帮助 关于我们

返回检索结果

高温培养条件下爪哇伪枝藻的生理特性和超微结构特征
PHYSIOLOGICAL AND ULTRASTRUCTURAL CHARACTERISTICS OF SCYTONEMA JAVANICUM UNDER HIGH TEMPERATURE

查看参考文献31篇

文摘 荒漠生物结皮广泛分布于干旱区环境,高温是影响生物结皮中藻类生存的重要环境因子。在实验室培养条件下,以生物结皮形成和发育中的重要优势种爪哇伪枝藻(Scytonema javanicum Born et Flah)为材料,研究高温胁迫对伪枝藻生理生化特性和细胞结构的影响。设置了25℃(对照)、35℃、40℃和45℃等不同高温处理,测定了短期(6h)和长期(15d)高温条件下,S.javanicum的光合活性、光合色素、多糖含量和丙二醛含量以及细胞超微结构的变化。结果表明,S.javanicum最大光化学量子产量F_v/F_m和PSII有效光化学量子产量Φ_(PSII)在35℃下表现出最大值。40℃高温明显抑制藻体叶绿素a合成,35℃处理促进了叶绿素a合成(高于对照值),而40℃处理明显促进了藻体类胡萝卜素合成,高于对照处理和35℃处理。随温度升高,S.javanicum丙二醛、胞内可溶性糖和胞外多糖含量呈现出逐渐增大的趋势。透射电镜切片显示,40℃高温明显破坏了藻体细胞超微结构,如原生质体出现絮状形态和空泡化,35℃处理则有利于细胞形态结构的保持和稳定。以上结果初步证实了S.javanicum能够较好地耐受适当的高温(35℃)。研究对于了解S.javanicum对高温环境的耐受程度及对高温的适应性具有一定的理论意义,并对利用荒漠蓝藻治理荒漠化具有实际指导价值。
其他语种文摘 Soil biological crusts distribute widely in arid environment,and high temperature stress is a critical environmental factor on algal survival in these areas.During summer and autumn,temperature of desert biological crusts rise rapidly under the intense sun radiation.Scytonema javanicum Born et Flah is one of the important dominant species in biological soil crust and distributes at the outermost layer of biological soil crust.Consequently,S.javanicum are often suffered from high temperature.It is necessary to take into account the survival of S.javanicum in the desert environment.However,the impact of high temperature on desert algae was rarely reported.So,S.javanicum was used as experimental material,the effect of different high temperature(25℃ as control,35℃,40℃ and 45℃) on physiological,biochemical characteristics,and cell structure were studied in the laboratory in order to illuminate the tolerance and adaptation mechanisms of desert algae under high temperature.The results showed that chlorophyll a synthesis increased while carotenoid synthesis decreased under 35℃;on the contrary,carotenoid synthesis accelerated while chlorophyll a synthesis retarded under 40℃,contents of carotenoid in 40℃ were significant higher than those in control and 35℃ treaments.Changes of photosynthetic pigment content in S.javanicum under different temperatures generated variance in photosynthesis efficiency.As for the short term(6h) treatments,the maximum photochemical efficiency(F_v/F_m) and actual photochemical efficiency(Φ_(PSII)) of S.javanicum were significantly promoted under 35℃,while Fv/Fm and ΦPSII were inhibited under 40℃.For 45℃ treatments,photosynthetic activity of S.javanicum could not be detected after 2h,whose photosynthetic organs were irreversibly damaged and could not be restored.As to the long term(15d) treatments,there was no significant difference between 35℃ treatments and controls in F_v/F_m and Φ_(PSII) of S.javanicum.However,the maximum photochemical efficiency(F_v/F_m) and actual photochemical efficiency(Φ_(PSII)) of S.javanicum were noticeably restrained in 40℃ treatments.With the increasing of temperature,lipid peroxidation in S.javanicum increased gradually,and content of malondialdehyde(MDA) also enhanced.MDA contents of S.javanicum in 40℃ treatments were significant higher than those in control and 35℃ treatments.At the same time,with the temperature increasing,the membrane structures in cells of S.javanicum were more and more fragile.And the polysaccharides,as osmotic regulation substances,play important roles in preventing the damages of high temperature on membrane.Accordingly,the higher the temperature was,the more the contents of extracellular polysaccharides and intracellular soluble sugar outside and inside S.javanicum.Especially,content of extracellular polysaccharides outside S.javanicum in 40℃ treatments was almost 8 times than that of controls.Photographs of transmission electron microscope(TEM) sections of S.javanicum showed that cell structures were not damaged in 35℃ treatments,cellular morphologies were more stable,while the ultrastructures of algal cells were significantly damaged in 40℃,the protoplasts were flocculent and vacuolar finally.All these results confirmed that S.javanicum could withstand appropriate high temperature(35℃).This study has some theoretical significance in understanding the tolerance and adaptability of S.javanicum to high temperatures,and has actual guidance value in controlling desertification by use of desert cyanobacteria.
来源 水生生物学报 ,2012,36(4):735-743 【核心库】
关键词 生物结皮 ; 爪哇伪枝藻 ; 高温胁迫 ; 生理特性 ; 超微结构
地址

