环境有机污染物对藻类生长作用的研究进展
ADVANCE IN THE STUDIES ON EFFECT OF ENVIRONMENTAL ORGANIC POLLUTANTS ON THE ALGAE GROWTH
-
摘要: 随着现代工农业的迅速发展和城市人口的增加 ,越来越多的工业废弃物、残留农药、生活垃圾等有机污染物通过各种途径进入到环境中。这些有机污染物主要包括两大类 ,它们分别是有机无毒物和有机有毒物。
-
Keywords:
- Environmental organic pollutants /
- Algae /
- Growth effects /
- Toxic effects
-
-
[1] 高玉荣. 杀虫刹单甲脒对绿藻的毒性研究[J]. 环境科学学报,1995, 15(2):92-98[2] Wong P K, Chang L. The effect of 2,4-D herbicide and organophsphor us insecticides on growth, photosynthesis, and chlorophyll a synthesis of Chla mydomonas reinhardtii)mt+)[J]. Environ. Pollut., 1988, 55:179-189[3] Wong P K. Effect of 2,4-D, glyphosate and paraquat on growth, phot osynthesis and Chorohpyll-asynthesis of Scenedesums quadricauda Berb 614[J ]. Chemosphere,2000, 41:177-182[4] Tian S Z, Liu Z, Weng J H, et al. Growth of Ghlorella vulgaris in cultures with low concentration dimethoate as source of phosphorus [J]. Chemosphere, 1997, 35(11):2713-2718[5] 唐学玺,李永祺. 对硫磷对三角褐指藻核酸和蛋白质合成动态的影响[J]. 生态学报,2000, 20(4):598-600[6] Doggett S M, Rhodes R G. Effects of a diazinon formulation on unial gal growth rates and phytoplanton diversity [J]. Bull. Environ. Contam. Toxi col., 1991, 47:36-42[7] El-dib Response of freshwater algae)Scenedeamus spp.)to phen ylurea herbicides [J]. Water Air and Soil Pollution., 1991,55:295-303[8] 李建宏,袁俊,倪霞,等.酚对极大螺旋藻生长的影响[J]. 水生生物学报,2001,25(3):293-296[9] 司友斌,岳永德,吴在鹏,等. 铜绿微囊藻对苯酚的富集与降解[J]. 安徽农业大学学报,2000,27(3):269-271[10] 谢荣,唐学玺,李永祺,等. 丙溴磷影响海洋微藻生长机理的初步研究[J ]. 环境科学学报,2000, 20(4):437-477[11] Stebbling A R D. Hormesis-the stimulation of growth by low of inh ibitors [J]. Sci. Tol. Environ.,1982, 22:213-234[12] Perona E. Alteration of dinitrogen fixing and metabolism in cyanob acterium Anabaena PCC7119 by phosphamidon [J]. Environ. and Botany., 1 991, 31(4):479-488[13] Chen F. Zhang Y M, Guo S Y. Growth and phycocyanin formation of Spirulina platensis in photoheterotrophic culture [J]. Biotechnology Lette rs, 1996, 18(5):603-608[14] Zhang Y M, Chen F, Guo S Y. The growth and phycocyanin content of Spirulina platensis on different carbon sources in mixotrophic culture [J ]. Journal of South China University of Technology, 1996, 24(6):130-133[15] 沈国兴,严国安,彭金良,等. 农药对藻类的生态毒学研究Ⅱ[J]. 环境科学进展,1999,7(6):131-140[16] Wei L P, Yu H X, Sun Y, et al. The effects of three sulfonylurea he rbicides and their degradation products on the green algae Chlorella pyrenoidosa [J]. Chemosphere, 1998,37(4):747-751[17] Yan G A, Jiang J W, Wu G, et al. Disappearance of linear alkylbenz ene sulfonate from different culture with Anabaena sp. HB1017[J]. Bull. Environ. Contam, Toxicol., 1998, 60:329-334[18] Stratton G W. Effect of the solvent acetone on membrane integrity in the green alga Chlorella pyranoidose [J]. Bull. Environ. Contam. Toxi col., 1989, 42:754-760[19] Phlips E J. Effect of the herbicide diquat on the growth of microal gae and cyanobacteria [J]. Bull. Environ. Contam. Toxicol., 1992, 49:750-756[20] 唐学玺,李永祺,黄健. 对硫磷对扁藻和杜氏藻膜脂的过氧化与脱酯化伤害 [J]. 