Changes of Ca2+ -ATPase Activities in Cell of Rice Seed lings During the Enhancement of Chilling Resistance Induced by Cold and Salt Pretreatment

The changes of Ca2+ -ATPase activities of plasmolemma, and tonoplast membrane in roots and leaf chloroplasts in rice ( Oryza sativa L. ) seedlings were investigated for exploring the mechanism of cross adaptation to different stresses in the plants during the enhancement of chilling resistance induced by cold and salt pretreatment. The results indicated that the chilling resistance of rice seedlings was enhanced markedly by cold and salt pretreatment, but this enhancement was inhibited by Ca2+-chelate ethyleneglycol-bis-(β-aminoethyl ether) N, N-tetraacetic acid (EGTA) and the calmodulin inhibitor chlorpromazine (CPZ), it showed the calcium messenger system was involved in the course of chilling resistance formation. The Ca2+ -ATPase activity of root plasmolemma and tonoplast membrane as well as the Fe(CN)63- reduction in root plasmolemma in nonpretreated seedlings were declined markedly during the chilling stress. The Ca2+ -ATPase activities of plasmolemma, tonoplast membrane and chloroplasts as well as the Fe(CN)63- reduction of plasmolemma were enhanced by cold pretreatment. The activities of Ca2+ -ATPase and Fe(CN)63- reduction of plasmolemma, as compared with nonpretreated seedlings has increased by 86.80% and 93.93% respectively. The effect of salt pretreatmerit on the Ca2+ -ATPase activities of plasmolemma and chloroplast as well as Fe(CN)63- reduction of plasmolemma were similar to the effect of cold pretreatment. Although the Ca2+ -ATPase activity of tonoplast membrane was declined by salt pretreatment, the activity was none the less markedly higher than that of the nonpretreated seedlings. It showed that there was stronger ability of maintaining calcium homeostasis in the seedlings following two pretreatment. The results displayed that the enhancement of chilling resistance in rice seedlings with cold and salt pretreatment might be related to the effective activation of Ca2+ -ATPase in two pretreatment seedlings, because the activated Ca2+ -ATPase could bring back rapidly the raised cytoplasmic Ca2+ concentration from chilling stress to the state of calcium homeostasis, leading to the maintenance of normal functioning of the calcium messenger system and physiological metabolism. It seems that the adapated mechanism to chilling stress in two seedlings with cold and salt pretreatment was similar.     

用超微细胞化学定位技术揭示ATP酶在紫茎泽兰高温适应性中的作用

【背景】外来人侵植物紫茎泽兰自然演化出耐高温种群,其适应机制与各种生理代谢有关。【方法】本文从超微细胞化学水平,对紫茎泽兰抗高温种群、敏感种群ATP酶活性定位,明确其在高温适应性中的作用,试图阐明该草的生态适应机制。【结果】正常情况下,紫茎泽兰ATP酶主要定位于细胞壁及细胞间隙周围的细胞壁表面;经40℃高温处理后,在不同的处理时间下,抗性、敏感种群之间ATP酶的活性表现出明显差异,其中以处理12h时差异最大,具体表现为抗高温种群的ATP酶活性明显高于敏感种群,ATP酶的定位点除细胞壁外,在细胞膜上也呈现大量的分布,而敏感种群在处理12h时的酶活性明显降低,只在细胞壁上有零星的分布。处理24h时,敏感种群叶片已完全萎蔫,细胞结构毁坏,细胞膜破损;而抗高温种群叶片仍然完好,细胞膜上仍有ATP酶分布。【结论与意义】经40℃高温处理后,紫茎泽兰抗高温种群ATP酶活性明显高于敏感种群,初步认为紫茎泽兰对高温的适应性与ATP酶活性相关。本研究为进一步阐明与紫茎泽兰适应性相关的入侵机理提供了资料。     

磁场处理种子后番茄幼苗在低温胁迫下保护酶的变化

试验用场强为１０００ＧＳ、１４００ＧＳ、１８００ＧＳ的磁场处理番茄（ＬｙｃｏｐｅｒｓｉｃｏｎｅｓｃｕｌｅｎｔｕｍＭｉｌ）种子,于子叶期和真叶期进行低温胁迫,发现处理组超氧化物岐化酶（ＳＯＤ）比活性和过氧化氢酶（ＣＡＴ）活性均高于对照组。子叶期幼苗谷胱甘肽（ＧＳＨ）和可溶性蛋白含量与对照相比均有所升高。幼苗外观寒害症状也较轻。因此,可以认为磁场处理在一定程度上可提高番茄幼苗的抗寒性。     