中国科学院水生生物研究所, 淡水生态与生物技术国家重点实验室, 武汉, 430072

语种 中文
ISSN 1000-3207
学科 植物学
基金 中国博士后科学基金 ;  武汉市科技局与内蒙古自治区发改委重大科技产业化专项
文献收藏号 CSCD:4617345

参考文献 共 31 共2页

1.  Belnap J. Biological soil crusts: ecology and management,2001:29-40 被引 1    
2.  Bowker M A. Biological crusts as a model system for examining the biodiversity ecosystem function relationship in soils. Soil Biology & Biochemistry,2010,42(3):405-417 被引 17    
3.  Liu Y D. Control of lunar and martian dust-experimental insights from artificial and natural cyanobacterial and algal crusts in the Desert of Inner Mongolia, China. Astrobiology,2008,8(1):75-86 被引 3    
4.  杨晓辉. 生物土壤结皮-荒漠化地区土壤研究的热点问题. 生态学报,2001,21(3):474-480 被引 18    
5.  Belnap J. The world at your feet: desert biological soil crusts. Frontiers in Ecology and the Environment,2003,1(5):181-189 被引 69    
6.  魏江春. 沙漠生物地毯工程--干旱沙漠治理的新途径. 干旱区研究,2005,22(3):287-288 被引 44    
7.  胡春香. 半荒漠藻结皮中藻类的种类组成和分布. 应用生态学报,2000,11(1):61-65 被引 46    
8.  Proteau P J. The structure of scytonemin, an ultraviolet sunscreen pigment from the sheaths of cyanobacteria. Experientia,1993,49:825-829 被引 8    
9.  Tang D S. Physiological and biochemical responses of Scytonema javanicum (cyanobacterium) to salt stress. Journal of Arid Environments,2007,71:312-320 被引 5    
10.  陈兰周. 盐胁迫对爪哇伪枝藻(Scytonema javanicum)生理生化特性的影响. 中国沙漠,2003,23(3):285-288 被引 26    
11.  饶本强. 生态环境因子对荒漠藻及其结皮生长发育的影响研究. 博士学位论文,2009 被引 1    
12.  Ting C S. Limitations of the pulse-modulated technique for measuring the fluorescence characteristics of algae. Plant Physiology,1992,100:367-373 被引 4    
13.  Genty B. The relationship between the quantum yield of photosynthetic electron transport and quenching of chlorophyll fluorescence. Biochimica et Biophysica Acta,1989,990:87-92 被引 832    
14.  李合生. 植物生理生化实验原理和技术,2000:134-260 被引 554    
15.  Mazor G. The role of cyanobacterial exopolysaccharides in structuring desert microbial crusts. FEMS Microbiology Ecology,1996,21:121-130 被引 28    
16.  梁英. 高温胁迫对三角褐指藻和纤细角毛藻叶绿素荧光动力学的影响. 中国海洋大学学报,2006,36(3):427-433 被引 16    
17.  梁英. 高温胁迫对盐藻和塔胞藻叶绿素荧光动力学的影响. 中国水产科学,2007,14(6):961-968 被引 17    
18.  饶本强. 外源糖对爪哇伪枝藻低温胁迫耐受性的影响. 信阳师范学院学报: 自然科学版,2010,23(3):384-388 被引 3    
19.  Daniele D R. A review of recent studies on malondialdehyde as toxic molecule and biological marker of oxidative stress. Nutrition, Metabolism & Cardiovascular Diseases,2005,15:316-328 被引 105    
20.  Halliwell B. Free Radicals in Biology and Medicine. 3rd Edition,1999:228-233 被引 1    
引证文献 6

1 卢菁菁 发光二极管光质对念珠藻葛仙米生长及生理生化特性的影响 水生生物学报,2014,38(2):257-261
被引 2

2 雷亚萍 共生与非共生爪哇伪枝藻对高温胁迫的响应 水生生物学报,2017,41(3):671-676
被引 1

显示所有6篇文献

论文科学数据集
PlumX Metrics
相关文献

 作者相关
 关键词相关
 参考文献相关

版权所有 ©2008 中国科学院文献情报中心 制作维护:中国科学院文献情报中心
地址:北京中关村北四环西路33号 邮政编码:100190 联系电话:(010)82627496 E-mail:cscd@mail.las.ac.cn 京ICP备05002861号-4 | 京公网安备11010802043238号