海洋与湖沼,1999, 30(3):295-299[21] 沈国兴,严国安,余新,等. 萘及其衍生物对普通小球藻的毒性效应[J]. 水生生物学报,1999,23(5):460-468[22] Mohapatra P K, Schubert H, Schiewer U. Effect of dimet hoate on photosynthesis and pigment fluorescence of Synethocystis sp. PCC 68 03 [J]. Ecotoxicology and Environmental Safety, 1997, 36: 231-237[23] 汝少国,李永祺,敬永畅. 十种有机磷农药对扁藻的毒性[J]. 环境科学学报, 1996, 16(3):337-341[24] 王翠红,徐建红,辛晓芸,等. 六种有机磷农药及三种重金属离子对小球藻的毒性的研究[J]. 河南科学,1999,17(专辑):108-110[25] Mophapatta. Growth pattern changes of Chlorella vulgaris and Anabaena doliolum due to toxicity of dimethoate and endosulfan [J]. Bull. Environ. Contam. Toxicol., 1992, 49:576-581[26] Sabater C, Carrasco J M. Effect of chlorsulfuron on growth of thre e freshwater species of phytoplankton [J]. Bull. Environ. Contam. Toxicol., 1997, 58:807-813[27] Halling-Sorensen B. Algal toxicity of antibacterial agents used i n intensive farming [J]. Chemosphere, 2000, 40:731-739[28] Leboulanger C, Rimet F, Lacotte M H, et al. Effect of atrazine and nicosulfuron on freshwater microalgae [J]. Environment Intemational, 2001 , 26:131-135[29] Nakai S, Inoue Y, Hosomi M. Algal growth inhibition effects and in ducement modes by plant-producing phenols [J]. Wat. Res., 2001, 35(7):1851-1859[30] Blum D J W, Speece R E. Determining chemical toxicity to aquatic s pecies)the use of QSARs and surrogate organisms)[J]. Environ. Sci. Techno l., 1990, 24(3):284-293[31] Hermens J. Prediction of environmental toxicity based on structure -activity relationships mechanistic information [J]. Science of the Total E nvironment, 1995, 171(1-3):235-242[32] Lipnick R L, Research needs in developing structure activity relat ionships [R]. In: Bahner R C., Hansen D. J. ed, Aquatuc Toxicology and Harzard Asseeement Eighth Symposium. Philadelpia: ASTM Special Techincal Publication, 78-82[33] Lipnick R. L., Baseline Toxicity QSAR Models: A means to assess me chanism of toxicity for aquatic organisms and mammals [R]. In: Bahner R. C., Hansen D. J. ed, Aquatuc Toxicology and Harzard Asseeement: Eighth Symposium. Ph iladelpia: ASTM Special Techincal Publication, 610-619[34] Lu G H, Yuan X, Zhao Y H. QSAR study on the toxicity of substitut ed benzenes to the algae [J]. Chemosphere, 2001, 44:437- 440[35] Yan G A, Yan X, Wu W. Effects of the herbicide molinate on mixotro phic growth, photosynthetic pigments, and protein content of Anabaena sphaeric a under different light conditions [J]. Ecotoxicol and Environ Safety, 19 97, 38:144-149[36] Kasai F, et al. Eflect of simetryne on growth of virious freshwate r algal taxa [J]. Environ. Pollut., 1993, 79:77-83[37] Mohapatra P K. Different effect of dimethoate toxicity to Anabaena doliolum with change in nutrient status [J]. Bull. Environ. Contam. Toxicol ., 1990, 48:223-229[38] Okay O S, Gaines A. Toxicity of 2,4-D acid to phytoplankton [J] . Wat. Res., 1996, 30(3):688-696[39] Ball A S, Williams M, Vincent D, et al. Algal growth control by a barley straw extract [J]. Bioresource Technology, 2001, 77 :177-181[40] 万宏,张均.