Ultrastructural Localization of ATPase Activity in the Cells of the Apical Meristem Zone,Elongation Zone and Root Hair Zone of Tomato Roots

A comparative study on the cytochemical localization of adenosine triphosphatase (ATPase) activity reaction in the cells of the apical meristem zone, elongation zone and root hair zone of tomato roots was carried out by electron microscopic observations of lead phosphate precipitation. The following experimental results have been obtained: In the meristematic cells of tomato roots, the heavy lead phosphate deposits indicating a very high activity of ATPase were localized at plasmalemma, plasmodesmata, endoplasmic reticulum, Golgi bodies, nucleoli and chromatin (Figs. 1—2). The reaction products of ATPase activity were also observed at some sites of ground cytoplasm and cell wall, but they were not found in little vacuoles and on tonoplast. In the cells of elongation zone, the ATPase activity at plasmalemma and plasmodesmata was as high as that in the meristematic cells of root tip, while the ATPase activity at nucleoli, chromatin, endoplasmic reticulum and Golgi bodies was markedly lowered. On the other hand, the high ATPase activity was produced on the tonoplast of the developing and enlarging vacuoles (Fig. 3). In the cells of root hair zone, the high ATPase activity was shown at plasmalemma, tonoplast and intercellular spaces, but the ATPase activity at nucleoli, chromatin and endoplasmic reticulum was wholly inactivated. (Figs. 4—7). The above results indicate that the ATPase activity with membranes and organelles is altered when the functions of cells and organelles change. Therefore, it is evident that the ATPase activity may be closely related to many physiological functions.     

Futher Study of the Mefluidide-lnduced Chilling Tolerance in Corn Seedlings

Corn seedlings (cv. Dandong 2), at 3 leaf-age, were foliar sprayed with 15ppm mefluidide and held at 25℃ regime for 24h. The seedlings were then chilled at 5℃ for 6 days, after which they were returned to the 25℃ regime for recovery. Leaf conductivity was done on plants at o time, just prior to chilling, 3 and 6 days after chilling, and 3 clays after recovery. During the entire period of experiment (from o-time to recovery), the conductivity of the treated plants was at a more or less constant level of 15%, Whereas the control increased from 15% to about 50% 6 days after chilling as well as well as 3 days after recovery. Our results strongly suggest that the treated plants were not injured during a 6-day chilling exposure, while the control was progressively injured. Mitochondria were isolated from plants at o-time treatment, after 34 h treatment at 25℃, 3 and 6 days after chilling, and 3 days after recovery. Succinic dehydrogenase anct ATPase were extracted from the mitochondria. Activities of both enzymes were measured at 25℃. There was a marked increase in activity of both enzymes in either treated plants or controls 3 days after chilling. However, the increase was significantly higher in the treated plants than those in the control. Activities were decreased at 6 days after chilling. The decrease in the control was. significantly greater than those in the treated Plants. ATPase activity was measured over a range of temperatures from 5˚ to 35℃. There were two distinguished break points on the Arrhenius plots for ATPase activation energy in the treated plants. One was at about 20℃ and the other was at about 10℃. However, the control only showed one break point at 15℃. There was a 5℃ difference between the control and treated plants. Albeit the significance of a 5℃ difference in activation of energy in terms of increased chilling tolerance is debatable, it does suggest that mefluidide treatment may alter the property of corn mitochondrial membrane.     

Stability Effects of Cold-acclimation on the Plasmolemma Ca2+ ATPase of Winter Wheat Seedlings

The cold-acclimation effects on the Ca2 + -ATPase activities in plasmolemma of the winter wheat seedlings ( Triticum aestivum L. ) were studied with electromicmscopic-cytochemical assay in which cerium trichloride precipitation method was adopted. The main conclusions are: (1) The plasmolemma Ca2+ -ATPase activities of the wheat seedlings treated at –9 ℃ for 3 h decreased considerably as compared with those of the seedlings grown at the optimal temperature of 20 ℃. A further impediment of the enzyme activities was observed when the cold-stress was prolonged to 12 h at –9 ℃. And complete enzyme inactivation as well as damage of ultrastructure of cells occurred when the seedlings were subjected to cold-stress at –9 ℃ for 24 h. (2) If seedlings were cold-ac- climated at 2 ℃ for 15 d, the plasmolemma Ca2 + -ATPase activities were higher than those of the non-acclimated seedlings. When the cold-acclimated seedlings were then treated at –9 ℃ for 3 h, the enzyme activities decreased less markedly than those of the non-acclimated seedings under the same treatment condition. Similarly, under prolonged cold-stress of both seedlings at – 9 ℃ for 12 h, the enzyme activities of the cold-acclimated seedlings still kept higher than those of the non-ac- climated ones. Finally, when the cold-stress lasted for 24 h at – 9 ℃, the enzyme activities of the cold acclimated seedlings remained active, and the cellular ultrastructure also remained unchanged. The above results indicate that cold-acclimation has enhanced the stability of the plasmolemma Ca2 + -ATPase activities of the winter seedlings under low temperature stress.     

