[1] 闫海, 潘纲, 张明明, 等.微囊藻毒素的提取和提纯研究[J].环境科学学报, 2004, 24(2):355-359
[2] 汪小雄, 姜成春, 朱佳, 等.臭氧灭活水中铜绿微囊藻影响因素研究[J].中国环境科学, 2012, 32(4):653-658
[3] Della G M, Isidori M, Lavorgna M, et al. Bioactivity of phenanthrenes from Juncus acutus on Selenastrum capricornutum[J]. Journal of Chemical Ecology, 2004, 30(4): 867-879
[4] 庄源益, 赵凡, 戴树桂, 等.高等水生植物对藻类生长的克制效应[J].环境科学进展, 1995, 6(3): 44-49
[5] Nakai S, Inoue Y, Hosomi M, et al. Growth inhibition of blue-green algae by allelopathic effects of marophytes [J]. Water Science and Technology, 1999, 39(8): 47-53
[6] 花铭, 陈良燕, 尹大强.邻苯三酚和咖啡酸对铜绿微囊藻的化感作用及其机理[J].环境化学, 2008, 27(3): 331-334
[7] 汪小雄, 姜成春, 朱佳, 等.微生物在除藻方面的应用研究[J].工业水处理, 2011, 31(2):1-4
[8] 张彬, 王书敏, 刘小兵, 等.植物化感抑藻物质研究[J].给水排水, 2011, 37(4): 115-121
[9] VYVYAN J R. Allelochemicals as leads for new herbicides and agrochemicals[J]. Tetrahedron, 2002, 58(9): 1631-1646
[10] 肖溪.大麦秸秆对蓝藻化感抑制作用与机理的研究.杭州, 浙江大学博士学位论文, 2012
[11] Everall N C, Lees D R. The identification and significance of chemicals released from decomposing barley straw during reservoir algal control[J]. Water Research, 1997, 31(3), 614-620
[12] Ball A S, Williams M, Vincet, et al. Algal growth control by a barley straw extract[J]. Bioresource Technology, 2001, 77(2): 177-181
[13] 冯菁, 朱擎, 吴为中, 等.稻草浸泡液对藻类抑制作用机制[J].环境科学, 2008, 29 (12):3376-3381
[14] 吴小平, 张平静.发酵稻草抑藻机理研究[J].生态环境, 2006, 15(1):20-22
[15] 苏文, 孔繁翔, 于洋, 等.水稻秸秆浸泡液对铜绿微囊藻生理特性的影响[J].环境科学, 2013, 34(1):150-155
[16] 董昆明, 缪莉, 李楠, 等.广玉兰叶片浸提液中抑铜绿微囊藻化学成分分析[J].环境化学, 2011, 30(12):1253-1258
[17] 靳翠丽, 周晓见, 李楠, 等.广玉兰提取物对铜绿微囊藻抑制作用的机制研究[J].环境污染与防治, 2011, 31(12):50-53
[18] Rippka R, Deruelles J, Waterbury J B, et al. Generic assignments, strain histories and properties of pure cultures of cyanobacteria[J]. Journal of General Microbiology, 1979, 111(1): 1-61
[19] 贾春生.利用SPSS软件计算杀虫剂的LC50[J].昆虫知识, 2006, 43(3):414-417
[20] Xiao X, Chen Y X, Liang X Q, et al. Tibetan hulless barley efficiently inhibited bloom-forming cyanobacterium Microcystis aeruginosa[J]. Chemosphere, 2010, 81(9): 1118-1123
[21] 张余霞, 张玲, 张阳阳, 等.盐京九号水稻秸秆对铜绿微囊藻的抑制作用[J].生态与农村环境学报, 2008, 24 (3): 60-63 , 80
[22] 孙颖颖, 王长海.球等鞭金藻生长抑制物的抑藻机理[J].浙江大学学报, 2009, 35(1):51-57
[23] 李小路, 潘慧云, 徐洁, 等.金鱼藻与铜绿微囊藻共生情况下的化感作用[J]. 环境科学学报, 2008, 28 (11):2243-2249
[24] 陈国元, 唐凯.不同质量浓度黄菖蒲和狭叶香蒲对铜绿微囊藻的化感作用[J].环境工程学报, 2014, 8(2):465-470
[25] Hong Y, Hu H Y, Li F M. Physiological and biochemical effects of Allelo-chemical ethyl 2-methyl acetoacetate (EMA) on cyanobacterium Microcystis aeruginosa[J]. Ecotoxicology and Environmental Safety, 2008, 71(2): 527-534
[26] Kooten O V, Snel J F H. The use of chlorophyll fluorescence nomenclature in plant stress physiology[J]. Photosynthesis Research, 1990, 25(3): 147-150
[27] 梁英, 冯力霞, 尹翠玲, 等.叶绿素荧光技术在微藻环境胁迫研究中的应用现状及前景[J].海洋科学, 2007, 31(1): 71-76
[28] KÜRner S, Nichllisch A. Allelopathic growth inhibition of selected phytoplankton species by submerged macrophytes[J]. Journal of Phycology, 2002, 38(5): 862-871
[29] Wu J, Chiang Y, Huang W, et al. Cytotoxic effects of free fatty acids on phytoplankton algae and cyanobacteria[J]. Aquatic Toxicology, 2006, 80(4): 338-345
[30] Waridel P, Wolfender J L, Lachavanne J B, et al. Ent-Labdane glycosides from the aquatic plant Potamogeton lucensand analytical evaluation of the lipophilic extract constituents of various Potamogeton species[J]. Phytochemistry, 2004, 65(7): 945-954
[31] Nakai S, Yamad S, Hosomi M. Anti-cyanobacterial fatty acids released from Myriophyllum spicatum[J]. Hydrobiologia, 2005, 543(1): 71-78
[32] 姜恒, 吴斌, 阎冰, 等.桉树叶水浸出液对2种海洋微藻生长和叶绿素荧光特性的影响[J].环境科学研究, 2013, 26(11):1186-1193
[33] Chen W, Westerhoff P, Leeneer J A, et al. Fluorescence excitation-emission matrix regional integration to quantify spectra for dissolved organic matter[J]. Environmental Science & Technology, 2003, 37(24):5701-5710
[34] 马敏, 刘锐平, 刘会娟, 等.预氯化对铝盐混凝铜绿微囊藻过程中溶解性有机物和残余铝的影响[J].环境科学学报, 2014, 34(1): 73-78
[35] Huang H M, Xiao X, Ghadouani A, et al. Effects of natural flavonoids on photosynthetic activity and cell integrity in Microcystis aeruginosa[J]. Toxins, 2015, 7: 66-80