降解稻草对蓝藻生长的抑制作用[J]. 北京大学学报(自然科学版),2000,36(4):485-488 高玉荣. 杀虫刹单甲脒对绿藻的毒性研究[J]. 环境科学学报,1995, 15(2):92-98[2] Wong P K, Chang L. The effect of 2,4-D herbicide and organophsphor us insecticides on growth, photosynthesis, and chlorophyll a synthesis of Chla mydomonas reinhardtii)mt+)[J]. Environ. Pollut., 1988, 55:179-189[3] Wong P K. Effect of 2,4-D, glyphosate and paraquat on growth, phot osynthesis and Chorohpyll-asynthesis of Scenedesums quadricauda Berb 614[J ]. Chemosphere,2000, 41:177-182[4] Tian S Z, Liu Z, Weng J H, et al. Growth of Ghlorella vulgaris in cultures with low concentration dimethoate as source of phosphorus [J]. Chemosphere, 1997, 35(11):2713-2718[5] 唐学玺,李永祺. 对硫磷对三角褐指藻核酸和蛋白质合成动态的影响[J]. 生态学报,2000, 20(4):598-600[6] Doggett S M, Rhodes R G. Effects of a diazinon formulation on unial gal growth rates and phytoplanton diversity [J]. Bull. Environ. Contam. Toxi col., 1991, 47:36-42[7] El-dib Response of freshwater algae)Scenedeamus spp.)to phen ylurea herbicides [J]. Water Air and Soil Pollution., 1991,55:295-303[8] 李建宏,袁俊,倪霞,等.酚对极大螺旋藻生长的影响[J]. 水生生物学报,2001,25(3):293-296[9] 司友斌,岳永德,吴在鹏,等. 铜绿微囊藻对苯酚的富集与降解[J]. 安徽农业大学学报,2000,27(3):269-271[10] 谢荣,唐学玺,李永祺,等. 丙溴磷影响海洋微藻生长机理的初步研究[J ]. 环境科学学报,2000, 20(4):437-477[11] Stebbling A R D. Hormesis-the stimulation of growth by low of inh ibitors [J]. Sci. Tol. Environ.,1982, 22:213-234[12] Perona E. Alteration of dinitrogen fixing and metabolism in cyanob acterium Anabaena PCC7119 by phosphamidon [J]. Environ. and Botany., 1 991, 31(4):479-488[13] Chen F. Zhang Y M, Guo S Y. Growth and phycocyanin formation of Spirulina platensis in photoheterotrophic culture [J]. Biotechnology Lette rs, 1996, 18(5):603-608[14] Zhang Y M, Chen F, Guo S Y. The growth and phycocyanin content of Spirulina platensis on different carbon sources in mixotrophic culture [J ]. Journal of South China University of Technology, 1996, 24(6):130-133[15] 沈国兴,严国安,彭金良,等. 农药对藻类的生态毒学研究Ⅱ[J]. 环境科学进展,1999,7(6):131-140[16] Wei L P, Yu H X, Sun Y, et al. The effects of three sulfonylurea he rbicides and their degradation products on the green algae Chlorella pyrenoidosa [J]. Chemosphere, 1998,37(4):747-751[17] Yan G A, Jiang J W, Wu G, et al. Disappearance of linear alkylbenz ene sulfonate from different culture with Anabaena sp. HB1017[J]. Bull. Environ. Contam, Toxicol., 1998, 60:329-334[18] Stratton G W. Effect of the solvent acetone on membrane integrity in the green alga Chlorella pyranoidose [J]. Bull. Environ. Contam. Toxi col., 1989, 42:754-760[19] Phlips E J. Effect of the herbicide diquat on the growth of microal gae and cyanobacteria [J]. Bull. Environ. Contam. Toxicol., 1992, 49:750-756[20] 唐学玺,李永祺,黄健. 对硫磷对扁藻和杜氏藻膜脂的过氧化与脱酯化伤害 [J]. 海洋与湖沼,1999, 30(3):295-299[21] 沈国兴,严国安,余新,等. 萘及其衍生物对普通小球藻的毒性效应[J]. 水生生物学报,1999,23(5):460-468[22] Mohapatra P K, Schubert H, Schiewer U. Effect of dimet hoate on photosynthesis and pigment fluorescence of Synethocystis sp. PCC 68 03 [J]. Ecotoxicology and Environmental Safety, 1997, 36: 231-237[23] 汝少国,李永祺,敬永畅. 