Changes of the Level of Ca2+ in Cells of Rice Seedlings Under Low Temperature Stress

The changes of Ca2+ localization in ceils of rice (Oryza sativa L. ) seedlings under chilling stress were investigated with calcium antimonate precipitate-electromicroscopic-cyto- chemical methods. When rice seedlings grew at the optimum temperature, it was shown that the deposits of calcium antimonate, being the indicator for Ca2+ localization, mainly concen-trated within the vacuoles and intercellular spaces, and that there was also some Caz+ deposits in plastid, mitochondria, cytoplasm and nucleus. This indicates that under the normal condition, the vacuoles are the main pool of Ca2+ in plant cells, and that there is quite an amount of Ca2+ in the intercellular spaces. On the contrary, the free Ca2+ in cytoplasm and nucleus is very low under the normal condition. When the rice seedlings were treated at the temperature of 1 ℃ for 24 h, there nearly appeared a ring of well arranged Ca2+ precipitates in the inner side of plasmalemma. Meanwhile, the level of Ca2+ in cytoplasm and nucleus increased considerably. When the chilling stress of 1 ℃ continued for 48 h, a great amount of Ca2+ distributed within the cytoplasm and nucleus, and there was also a large quantity of Ca2+ deposits on vacuolar membranes and envelope of plastid. However, the ultrastructures of the cells remained normal. Based on the above observations, the authors proposed that the increase of Ca2+ in cytoplasm and nucleus under chilling stress might be related to the ulterior changes of physiological-biochemical processes.     

Localization and Distribution of the ATPase Activity and of the Passage of Material Transport in Spike-Stalk and Their Relations to the Development of Spikelets in Wheat

1. The ATPase activity in the spike-stalk cells of wheat was obviously localized at plasmallemma and the surface of cell wall bordering the intercellular spaces and their inclusions. The reactions of ATPase activity at chromatin and nucleoli were usually insignificant, and they were not found in vacuoles and other organelles (Figs. 1, 2, 3, 5, 6 and 7). 2. Three significant differences were observed between the middle part and the basal and upper part of the spike-stalk in wheat. (1) A large amount of inclusions were shown in the intercellular spaces of the middle part, and the high ATPase activity was seen at these inclusions (Figs. 6 and 7), but both they were seldom to be found in the intercellular spaces of the basal and upper part (Figs. 2 and 3). (2) The plasmodesmata of the middle part ceils was more than that of the basal and upper part ones (Figs. 1, 3 and 5). (3) In the middle part cells of spike-stalk, the cytoplasmic material was vigorously and actively transferred through the wall pores, and at the same time, the high ATPase activity was exhibited on the transferred cytoplasm (Figs. 4, 8 and 9). In addition, it was also observed that the cytoplasmic material entered into intercellular spaces from adjacent cells (Fig. 6). But it was hardly to see this phenomenon in the basal and upper part of spike-stalk. 3. It was discussed that the ATPase activity and the passage for material transport may play the role in transferring materials into the spike and they might be related to the development of the wheat spikelets.     

NaCl对小麦幼苗叶肉细胞超微结构的影响

在含NaCl的培养液中培养小麦幼苗,3天后取样观察叶肉细胞,其超微结构基本正常,细胞核和细胞壁没有明显变化。但线粒体结构普遍受到损害,表现在外膜、内膜和嵴膨胀,结构模糊。叶绿体被膜和片层结构仍保持完整,仅有部分叶绿体的片层排列方向发生改变,由原来平行排列扭转为近于垂直排列。     

西瓜胚乳吸器的发育及ATP酶的超微细胞化学定位

报道了西瓜（Citrullus lanatus)胚乳吸器发育过程,并对胚乳吸器细胞中的ATP酶进行了超微细胞化学定位,球形胚早期,胚囊合点端的壁伸长发育成一管状胚乳吸器,进而吸器靠近乳本体端膨大为囊状,球形胚晚期吸器自珠孔端向合点端逐渐细胞化,胚分化出子叶时,胚乳吸器自合点端向珠孔端退化,在刚形成的胚乳吸器细胞中,ATP酶活性反应主要分布在细胞的核膜,内质网上,胞间连丝和吸器细胞壁内的小球状物上也有较强的ATP酶活性反应;在开始退化的吸器细胞中,核膜上的ATP酶性的反应减弱较早,内质网稍晚,进一步退化的胚乳吸器细胞中,ATP酶主要集中分布在细胞壁,细胞间隙内,核上几乎没有ATP酶性反应,内质网上仅有微弱的ATP酶反应。     

温度逆境交叉适应对葡萄叶片膜脂过氧化和细胞钙分布的影响

 研究了高温锻炼对低温胁迫下和低温锻炼对高温胁迫下葡萄(Vitis vinifera)叶片中丙二醛（MDA）、谷胱甘肽(GSH)和抗坏血酸(AsA)含量变化以及细胞中Ca2+分布的影响。结果表明: 高（低）温胁迫使正常生长的叶片丙二醛含量升高, GSH和AsA含量下降,低（高）温锻炼预处理能减少MDA含量,提高GSH和AsA含量,抑制了由于温度胁迫引起MDA含量升高和GSH和AsA下降趋势。常温下葡萄叶肉细胞的Ca2+主要分布于液泡、细胞间隙中;高温胁迫和低温胁迫后,细胞质中聚集大量Ca2+沉淀颗粒,液泡中和细胞间隙Ca2+沉淀颗粒减少,叶绿体超微结构被破坏,Ca2+稳态平衡遭到破坏。高温锻炼后细胞质出现大量的Ca2+沉淀颗粒,主要来源于细胞间隙,低温锻炼后细胞质也出现大量的Ca2+沉淀颗粒,主要来源于液泡,两者的叶绿体超微结构都完整;高温锻炼的叶片经过低温胁迫和低温锻炼的叶片经过高温胁迫后,细胞间隙和液泡内Ca2+沉淀颗粒增加,细胞质中Ca2+沉淀颗粒很少,叶绿体较完整,Ca2+稳态平衡得以维持。推测高低温锻炼能够通过Ca2+启动抗逆基因表达和维持细胞中Ca2+稳态平衡来交叉适应低高温的胁迫。     

光质对番茄和莴苣幼苗生长及叶绿体超微结构的影响

采用发光二极管(LED)精确调制不同光谱能量分布,以荧光灯光照为对照,研究光质对番茄和莴苣幼苗生长及叶绿体超微结构的影响.结果表明：红光下番茄、莴苣幼苗的可溶性糖、淀粉和碳水化合物含量均显著高于对照,叶片叶绿体中淀粉粒膨大显著;蓝光极显著抑制了番茄下胚轴伸长,显著提高了莴苣和番茄幼苗叶片叶绿素a和类胡萝卜素含量;红蓝光下莴苣幼苗叶片的可溶性糖、淀粉、碳水化合物、蔗糖含量和C/N均达到最大值且显著高于红光处理,番茄和莴苣幼苗的主根显著伸长,幼苗叶片中叶绿体形态正常,基粒增多,基质片层清晰,淀粉粒体积明显小于红光处理.光质对植物幼苗的光形态建成、生长、碳氮代谢及叶绿体发育有显著影响;红光下光合产物积累显著但运输受阻严重,在红光中添加适量蓝光更有利于莴苣幼苗的碳水化合物积累,并可促进幼苗根系生长,有利于同化产物输出.     

Chilling sensitivity of cucumber cotyledon protoplasts and seedlings

Cucumber (Cucumis sativus L.) seedlings are more sensitive to chilling stress when transferred to low temperature from the night cycle than from the day cycle. However, greater damage occurs when chilling is carried out in light than in dark. Freshly isolated protoplasts are extremely sensitive to damage when chilled at 4°C in light, but suffer significantly less injury when chilled in dark. If freshly isolated protoplasts are pre-chill conditioned at 27°C in either light or dark for a few hours prior to exposure to various chilling stresses, subsequent chilling damage is markedly reduced. Damage to chilled protoplasts also is reduced if cultures are placed in dark instead of light immediately following removal from low temperature. Experiments utilizing the cell wall synthesis inhibitor, dichlorobenzonitrile, showed that cell wall regeneration during the pre-chill conditioning period at 27°C does not appear to be associated with the enhanced chilling tolerance observed in these cultures. The results obtained in this investigation suggest that the physiological properties of cucumber cotyledon protoplasts accurately reflect those of intact seedlings, and hence provide a good system for studies into the mechanism of chilling damage in plants.     

