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1.
不同海拔火绒草光合特性的研究   总被引:6,自引:0,他引:6  
对生长于青藏高原东北部3个不同海拔地区(2300、2700和3800m)的火绒草叶片的光合特性进行了比较研究。结果发现,随着海拔的升高,叶绿素含量有降低的趋势,而叶绿素a/b比值及类胡萝卜素相对含量呈上升趋势。与海拔2300m处的相比,生长于海拔3800m处的火绒草的净光合速率、表观量子效率和光补偿点较低,但光饱和点较高。研究表明,火绒草在光合特性上的变化是对逆境的一种适应.是青藏高原特殊生态条件长期胁迫的结果。  相似文献   

2.
达坂山蚤缀和裸茎金腰叶绿体超微结构的研究   总被引:7,自引:3,他引:4  
杜军华  吴健等 《西北植物学报》2001,21(5):1031-1034,T001
对高山植物达坂山蚤缀和裸茎金腰叶绿体超微结构的研究表明,叶绿体和线粒体镶嵌很紧密;基粒和基质类囊体膨大,膨大的类囊体呈梭形或圆形,没有发现脂质小球的存在;基粒叠垛程度很低,平均每个基粒类囊体的片层数为5.4。这2种高山植物叶绿体超微结构上的特征是青藏高原特殊的生态条件,包括低温、低气压、强辐射影响的结果。  相似文献   

3.
盐胁迫下芦苇叶肉细胞超微结构的研究   总被引:18,自引:0,他引:18  
对青藏高原柴达木盆地柯柯盐湖边盐碱地上生长的芦苇叶肉细胞的超微结构进行了研究,并以西宁地区非盐碱地上生长的芦苇作对照。结果表明:西宁地区的芦苇叶肉细胞的叶绿体呈椭圆形,其膜系统完整,基粒片层和基质片层发育良好。在盐碱地上生长的芦苇叶肉细胞的叶绿体呈圆形,叶绿体内出现较大的淀粉粒,并发现有线粒体嵌入叶绿体的现象。叶绿体的类囊体膨大,线粒体的嵴也有膨大的现象。在盐湖水中生长的芦苇叶肉细胞,叶绿体的类囊体排列紊乱、扭曲、松散。类囊体膜局部被破坏,部分类囊体膜解体,空泡化,甚至消失,一些溶解了的类囊体流进细胞质中。综上所述,芦苇叶肉细胞超微结构的变化是该植物适应柯柯盐湖地区盐渍、低温、低气压、强辐射等环境因子的结果。  相似文献   

4.
采用石蜡制片、扫描电镜和透射电镜方法,研究了祁连山植被垂直分布带海拔2300、3200和3900 m 珠芽蓼叶片组织结构、叶表皮特征和叶绿体超微结构对海拔升高的适应性变化。结果表明: 珠芽蓼为异面叶,随海拔升高,叶片表皮毛数目减少而直径增大变粗,表皮蜡质层结构更加致密。叶片厚度在海拔3200 m最大,分别比海拔2300和3900 m增加了39.6%和50.5%。从海拔2300到3200 m,栅栏组织细胞层数由2层增加为3层且细胞排列紧密,海绵组织细胞间隙逐渐增大;在海拔3900 m处,栅栏组织细胞层数减少至2层且细胞间隙增加,海绵组织细胞间隙减小,表皮细胞厚度增加,但细胞层数在3个海拔间无显著差异。随海拔升高,叶下表皮附属物和气孔下室物质的积累增加,气孔密度增加,张度降低,气孔位置由表皮拱起变为内陷。从海拔2300到3200 m,基粒片层由6~9层增至8~12层;至海拔3900 m,基粒片层降为 2~3层且片层之间变得致密,基粒数目减少且排列方向不规则,叶绿体膨大,被膜部分降解。随海拔升高,叶片部分解剖结构指标之间呈现出明显的协同进化,表现出较大的可塑性。珠芽蓼叶片解剖与超微结构在不同海拔表现出的差异显示,表型可塑性及其对高山异质环境和海拔变化的适应特征,是植物长期适应高山复杂环境的结果。  相似文献   

5.
水稻叶绿体计算机图象分析表明,随着叶片色级的提高,叶绿体表面积密度、体积密度以及两者的比值都相应增加。深色稻叶基粒堆直径与高度、类囊体垛叠数与类囊体厚度、叶绿素与类胡萝卜素含量、气孔导度与净光合率均大于浅色叶片。深色叶片基粒堆密集,有些基粒类囊体出现沿叶绿体长轴方向排列整齐现象;浅色叶片基粒堆稀疏,其中较大的基粒类囊体与长轴呈倾斜排列。  相似文献   