十种有机磷农药对扁藻的毒性[J]. 环境科学学报, 1996, 16(3):337-341[24] 王翠红,徐建红,辛晓芸,等. 六种有机磷农药及三种重金属离子对小球藻的毒性的研究[J]. 河南科学,1999,17(专辑):108-110[25] Mophapatta. Growth pattern changes of Chlorella vulgaris and Anabaena doliolum due to toxicity of dimethoate and endosulfan [J]. Bull. Environ. Contam. Toxicol., 1992, 49:576-581[26] Sabater C, Carrasco J M. Effect of chlorsulfuron on growth of thre e freshwater species of phytoplankton [J]. Bull. Environ. Contam. Toxicol., 1997, 58:807-813[27] Halling-Sorensen B. Algal toxicity of antibacterial agents used i n intensive farming [J]. Chemosphere, 2000, 40:731-739[28] Leboulanger C, Rimet F, Lacotte M H, et al. Effect of atrazine and nicosulfuron on freshwater microalgae [J]. Environment Intemational, 2001 , 26:131-135[29] Nakai S, Inoue Y, Hosomi M. Algal growth inhibition effects and in ducement modes by plant-producing phenols [J]. Wat. Res., 2001, 35(7):1851-1859[30] Blum D J W, Speece R E. Determining chemical toxicity to aquatic s pecies)the use of QSARs and surrogate organisms)[J]. Environ. Sci. Techno l., 1990, 24(3):284-293[31] Hermens J. Prediction of environmental toxicity based on structure -activity relationships mechanistic information [J]. Science of the Total E nvironment, 1995, 171(1-3):235-242[32] Lipnick R L, Research needs in developing structure activity relat ionships [R]. In: Bahner R C., Hansen D. J. ed, Aquatuc Toxicology and Harzard Asseeement Eighth Symposium. Philadelpia: ASTM Special Techincal Publication, 78-82[33] Lipnick R. L., Baseline Toxicity QSAR Models: A means to assess me chanism of toxicity for aquatic organisms and mammals [R]. In: Bahner R. C., Hansen D. J. ed, Aquatuc Toxicology and Harzard Asseeement: Eighth Symposium. Ph iladelpia: ASTM Special Techincal Publication, 610-619[34] Lu G H, Yuan X, Zhao Y H. QSAR study on the toxicity of substitut ed benzenes to the algae [J]. Chemosphere, 2001, 44:437- 440[35] Yan G A, Yan X, Wu W. Effects of the herbicide molinate on mixotro phic growth, photosynthetic pigments, and protein content of Anabaena sphaeric a under different light conditions [J]. Ecotoxicol and Environ Safety, 19 97, 38:144-149[36] Kasai F, et al. Eflect of simetryne on growth of virious freshwate r algal taxa [J]. Environ. Pollut., 1993, 79:77-83[37] Mohapatra P K. Different effect of dimethoate toxicity to Anabaena doliolum with change in nutrient status [J]. Bull. Environ. Contam. Toxicol ., 1990, 48:223-229[38] Okay O S, Gaines A. Toxicity of 2,4-D acid to phytoplankton [J] . Wat. Res., 1996, 30(3):688-696[39] Ball A S, Williams M, Vincent D, et al. Algal growth control by a barley straw extract [J]. Bioresource Technology, 2001, 77 :177-181[40] 万宏,张均.降解稻草对蓝藻生长的抑制作用[J]. 北京大学学报(自然科学版),2000,36(4):485-488
-
期刊类型引用(13)
1. 杨涵,龚艺,甄鹏,谢明花,刘敏,周于琳,李熙银,周莉,桂建芳,王忠卫. 六个繁育场异育银鲫的克隆系鉴定及特征分析. 水生生物学报. 2025(02): 158-168 . 
