期刊文献+

压力下伪空胞破裂对3种水华蓝藻生长及光合作用的影响 被引量:13

Effects of Gas Vesicle Collapse under Pressure on Growth and Photosynthesis of Three Planktonic Cyanobacteria Strains
下载PDF
导出
摘要 采用批量培养方式,研究了伪空胞的破裂对3种典型水华蓝藻——铜绿微囊藻(Microcystis aeruginosa)、螺旋鱼腥藻(Anabaena spiroides)和孟氏浮游蓝丝藻(Plankothrix mougeotii)生长的影响,同时分析了伪空胞破裂对3种藻光合作用及细胞形态的影响.结果表明,伪空胞破裂对3种藻的生长影响不同,铜绿微囊藻和孟氏浮游蓝丝藻的细胞生长不受伪空胞破裂的影响,而螺旋鱼腥藻生长初期出现了5 d的延滞期;伪空胞破裂对3种藻光合作用影响较小,其中铜绿微囊藻和螺旋鱼腥藻的光合作用没有受到影响,而孟氏浮游蓝丝藻在饱和光强时最大光合作用速率降低了12.6%.铜绿微囊藻、孟氏浮游蓝丝藻及螺旋鱼腥藻细胞在伪空胞破裂后恢复较快,在3~5 d内又重新生成了大部分的伪空胞. The effects of gas vesicle collapse on the growth,photosynthesis and cell morphology of three cyanobacteria strains,Microcystis aeruginosa,Anabaena spiroides and Plankothrix mougeotii,were studied with batch culture experiments.The results showed that the growth of Microcystis aeruginosa and Plankothrix mougeotii strains were not influenced by gas vesicle collapse,but that of Anabaena spiroides was delayed for five days in the primary stage.The effects of gas vesicle collapse on photosynthesis of the three species were very little.Photosynthesis of M.aeruginosa and A.spiroides was not affected by gas vesicle collapse,and only a 12.6% decrease of photosynthesis efficiency occurred in P.mougeotii at the saturated light point.Cell sizes of all three cyanobacteria strains decreased when the gas vesicles were collapsed,but most of the gas vesicles were reformed in 3-5 days.
出处 《环境科学研究》 EI CAS CSCD 北大核心 2012年第1期30-35,共6页 Research of Environmental Sciences
基金 国家环境保护公益性行业科研专项(200809145) 国家自然科学基金项目(51078341 50938007)
关键词 伪空胞 生长 光合作用 蓝藻 gas vesicle growth photosynthesis cyanobacteria
  • 相关文献

参考文献20

  • 1YANG M, YU J W, LI Z L, et al. Tailau Lake not to blame for Wuxi's woes[ J ]. Science ,2008,11 : 158.
  • 2HOEGER S J,SCHMID D, BLOM J F, et al. Analytical and functional characterization of microcystlns [ Asp3 ] MC-RR and [ Asp3 , Dhb7 ] MC-RR: consequences for risk assessment [ J ]. Environ Sci Techno1,2007 ,41:2609-2616.
  • 3REYNOLDS C S, WALSBY A E. Water-blooms [ J ]. Biological Reviews, 1975,50:437-481.
  • 4BONNET M P, POULIN M. Numerical modelling of the planktonic succession in a nutrient-rich reservoir: environmental and physiological factors leading to Microcystis aeruginosa dominance[ J]. Ecological Modelling,2002,156:93-112.
  • 5SMITH V H. Low nitrogen to phosphorus ratios favor dominance by blue-green algae in lake phytoplankton ~ J ]. Science, 1983, 221:669-671.
  • 6ROBARTS R D, ZOHARY T. Temperature effects phytosynthetie capacity, respiration, and growth rates of bloom- forming cyanobacteria [ J]. N Z J Marine and Freshwater Res, 1987,21:391-399.
  • 7SHAPIRO J. Current beliefs regarding dominance by bluegreens: the case for the importance of CO2 and pH[ J ]. IVTLAP, 1990, 24:38-54.
  • 8FULTON R S, PEARL H W. Effects of colonial morphology on zooplankton utilization of algal resources during blue-green algal (Microcystis aeruginosa ) blooms [ J ]. Limnology and Oceanography, 1987,32 ( 3 ) :634-644.
  • 9KONOPKA A. Buoyancy regulation and vertical migration by Oscillatoria rubescens in Crooked Lake, Indiana [ J ]. British Phycological Journal, 1982,17:27-442.
  • 10KONOPKA A, BROCK T D, WALSBY A E. Buoyancy regulation by planktonic blue-green algae in Lake Mendota, Wisconsin[ J]. Archiv fur Hydrobiologie, 1978,83:524-537.

二级参考文献21

  • 1储昭升,金相灿,杨波,庞燕,胡小贞,阎峰,曾清如.不同群体形态蓝藻的气囊与光的相互作用研究[J].环境科学学报,2006,26(11):1909-1913. 被引量:11
  • 2Bright D I,Walsby A E, 1999. The relationship between critical pressure and width of gas vesicles in isolates of Planktothrix rubescens from Lake Zrich [J]. Microbiology, 145 : 2769-2775.
  • 3Brookes J D, Ganf G G, 2001. Variations in the buoyancy response of Microcystis aeruginosa to nitrogen, phosphorus and light[J]. Journal of Plankton Research, 23 (12): 1399-1411.
  • 4Dokulil M T, Teubner K. 2000. Cyanobacterial dominance in lakes[J]. Hydrobiologia, 438:1-12.
  • 5Irene K E,Brunberg A K. 2004. The importance of shallow sediments in the recruitment of anabaena and aphanizomenon (Cyanophyceae) [J], Journal of Phycology, 40:831-836.
  • 6Oliver R L, Ganf G G. 2000. Freshwater blooms[A].// Whitten B A, Potts . The Ecology of Cyanobacleria [C]. Netherlands : Kluwer Acdemic Publishers, 149-194.
  • 7Walsby A E. 1994. Gas vesicles[J]. Microbiol Rev, 58:94-144.
  • 8Walsby A E, Kinsman R, George K I, 1992. The measurement of gas vesicle volume and buoyant density in planktonic bacteria [J]. Journal of Microbiology Methods, 15:293-309.
  • 9Oliver R L, Ganf G G. Freshwater Blooms [A] .In: Whitten B A, Potts ( Eds. ). The Ecology of Cyanobacteria [ M ]. Netherlands : Kluwer Acdemic Publishers, 2000.149- 194.
  • 10Walsby A E. Gas vesicles [J]. Microbiol Rev, 1994, 58:94- 144.

共引文献28

同被引文献154

引证文献13

二级引证文献29

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部