microbiology Ecology, 2012, 79: 594-607 [25] Lu XT, Tian C, Pei HY, et al. Environmental factors influencing cyanobacteria community structure in Dongping Lake, China. Journal of Environmental Sciences, 2013, 25(11): 32-42 [26] 孙祥, 朱广伟, 杨文斌, 等. 天目湖沙河水库浮游植物群落结构的时空异质性. 环境科学, 2017, 38(10): 4160-4168 [Sun X, Zhu G-W, Yang W-B, et al. Spatio-temporal variations in phytoplankton community in Shahe Reservoir, Tianmuhu, China. Environmental Science, 2017, 38(10): 4160-4168] [27] 马克平, 刘玉明. 生物群落多样性的测度方法Ⅰα多样性的测度方法(下). 生物多样性, 1994, 2(4): 231-239 [Ma K-P, Liu Y-M. Measurement of biotic community diversity. Ⅰ. Measurement of α diversity (part 2). Biodiversity Science, 1994, 2(4): 231-239] [28] 王备新. 大型底栖无脊椎动物水质生物评价研究. 博士论文. 南京: 南京农业大学, 2003 [Wang B-X. Water Quality Bioassessment Using Benthic Macroinvertebrates. PhD Thesis. Nanjing: Nanjing Agricultural University, 2003] [29] 张潋波, 刘东晓, 刘朔孺, 等. 钱塘江中游水生昆虫群落功能多样性对土地利用变化的响应. 应用生态学报, 2013, 24(10): 2947-2954 [Zhang L-B, Liu D-X, Liu S-R, et al. Responses of functional diversity of aquatic insect community to land use change in middle reach of Qiantang River, East China. Chinese Journal of Applied Ecology, 2013, 24(10): 2947-2954] [30] 王晓清, 曾亚英, 吴含含, 等. 湘江干流浮游生物群落结构及水质状况分析. 水生生物学报, 2013, 37(3): 488-494 [Wang X-Q, Zeng Y-Y, Wu H-H, et al. Investigation on plankton community composition and water quality state in the mainstream of Xiangjiang River. Acta Hydrobiologica Sinica, 2013, 37(3): 488-494] |