6.
青海高原不同海拔珠芽蓼叶绿体超微结构的比较   总被引:12,自引:0,他引:12       下载免费PDF全文
 用电子显微镜技术观察研究了生长于青海高原3个海拔地带(2500m、3200m、3980m)的珠芽蓼(polygonum viviparum L.)叶绿体的超微结构,发现随着海拔的升高,叶绿体结构呈现显著的变化趋势。2500m和3200m处叶绿体形状规则,分布在细胞边缘。3980m处叶绿体膨大变形,且分布在整个细胞当中。海拔升高,类囊体膜减少,膜垛叠程度减小。不同海拔珠芽蓼叶绿体的类囊体膜结构差异较大,特点显著。随海拔升高,珠芽蓼叶绿体破坏程度增加。主要表现为类囊体膜肿胀、类囊体膜溶解和叶绿体破裂。许多破裂的叶绿体中残留有发达的基粒和大而多的淀粉粒。珠芽蓼叶绿体的这些结构特征,既是环境胁迫的结果,又是植物适应性的表现。  相似文献   

7.
研究植物种群的分布格局及空间关联性是揭示植物种群与环境间关系、自身特性以及种间相互作用的一种重要手段。本研究以甘南高寒草甸为对象,沿海拔梯度(2900、3500、3800 m)设置3个样地,采用Ripley K函数对不同海拔矮嵩草(Kobresia humilis)与火绒草(Leontopodium nanum)种群的空间分布格局及种间关联性进行了分析。结果表明:(1)随着海拔的上升,矮嵩草种群的重要值、盖度、株数等呈递增趋势,火绒草种群的重要值、盖度、株数等则呈递减趋势。(2)矮嵩草种群在不同海拔的研究尺度内均表现为聚集分布,但其聚集的程度有所不同;火绒草种群在海拔2900 m处呈聚集分布状态;海拔3500 m处,火绒草种群在0~2.8 m尺度上呈聚集分布,但其聚集强度随着研究尺度的增加而逐渐减弱,最终转变为随机分布; 3800 m处,火绒草种群在0~2 m尺度内呈聚集分布,在较大尺度(2~5 m)上呈随机分布。(3)海拔2900 m处,矮嵩草与火绒草种群在小尺度(0~1.1 m)内表现为正相关,较大尺度上表现为无相关;海拔3500 m处,在整个研究尺度内表现为负相关;海拔3800 m处,在小尺度范围(0~1.4 m)内表现为无相关,较大尺度上表现为负相关,且随研究尺度的增大,其关联性增强。  相似文献   

8.
NaCl和Na2SO4胁迫下两种刺槐叶肉细胞叶绿体超微结构   总被引:3,自引:0,他引:3  
二倍体刺槐(diploid Robinia pseudoacacia)是我国水土保持林的先锋树种,具有较强的适应性和抗逆性,对改善生态环境、防治水土流失、调节水文状况有重要作用。四倍体刺槐(tetraploid Robinia pseudoacacia)是二倍体刺槐的加倍品种,也称多倍体刺槐,由韩国引进,具有速生、耐盐碱、耐干旱和耐烟尘等特点。目前,关于四倍体刺槐的研究,主要集中于栽培技术和繁殖技术方面,而关于四倍体刺槐叶片超微结构与其耐盐性的关系尚缺乏报道。比较了二倍体刺槐和四倍体刺槐在NaCl和Na2SO4胁迫下,叶片叶绿体超微结构的变化特点,一方面可以对二者的耐盐性进行鉴定,同时也可以探讨不同盐分胁迫条件下的作用机制。利用NaCl和Na2SO4进行20d的盐胁迫处理,观察叶绿体超微结构的变化特点,发现:NaCl处理前,二者叶肉细胞叶绿体为梭形、形态饱满、结构完整,NaCl处理后10d时,二倍体刺槐的叶绿体出现变形、膜模糊、基粒片层松散、类囊体解体、脂质球增多等现象,NaCl处理后20d时,叶绿体肿胀、变形,基粒片层断裂,膜系统解体。Na2SO4处理后10d时,二倍体刺槐的叶绿体肿胀,膜模糊,基粒片层松散、类囊体解体,Na2SO4盐胁迫处理后20d时,膜系统全部解体,结构破坏更为严重。总体来说,四倍体刺槐在盐胁迫后叶绿体结构变化不明显,只是在Na2SO4处理20d时,四倍体刺槐的叶绿体出现中空、基粒片层松散、膜边缘模糊现象。在处理前,两种刺槐的叶绿体均紧贴细胞壁,分布于细胞壁边缘。在NaCl处理后10d时,二倍体刺槐的叶绿体仍呈有序排列,紧贴细胞壁,但在处理后20d时,大部分叶绿体脱离细胞壁,呈随机分布。在Na2SO4处理后10d时,二倍体刺槐部分叶绿体脱离细胞壁,位于细胞中央。在Na2SO4处理后20d时,二倍体刺槐叶绿体大部分与细胞壁脱离。四倍体刺槐在两种盐胁迫处理前后叶绿体的排列变化不明显,均分布于细胞壁边缘,紧贴细胞壁。所以在盐胁迫下,耐盐植物叶片的叶绿体表现为结构完整,基粒片层清晰,类囊体结构完整,而不耐盐植物则表现为叶绿体超微结构松散、变形,基粒片层模糊,破坏严重时基粒片层扭曲,叶绿体解体,失去完整结构。  相似文献   

9.
对生长在青藏高原东北部海拔高度为3700m处的盆花垂头(Cremanthodiumdiscoideum)和唐古特乌头(Aconitumtangutcum)叶肉细胞叶绿体光合膜系进行超微分析表明:叶绿体被膜异常,基拉片层叠垛程度小,基粒和基质类囊体肿胀严重。叶绿体超微结构上的这些特征,是青藏高原低气压、严寒和强辐射等生态条件综合作用的结果。  相似文献   

10.
王亚琴  夏快飞   《广西植物》2006,26(5):570-572,540
研究了转PSAG12-ipt基因水稻和对照植株发育过程中叶片中的叶绿体结构的变化。发现水稻发育到乳熟期,转基因植株叶片中的叶绿体与对照植株开始出现明显的差别。对照叶绿体中嗜锇体体积增大,数目增多,大部分基粒的类囊体膜膨胀、裂解,片层结构解体。而转基因植株叶片中的叶绿体结构变化不大,嗜锇体相对有所增加,但体积较小,大部分基粒类囊体片层结构仍然排列整齐,少数类囊体垛叠化丧失。  相似文献   

11.
The constant proportion of grana and stroma lamellae in plant chloroplasts   总被引:5,自引:0,他引:5  
The relative proportion of stroma lamellae and grana end membranes was determined from electron micrographs of 58 chloroplasts from 21 different plant species. The percentage of grana end membranes varied between 1 and 21% of the total thylakoid membrane indicating a large variation in the size of grana stacks. By contrast the stroma lamellae account for 20.3 ± 2.5 ( sd )% of the total thylakoid membrane. A plot of percentage stroma lamellae against percentage of grana end membranes fits a straight line with a slope of zero showing that the proportion of stroma lamellae is independent of the size of the grana stacks. That stroma lamellae account for about 20% of the thylakoid membrane is in agreement with fragmentation and separation analysis (Gadjieva et al . Biochim. Biophys. Acta 144: 92–100, 1999). Chloroplasts from spinach, grown under high or low light, were fragmented by sonication and separated by countercurrent distribution into two vesicle populations originating from grana and stroma lamellae plus end membranes, respectively. The separation diagrams were very similar lending independent support for the notion that the proportion of stroma lamellae is constant. The results are discussed in relation to the composition and function of the chloroplast in plants grown under different environmental conditions, and in relation to a recent quantitative model for the thylakoid (Albertsson, Trends Plant Sci. 6: 349–354, 2001).  相似文献   

12.
The isoelectric points of unbroken chloroplast lamellae and various subchloroplast fractions, including a preparation of inside-out thylakoids, have been determined using aqueous two-phase systems containing dextran and charged polyethylene glycol. When the amounts of material in the top phase in a phase system with the positively charged trimethylamino polyethylene glycol are plotted against pH the curve intersects the corresponding curve obtained from phase systems with the negatively charged polyethylene glycol sulfonate. This cross-point can be correlated with the isoelectric point of the material.The cross-point for unbroken chloroplast lamellae was found to be around pH 4.7. Mechanical disintegration lowered the cross-point to around pH 4.4, probably because of exposure of new membrane surfaces. The disintegrated chloroplasts were fractionated by differential centrifugation to separate the grana and stroma lamellae. The stroma lamellae vesicles showed the same isoelectric point as the unbroken lamellae, while a cross-point at pH 4.3 was obtained for the grana-enriched fraction. For thylakoid membranes destacked under low salt conditions the cross-point was 0.3 pH unit lower than for membranes originating exclusively from the stroma lamellae. The most acidic cross-point (pH 4.1) was observed for the fraction enriched in inside-out grana thylakoids. It is suggested that the differences in isoelectric point between various subchloroplast fractions reflect a heterogeneous arrangement of surface charge along and across the thylakoid membrane.  相似文献   