Phytochrome-regulated Expansion of Mustard (Sinapis alba L.) Cotyledons

In developing mustard (Sinapis alba L.) seedlings continuousred light acting via the agency of phytochrome stimulates therate of expansion of cotyledons. Although phytochrome actionon cotyledon expansion is evident only after 36 h from sowing,the photoresponse escapes from reversibility at about 15 h fromsowing. The time lag of 21 h between loss of photoreversibilityand the onset of photoregulated cotyledon expansion indicatesthe existence of long-lived components in the phytochrome-triggeredsignal chain. Phytochrome-regulated cotyledon expansion doesnot require the involvement of photosynthesis, as applicationof SAN 9789, an inhibitor of chloroplast biogenesis, did notaffect cotyledon expansion. The role of turgor pressure-relatedcellular parameters such as osmotic potential () cell wall extensibility(m), hydraulic conductivity (L) and yield threshold (Y) forcell expansion were examined during photoregulated cotyledonexpansion. Using the general equation of cell growth dv/dt =[Lm/(L+m)]( - Y), where dv/dt is the rate of volumetric growth,it was demonstrated that the light-mediated cotyledon expansionresults from an increase in cell wall extensibility (m). Theseresults are discussed in relation to the photoregulation ofcotyledon expansion. Key words: Cell wall extensibility, growth, Sinapis alba L., phytochrome     

Intracellular distribution of phototropin 1 protein in the short-day plant Ipomoea nil

Phototropin 1 (phot1) is a blue-light Ser/Thr receptor kinase that contains two LOV domains. It is a plasma membrane-associated protein that mediates phototropism, blue-light induced chloroplast movement, and stomatal opening. The aim of the present work was to analyze the intracellular localization of phot1 protein in Ipomoea nil seedlings. In cotyledon and hypocotyl cells of etiolated seedlings, phot1 was specifically localized in the plasma membrane regions, whereas in light-treated seedlings, it was homogeneously distributed throughout the whole cytoplasm, excluding cell nuclei and vacuoles. Phot1 was also localized in cotyledon epidermal and guard cells. Such a localization pattern suggests a light-dependent intracellular distribution of phot1 in Ipomoea nil. On the basis of the spatial distribution, the possible role of phot1 is also discussed.     

低温胁迫下董棕（Garyota urens L.）幼苗叶肉细胞内Ca2+水平及细胞超微结构的变化

用焦锑酸钙沉淀的电镜细胞化学方法,研究了低温胁迫下董棕（Garyota urensL.） 幼苗叶肉细胞内Ca2+水平的变化。研究结果表明,未经低温处理的董棕幼苗叶肉细胞,焦锑 酸钙沉淀颗粒大量出现在液泡和细胞间隙中,细胞壁中也可见少量沉淀,而细胞基质中则看 不到焦锑酸钙沉淀;经2 ℃ 48 h低温处理后,细胞基质和细胞膜上焦锑酸钙沉淀增加,而液泡和细胞间隙中的焦锑酸钙沉淀则显著减少,并且超微结构已初步显示出寒害的特征,叶绿体外膜部分破损,类囊体片层稀疏且排列不规则,光合速率明显下降等;经2℃ 120 h低温处理后,细胞间隙内的焦锑酸钙沉淀极少,有的也紧贴在细胞外壁上,而细胞基质和细胞膜上则分布有非常多的焦锑酸钙沉淀,在核基质和液泡中也可见到少量的焦锑酸钙沉淀,并且超微结构遭到了显著破坏,叶绿体结构完全被破坏,核膜与液泡膜严重破损,内部结构模糊,细胞只表现为呼吸作用,不进行光合作用。表明Ca2+的区域性分布的变化与植物抗寒性存在一定关系。     

Intercellular pectic protuberances in Asplenium: new data on their composition and origin