本站查看
2. 彭飞,方弟安,周彦锋,唐永凯,徐东坡,刘凯,苏胜彦,尤洋. 中华绒螯蟹三龄群体的生物学可塑性初探. 浙江大学学报(农业与生命科学版). 2022(01): 86-95 . 百度学术
3. 黄茂坤,赖谱富. 人工养殖蓝圆鲹肌肉营养成分的分析与评价. 武汉轻工大学学报. 2022(06): 44-52 . 百度学术
4. 刘海平,刘乐乐. 基于SOM模糊识别的鲤科鱼类与鲶形目鱼类氨基酸营养价值研究. 高原科学研究. 2021(01): 1-7 . 百度学术
5. 蒋文枰,贾永义,刘士力,程顺,迟美丽,郑建波,李飞,顾志敏. 鲌鲂F_1、F_2及其亲本肌肉营养成分的比较分析. 浙江农业学报. 2020(07): 1166-1175 . 百度学术
6. 许元峰,胡炜. 大鳞副泥鳅、泥鳅和北方泥鳅肉质比较分析. 水生生物学报. 2020(06): 1222-1229 . 本站查看
7. 程小飞,宋锐,徐远琴,袁希平,李成,伍远安,邓大青,李鸿,李金龙. 网箱养殖刺鲃肌肉营养成分分析及评价. 现代食品科技. 2019(06): 245-250+236 . 百度学术
8. 颜孙安,姚清华,林香信,胡兵,林虬. 不同养殖密度瓦氏黄颡鱼肌肉营养成分分析与评价. 食品安全质量检测学报. 2019(19): 6637-6644 . 百度学术
9. 杨东辉,吴坤杰,杨治国,伦峰. 生态养殖黄鳝与野生黄鳝营养成分和氨基酸含量及重金属元素残留比较分析. 黑龙江畜牧兽医. 2018(13): 199-202 . 百度学术
10. 张君,陈露,余鹏,周清妍,杨小丽,周伟尚,沈保平,苏时萍,万全,桂建芳. 中华鳖4个品系营养成分分析与比较. 水生生物学报. 2018(04): 770-778 . 本站查看
11. 王永明,史晋绒,谢碧文,唐瑞,王淯,齐泽民. 不同年龄段养殖宽体沙鳅肌肉营养成分分析与评价. 水生生物学报. 2018(03): 542-549 . 本站查看
12. 王桢璐,姚东林,郑钧,邹记兴,周爱国. 三种鲤亚科鱼类的肌肉营养成分分析与评价. 水产养殖. 2017(07): 39-42 . 百度学术
13. 李忠,梁宏伟,王忠卫,邹桂伟,桂建芳. 四倍体异育银鲫新品种“长丰鲫”肌肉品质和营养成分分析. 水生生物学报. 2016(04): 853-858 . 本站查看
其他类型引用(1)
计量
- 文章访问数:
- HTML全文浏览量: 0
- PDF下载量:
- 被引次数: 14
下载: