玉米不同叶位叶片叶绿体超微结构与光合性能的研究

对玉米植株基部（第3叶）,中部（果穗叶）和上部（倒2叶）叶位叶片,进行叶绿体超微结构的观察,并测定了叶绿素含量和光合强度,结果表明,不同叶位叶片叶肉细胞中叶绿体的超微结构,随叶位上升而渐趋复杂化,果穗叶最为显著,向上又趋简单,具体表现为基粒片层的数目随叶位上升而增多基质片层和基质也随之增加,果穗叶最多,向上又趋减少,不同叶位叶片叶绿素含量和光合强度,果穗叶高于其它叶位。     

玉米不同叶位叶片叶绿体超微结构与光合性能的研究

对玉米植株基部（第3叶）,中部（果穗叶）和上部（倒2叶）叶位叶片,进行叶绿体超微结构的观察,并测定了叶绿素含量和光合强度,结果表明,不同叶位叶片叶肉细胞中叶绿体的超微结构,随叶位上升而渐趋复杂化,果穗叶最为显著,向上又趋简单,具体表现为基粒片层的数目随叶位上升而增多基质片层和基质也随之增加,果穗叶最多,向上又趋减少,不同叶位叶片叶绿素含量和光合强度,果穗叶高于其它叶位。     

水杨酸和茉莉酸甲酯对丹参幼苗叶片显微结构、光合及非结构糖积累的影响

研究了水杨酸(SA)和茉莉酸甲酯(MeJA)处理对丹参(Salvia miltiorrhiza Bunge)幼苗叶片显微结构、叶片光合能力及幼苗中非结构糖积累的影响.结果显示:SA处理增加了丹参幼苗叶片气孔密度;叶肉细胞排列紧密、体积减小,叶肉细胞内叶绿体数目减少,但叶绿体体积增大,叶绿体基粒片层结构的数目增加;叶片中叶绿素a、b含量、叶气孔导度、蒸腾速率以及净光合速率均增加;同时,幼苗根中和叶片中酸性转化酶活性降低,幼苗地上部分蔗糖含量及可溶性糖总量显著高于对照.MeJA处理减少了叶片气孔密度,气孔发育畸形;叶肉细胞间隙增大,栅栏细胞层数减少,叶肉细胞内叶绿体数目减少,叶绿体体积减小,叶绿体基粒片层结构被破坏;叶片中叶绿素a及类胡萝卜素含量、叶片的净光合速率低于对照,叶气孔导度、蒸腾速率增强;同时,幼苗根中及叶中酸性转化酶活性增加,幼苗根中蔗糖含量及可溶性糖总量显著低于对照.可见,SA处理能促进植物叶片显微结构发育,增强叶片光合能力,抑制蔗糖降解并促进蔗糖积累;而MeJA处理则破坏了植物叶片显微结构,降低了叶片光合能力,促进了蔗糖降解并减少蔗糖积累.     

不同水分处理对日光温室黄瓜叶片光合特性的影响

研究了不同土壤含水量对不同栽培茬口 (冬春茬、秋冬茬 )的日光温室黄瓜叶片的光合速率、气孔阻力、气孔结构特性及叶绿体超微结构的影响。结果表明 :随着土壤含水量的降低 ,单位黄瓜叶片面积气孔密度增加 ,气孔阻力上升 ,光合速率下降 ;叶绿体超微结构观察表明 :土壤含水量的减少明显地降低叶片细胞的叶绿体数目及每个叶绿休内的淀粉粒数。不同茬口的黄瓜其上述特性变化规律相似。     

不同水分处理对日光温室黄瓜叶片光合特性的影响

研究了不同土壤含水量对不同栽培茬口（冬春茬、秋冬茬）的日光温室黄瓜叶片的光合速率、气孔阻力、气孔结构特性及叶绿体超微结构的影响。结果表明：随着土壤含水量的降低,单位黄瓜叶片面积气孔密度增加,气孔阻力上升,光合速率下降;叶绿体超微结构观察表明：土壤含水量的减少明显地降低叶片细胞的叶绿体数目及每个叶绿休内的淀粉粒数。不同茬口的黄瓜其上述特性变化规律相似。     

花粒期光照对夏玉米光合特性和叶绿体超微结构的影响

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.     

小麦低温种质的器官结构特征

通过对小麦冠层温度的长期观测,发现自然界存在株温持续偏低的低温种质,与其相对应,也有株温持续偏高的高温种质存在。应用光学显微镜和电子显微镜研究了小麦低温种质叶片显微和超微结构,测量统计了叶肉细胞长度、单位面积叶肉细胞数目、单个叶肉细胞中的叶绿体数目、叶肉细胞层数和叶绿体基粒片层数。结果表明,低温小麦种质较高温种质叶肉细胞小,排列紧密,叶肉细胞层数较多;叶绿体数量多,叶绿体基粒片层丰富;叶片维管束密集;随着生育期向成熟趋近,叶肉细胞、叶绿体、籽粒腹沟区有色层细胞等结构衰老缓慢。     

糜子不同生育时期不同叶位叶片超微结构研究

对糜子不同生育时期、不同叶位叶片进行电镜观察.结果显示:(1)在籽粒灌浆中期以前,叶肉细胞排列整齐,细胞间隙小,细胞中叶绿体、线粒体等细胞器含量多.叶绿体、线粒体基质含量浓厚,高基粒片层数增加,胞问连丝畅通;(2)在籽粒灌浆中期以后,叶片迅速衰老,细胞解体,细胞间出现间隙,叶绿体减少,叶绿体基粒片层、基质片层解体.嗜锇颗粒变大增多.胞间连丝受到阻碍.(3)不同生育时期不同叶位叶绿体的高基粒片层数差异较大,其中在灌浆中期各叶位叶绿体高基粒片层数最高,在各生育时期旗叶的为最大.     

冬小麦不同层次叶片中叶绿体超微结构及其功能的研究

本文是小麦叶片细胞研究的继续。通过电子显微镜观察和光合功能的测定发现:冬小麦植株个体发育过程中,各层次叶片叶肉细胞叶绿体的超微结构随叶位的逐渐上升而渐趋于复杂化,其光合功能也相应地增强,至旗叶最为显著。具体表现为基粒片层(grana lamella)、基质片层(stroma lamella)的数目随叶位上升而增多;基质也随之渐浓;Hill 反应和光合磷酸化活性也相应地提高很多。此外,高叶位叶片特别是旗叶,在叶绿体旁出现的线粒体较低叶位的多,其呼吸强度比第五叶相应地高出几乎一倍。上述结构和功能的密切相关及其从简单到复杂这一自然规律的揭示,对采取措施加以调节控制,是具有重要意义的。     

C_3、C_4型植物叶绿体超微结构的电镜观察

用电镜对比研究了C_3植物Serradella,C_4型玉米和C_4型水牛草的叶组织切片的超微结构。结果表明C_3型Serradella和C_4型玉米和水牛草叶绿体超微结构的区別:C_4型叶内有维管束鞘细胞和叶肉细胞,分別具有不同类型的叶绿体,其维管束鞘细胞的叶绿体没有基粒结构,在叶肉细胞的叶绿体具有明显的基粒结构;C_3型叶内只有叶肉细胞和一种只有基粒结构的叶绿体。这种超微结构的不同,决定了它们在光合效率上的差异。     

THE EFFECT OF LIGHT INTENSITY AND TEMPERATURE ON PLANT GROWTH AND CHLOROPLAST ULTRASTRUCTURE IN SOYBEAN

Soybean plants grown in controlled environment cabinets under light intensities of 220 w/m² or 90 w/m² (400–700 nm) and day to night temperatures of 27.5–22.5 C or 20.0–12.5 C in all combinations, exhibited differences in growth rate, leaf anatomy, chloroplast ultrastructure, and leaf starch, chlorophyll, and chloroplast lipid contents. Leaves grown under the lower light intensity at both temperatures had palisade mesophyll chloroplasts containing well-formed grana. The corresponding leaves developed under the higher light intensity had very rudimentary grana. Chloroplasts from high temperature and high light had grana consisting of two or three appressed thylakoids, while grana from the low temperature were confined to occasional thylakoid overlap. Spongy mesophyll chloroplasts were less sensitive to growth conditions. Transfer experiments showed that the ultrastructure of chloroplasts from mature leaves could be modified by changing the conditions, though the effect was less marked than when the leaf was growing.     

Fine Chloroplast Structure in Cucumber and Pea Leaves Developed under Red Light

Photosynthetic activity, the content of various photosynthetic pigments, and the chloroplast ultrastructure were examined in the leaves of cucumber (Cucumis sativus L.) and pea (Pisum sativum L.) plants of different ages grown under red light (600–700 nm, 100 W/m²). In pea leaves tolerant to red-light irradiation, chloroplast ultrastructure did not essentially change. In the first true leaves of cucumber plants susceptible to red-light irradiation, we observed a considerable increase in the number and size of plastoglobules, the appearance of chloroplasts lacking grana or containing only infrequent grana, and stromal thylakoids. In the upper leaves of 22-day-old cucumber plants, the chloroplast structure was essentially similar to that of the control chloroplasts in white light, and we therefore suppose that these plants have acclimated to red light.     

Chloroplast Structure and Starch Grain Accumulation in Leaves That Received Different Red and Far-Red Levels during Development

An important step in understanding influence of growth environment on carbon metabolism in plants is to gain a better understanding of effects of light quality on the photosynthetic system. Electron microscopy was used to study chloroplast ultrastructure in developing and fully expanded leaves of tobacco (Nicotiana tabacum L. cv Burley 21). Brief exposures to red or far-red light at the end of each day during growth under controlled environments influenced granum size, granum number and starch grain accumulation in chloroplasts, and the concentration of sugars in leaf lamina. Far-red-treated leaves had chloroplasts with more but smaller grana than did red-treated leaves. Red light at the end of the photosynthetic period resulted in more and larger starch grains in the chloroplasts and a lower concentration of sugars in leaves. Chloroplast ultrastructure and starch grain accumulation patterns that were initiated in the expanding leaves were also evident in the fully expanded leaves that received the treatment during development. It appears that the phytochrome system in the developing leaves sensed the light environment and initiated events which influenced chloroplast development and partitioning of photosynthate to adapt the plant for better survival under those environmental conditions.     

不同叶色水稻叶绿体密度及基粒结构的计算机图象分析

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。     

Differential effects of benzyladenine on the ultrastructure of chloroplasts in intact bean leaves according to their age

Summary Primary leaves of intact bean plants (Phaseolus vulgaris) were treated with benzyladenine (BA) at different stages of growth. Changes in the ultrastructure of chloroplasts and the contents of chlorophyll, carotenoid, and protein (soluble and insoluble) in leaves with different treatments were followed and compared. When BA was applied from an early stage, it increased the chloroplast size and the number of grana per chloroplast without any pronounced effect on the grana size. When BA treatment was stopped at the early stage, these effects remained for a while and then diminished. When BA treatment was begun at a late stage, such marked effects were not observed, suggesting that only young leaves could respond to BA in that manner. However, the late treatment efficiently prevented the process of the last stage of leaf senescence characterized by disintegration of thylakoids with concomitant increase in the plastoglobule size. Chlorophyll, carotenoid, and insoluble protein contents per leaf followed similar changes in chloroplast length and the number of grana per chloroplast section.     

遮荫对南美蟛蜞菊、蟛蜞菊及其自然杂交种叶片显微结构及叶绿体超微结构的影响

利用JSM-6360LV型扫描电镜和JEM-1010型透射电镜,观察了南美蟛蜞菊、蟛蜞菊及其自然杂交种新近成熟和老熟叶片的解剖结构及叶绿体超微结构。结果表明:遮荫后该杂交种与其亲本新近成熟叶片均表现为上下表皮气孔密度、叶片总厚度及上下表皮厚度、栅栏组织、海绵组织厚度减小,叶绿体肿胀变形,基粒片层垛叠程度增加,淀粉粒增多变大;遮荫后杂交种老熟叶片总厚度及上表皮、栅栏组织、海绵组织厚度增加,入侵种的下表皮厚度及本地种的上表皮厚度增加,叶绿体超微结构在遮荫后均出现严重损伤,基粒片层类囊体结构边缘溶解等。说明三种蟛蜞菊属物种及各物种不同叶龄叶片对弱光条件的响应存在差异;杂交种叶片显微及超微结构在不同光照下的变化介于亲本之间,对遮荫环境能较好适应。     

不同光温条件下紫背浮萍叶肉细胞和叶绿体超微结构的研究

以浮萍科紫萍属紫背浮萍为试验材料,利用透射电子显微镜研究了紫背浮萍叶肉细胞和叶绿体的超微结构。结果发现:强光下,紫背浮萍叶肉细胞内的叶绿体数明显增加;弱光时虽然叶绿体数减少,但叶绿体基粒片层结构变厚,增加了光合作用反应面积。与25℃适温条件相比,10℃低温和35℃高温下,紫背浮萍细胞均出现一定程度的逆境胁迫作用。表现在低温时部分叶绿体皱缩成带状,叶肉细胞之间出现较大空隙;高温时叶绿体外膜溶解,基质外渗,脂质小球数量增多。紫背浮萍通过改变细胞内部形态结构的方式来适应不同光强和温度环境条件,对逆境光温条件具有一定的耐受性。     

Effects of salt-tolerant rootstock grafting on ultrastructure,photosynthetic capacity,and H<Subscript>2</Subscript>O<Subscript>2</Subscript>-scavenging system in chloroplasts of cucumber seedlings under NaCl stress

Plant growth, photosynthetic parameters, chloroplast ultrastructure, and the ascorbate-glutathione cycle system in chloroplasts of self-grafted and rootstock-grafted cucumber leaves were investigated. Grafted plants were grown hydroponically and were exposed to 0, 50, and 100 mM NaCl concentrations for 10 days. Under NaCl stress, the hydrogen peroxide (H₂O₂) content in cucumber chloroplasts increased, the chloroplast ultrastructure was damaged, and the gas stomatal conductance, intercellular CO₂ concentration, as well as shoot dry weight, plant height, stem diameter, leaf area, and leaf relative water content were inhibited, whereas these changes were less severe in rootstock-grafted plants. The activities of ascorbate peroxidase (APX; EC 1.11.1.11), glutathione reductase (GR; EC 1.6.4.2), and dehydroascorbate reductase (DHAR EC 1.8.5.1) were higher in the chloroplasts of rootstock-grafted plants compared with those of self-grafted plants under 50 and 100 mM NaCl. Similar trends were shown in leaf net CO₂ assimilation rate and transpiration rate, as well as reduced glutathione content under 100 mM NaCl. Results suggest that rootstock grafting enhances the H₂O₂-scavenging capacity of the ascorbate–glutathione cycle in cucumber chloroplasts under NaCl stress, thereby protecting the chloroplast structure and improving the photosynthetic performance of cucumber leaves. As a result, cucumber growth is promoted.