BACKGROUND AND AIMS: Projections of cell wall material into the intercellular spaces between parenchymatic cells have been observed since the mid-19th century. Histochemical staining suggested that these intercellular protuberances are probably pectic in nature, but uncertainties about their origin, composition and biological function(s) have remained. METHODS: Using electron and light microscopy, including immunohistochemical methods, the structure and the presence of some major cell wall macromolecules in the intercellular pectic protuberances (IPPs) of the cortical parenchyma have been studied in a specimen of the Asplenium aethiopicum complex. KEY RESULTS: IPPs contained pectic homogalacturonan, but no evidence for pectic rhamnogalacturonan-I or xylogalacturonan epitopes was obtained. Arabinogalactan-proteins and xylan were not detected in cell walls, middle lamellae or IPPs of the cortical parenchyma, whereas xyloglucan was only found in its cell walls. Extensin (hydroxyproline-rich glycoproteins) LM1 and JIM11 and JIM20 epitopes were detected specifically in IPPs but not in their adjacent cell walls or middle lamellae. CONCLUSIONS: It is postulated that IPPs do not originate exclusively from the middle lamellae because extensins were only found in IPPs and not in surrounding cell walls, intercellular space linings or middle lamellae, and because IPPs and their adjacent cell walls are discontinuous.     

毛竹竹秆基本组织发育过程中过氧化物酶的超微定位

利用电镜细胞化学技术对毛竹竹秆基本组织发育过程中过氧化物酶进行了细胞化学定位。基本组织细胞过氧化物酶活性由胞间隙处的胞间层开始逐渐向中间推进,同期过氧化物酶体、内质网等细胞器也具有酶活性,随后质膜和液泡膜出现酶反应物。次生壁形成期长细胞壁上过氧化物酶高活性主要集中在次生壁窄层中,以休眠期酶活性最高。随着年龄的增加,长细胞的过氧化物酶活性逐渐降低,九年生长、短细胞的过氧化物酶活性已很弱。短细胞的酶活性始终高于长细胞,细胞壁、质膜、运输小泡膜和纹孔也都具有较高的酶活性。短细胞伸长停止与高过氧化物酶活性有关。过氧化物酶分布和活性并不完全对应于木质素的沉积部位,短细胞的过氧化物酶可能参与了长细胞壁中木质素的合成。     

Chill-Induced Changes in the Activity and Abundance of the Vacuolar Proton-Pumping Pyrophosphatase from Mung Bean Hypocotyls

Changes in the properties of extractable vacuolar H+-pumping pyrophosphatase (V-PPase) and vacuolar ATPase activities in chilling-sensitive seedlings of mung bean (Vigna radiata) were investigated. Following chilling at 4[deg]C for 48 h, both hydrolytic and proton-pumping activities of the V-PPase increased 1.5- to 2-fold over controls and remained elevated even after 72 h at low temperatures. Vacuolar ATPase levels did not change significantly throughout the chilling regime. However a large increase in alcohol dehydrogenase activity during chilling suggests a shift toward fermentative metabolism, which can be expected to decrease ATPase activity in situ. Western blotting of vacuolar membrane-enriched fractions from control and treated plants has confirmed that the changes in V-PPase activity are mirrored by increases in the amount of pump protein. Results suggest a specific role for the V-PPase in protecting chill-sensitive plants from the injurious effects of low temperatures via the maintenance of the proton gradient across the vacuolar membrane.     

NaCl胁迫对5个引自北美的树种叶肉细胞超微结构的影响

为明确美国白蜡(Fraxinus americana L.)、茶条槭(Aceginnala Maxim.)、红桤木(Alnus rubra Bong.)、水紫树(Nyssa aquatica L.)和美国皂荚(Gleditsia triacanthos L.)5个引自北美的树种的耐盐性,采用水培方法、利用透射电镜技术对0(对照)、4和8 g·L-1 NaCl胁迫处理后5个树种1年生苗叶肉细胞超微结构的变化进行了观察和比较.观察结果表明:正常条件(0g·L-1NaCl)下,5个树种叶肉细胞在叶绿体形态、嗜锇颗粒数量等方面略有差异,但均未发生质壁分离现象.经NaCl胁迫处理后,5个树种叶肉细胞中的叶绿体和细胞核受到不同程度的损伤,表现为叶绿体膜消失,类囊体片层结构肿胀,叶绿体降解,嗜锇颗粒增大或增多,细胞核的核膜消失、核染色质凝聚;且随NaCl质量浓度的提高,损伤程度均逐渐加剧.4和8g·L-1NaC1胁迫条件下,美国皂荚、茶条槭和水紫树的叶肉细胞发生质壁分离现象,而红桤木、美国白蜡和水紫树的叶肉细胞内出现环状片层.根据观察结果,推测红桤木和美国白蜡对NaCl胁迫的耐性较强,美国皂荚和茶条槭也有一定的耐性,而水紫树的耐性最弱.