13.
Progressive solubilization of spinach chloroplast thylakoids by Triton X-100 was employed to investigate the domain organization of the electron transport complexes in the thylakoid membrane. Triton/chlorophyll ratios of 1:1 were sufficient to disrupt fully the continuity of the thylakoid membrane network, but not sufficient to solubilize either photosystem I (PSI), photosystem II (PSII) or the cytochrome b6-f(Cyt b6-f) complex. Progressive with the Triton concentration increase (Triton/Chl greater than 1:1), a differential solubilization of the three electron transport complexes was observed. Solubilization of the Cyt b6-f complex from the thylakoid membrane preceded that of PSI and apparently occurred early in the solubilization of stroma-exposed segments of the chloroplast lamellae. The initial removal of chlorophyll (up to 40% of the total) occurred upon solubilization of PSI from the stroma-exposed lamella regions in which PSI is localized. The tightly appressed membrane of the grana partition regions was markedly resistant to solubilization by Triton X-100. Thus, solubilization of PSII from this membrane region was initiated only after all Cyt b6-f and PSI complexes were removed from the chloroplast lamellae. The results support the notion of extreme lateral heterogeneity in the organization of the electron transport complexes in higher plant chloroplasts and suggest a Cyt b6-f localization in the membrane of the narrow fret regions which serve as a continuum between the grana and stroma lamellae.  相似文献   

14.
花粒期光照对夏玉米光合特性和叶绿体超微结构的影响   总被引:2,自引:0,他引:2  
在大田条件下,以夏玉米品种‘登海605’为试验材料,研究花粒期不同光照强度(正常光照、开花至收获期遮阴和开花至收获期增光)对夏玉米叶片光合、荧光性能和叶绿体超微结构的影响.结果表明: 与对照相比,花粒期遮阴影响叶绿体排布及内部结构发育,基粒个数和基粒片层数均有不同程度减少,叶片的净光合速率、蒸腾速率、气孔导度、叶绿素含量下降,PSⅡ反应中心的实际光化学效率和最大光化学效率降低,非光化学淬灭系数数值增加,导致产量降低;增光后叶绿体结构良好,基粒片层排列紧致、清晰且数量增加,PSⅡ反应中心的实际光化学效率增加,净光合速率、蒸腾速率、气孔导度、叶绿素含量上升,叶片光合性能增强,产量增加.即花粒期遮阴破坏了夏玉米叶片叶绿体超微结构,降低了叶片光合能力,产量下降;花粒期增光增加了叶肉细胞中叶绿体的基粒和基粒片层,导致基粒片层排列紧密有序,有利于增加作物产量潜力.  相似文献   

15.
The isoelectric points of unbroken chloroplast lamellae and various subchloroplast fractions, including a preparation of inside-out thylakoids, have been determined using aqueous two-phase systems containing dextran and charged polyethylene glycol. When the amounts of material in the top phase in a phase system with the positively charged trimethylamino polyethylene glycol are plotted against pH the curve intersects the corresponding curve obtained from phase systems with the negatively charged polyethylene glycol sulfonate. This cross-point can be correlated with the isoelectric point of the material. The cross-point for unbroken chloroplast lamellae was found to be around pH 4.7. Mechanical disintegration lowered the cross-point to around pH 4.4, probably because of exposure of new membrane surfaces. The disintegrated chloroplasts were fractionated by differential centrifugation to separate the grana and stroma lamellae. The stroma lamellae vesicles showed the same isoelectric point as the unbroken lamellae, while a cross-point at pH 4.3 was obtained for the grana-enriched fraction. For thylakoid membranes destacked under low salt conditions the cross-point was 0.3 pH unit lower than for membranes originating exclusively from the stroma lamellae. The most acidic crosspoint (pH 4.1) was observed for the fraction enriched in inside-out granathylakoids. It is suggested that the differences in isoelectric point between various subchloroplast fractions reflect a heterogeneous arrangement of surface charge along and across the thylakoid membrane.  相似文献   

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