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1.
柑橘类植物叶片的气孔研究   总被引:24,自引:1,他引:24  
用扫描电镜观察30个柑橘类植物叶片气孔密度、气孔长轴、气孔器长轴和短轴及气孔器的形态。结果表明,枳叶片气孔呈平列型,金柑和柑橘属植物气孔属无规则型,气孔呈狭长椭圆形,北京柠檬气孔器为圆形,其他试材气孔器为椭圆形。同种类试材的气孔密度、气孔长轴、气孔器大小具有较大的相似性或完全相同,不同种类之间的上述性状则表现较大差异,这说明柑橘叶片气孔密度、气孔长轴和气孔器大小和形态可以作为研究果树遗传育种,区别品种、类型的重要微观特征。  相似文献   

2.
渥丹百合多倍体气孔性状的调查研究   总被引:1,自引:0,他引:1  
用秋水仙素处理二倍体渥丹百合得到四倍体,对渥丹四倍体、二倍体及对照气孔进行观察.3个加倍的四倍体渥丹百合株系的气孔长度分别为51.25、56.50和54.26/μm,对照的气孔长度为37.42 μm,经秋水仙处理未加倍的二倍体株系气孔长度与对照接近,为38.75 μm.四倍体百合株系的气孔长度明显长于二倍体,从气孔密度看,加倍的四倍体渥丹各株系均明显低于二倍体,平均为10个/mm2,而二倍体渥丹及未加倍株系的气孔密度分别为17.1个/mm2和17.9个/mm2.气孔的大小和密度可以作为鉴别渥丹百合多倍体的显著区别性状.同时四倍体渥丹的保卫细胞也较二倍体有显著增大.  相似文献   

3.
以二倍体、四倍体及经秋水仙素处理的黄花蒿植株为试材,采用整体透明技术制备黄花蒿叶片样品,对不同倍性植物的叶片气孔保卫细胞长轴长、短轴长及其周长进行考察,探讨气孔保卫细胞大小与植株倍性的相关性。结果表明:以10%氢氧化钾溶液为透明剂,透化时间为1.5h的透化效果最好;二倍体与四倍体植物的气孔保卫细胞长轴长、短轴长及其周长差异显著,其周长范围分别为57.19~70.33μm和83.36~91.99μm;利用二倍体与四倍体的周长分布在不同区间范围,可以对秋水仙素处理的黄花蒿植株进行快速的初步倍性鉴定。  相似文献   

4.
富士系苹果叶片气孔观察   总被引:5,自引:0,他引:5  
采用酸解离法对富士系苹果叶片气孔进行了观察,从而对富士芽变品种及不同的变异性状进行了鉴别.结果表明:叶片气孔密度的变化范围在91~173个/mm2,保卫细胞长度变化在25.8~32.4 μm之间;保卫细胞宽度变化在18.4~24.2 μm之间,芽变品种的保卫细胞的宽度有变长的趋势.通过聚类分析表明,短枝型芽变品种的气孔密度显著低于原品种的气孔密度,可利用气孔密度进行短枝型芽变品种的鉴定;着色型、早熟型及大果型变异的品种在3个类群中都有分布,不能用气孔性状来鉴别这类变异.  相似文献   

5.
柱型苹果和矮生型梨组培苗叶片表皮结构研究   总被引:1,自引:0,他引:1  
以柱型和普通型苹果各3个品种,矮生型和普通型梨各3个杂种实生苗的组培苗为试材,用扫描电镜观察其叶片表皮结构。结果表明,供试苹果和梨组培苗叶片上表皮细胞均为不规则的多边形,排列无方向性,上表皮无气孔分布。柱型和普通型苹果的上表皮细胞平均密度分别为2986个·mm-2和2087个·mm-2;矮生型和普通型梨的上表皮细胞平均密度分别为2633个·mm-2和1635个·mm-2。柱型苹果和矮生型梨的上表皮细胞密度分别显著高于其普通型。苹果和梨组培苗叶片下表皮气孔分布密集,气孔类型均为无规则型。柱型和普通型苹果的气孔平均长×宽分别为23.21μm×19.58μm和24.17μm×22.96μm,气孔密度平均分别为401.17个·mm-2和262.50个·mm-2;而矮生型和普通型梨气孔平均长×宽分别为29.57μm×20.30μm和26.93μm×24.51μm,气孔密度平均分别为265.67个·mm-2和158.00个·mm-2。柱型苹果、矮生型梨和其普通型之间的气孔长度差异不明显,而气孔宽度均显著小于其普通型,气孔密度均显著高于其普通型。  相似文献   

6.
荔枝、龙眼叶片表皮结构的研究   总被引:1,自引:0,他引:1  
 用扫描电镜观察了荔枝、龙眼各3个品种的叶表皮。结果表明, 龙眼叶片上表皮角质层平均厚度2.36μm , 显著大于荔枝(1.93μm) 。荔枝、龙眼叶片下表皮具有大量的乳状突; 乳状突的密度, 荔枝为7 855.1个/mm2 , 龙眼为7 708.8个/mm2 ; 荔枝的乳状突呈近半圆形, 宽9.55μm, 高5.71μm; 龙眼的乳状突为长形, 宽5.94μm, 高10.38μm; 荔枝、龙眼气孔长×宽分别为6.98μm ×3.09μm、7.14μm×2.30μm。荔枝、龙眼表皮结构特征差异明显。  相似文献   

7.
通过扫描电子显微镜和光学显微镜,对黑龙江省栽培的部分梨品种(系)的叶片形态学特征和解剖学特征进行了比较研究。结果表明:梨品种(系)叶片表皮细胞大小、形态不同,气孔器发生在下表皮,形状多为卵圆形,‘金香水’是长卵圆形;气孔类型为不规则形,气孔密度最大的是‘金香水’,最小的是‘矮山梨’。不同梨品种(系)的栅栏组织和海绵组织厚度不同,‘矮山梨’栅栏组织厚度最大为105.5μm,海绵组织‘金香水’厚度最大为98.4μm。栅海比由大到小依次为:‘秋月梨’‘早香水梨’‘矮山梨’‘金香水’‘红金秋’、8404。这些微形态特征在品种(系)间的差异,对品种的鉴定和育种的早期选择有一定的意义。  相似文献   

8.
【目的】明确3个猕猴桃栽培种的花粉形态学特征,了解其遗传变异特性、亲缘关系,为花粉的外观形态与种间分类提供依据。【方法】利用扫描电镜对30个品系的花粉粒进行形态观察。【结果】花粉粒外观为长球形或超长球形,极面观均为三裂圆形,可看到3条内陷萌发沟。美味猕猴桃萌发沟长度18.08~31.48μm、萌发沟脊宽度4.65~11.42μm、极轴长度21.54~36.05μm、赤道轴长度9.60~17.66μm,极轴/赤道轴1.65~3.05、大小244.90~608.52μm2。中华猕猴桃萌发沟长度14.09~24.96μm、萌发沟脊宽度4.09~9.37μm、极轴长度15.60~30.11μm、赤道轴长度8.85~17.87μm、极轴/赤道轴1.26~2.65、大小182.58~443.18μm2。软枣猕猴桃萌发沟长度16.34~30.06μm、萌发沟脊宽度6.11~11.23μm、极轴长度18.66~32.11μm、赤道轴长度8.76~18.42μm、极轴/赤道轴1.33~2.68、大小166.62~547.07μm2。表面纹饰存在3种类型:(1)波纹状,美味猕猴桃、中华猕猴桃和软枣猕猴桃样品均包含,占样品总数的53.33%;(2)疣状,美味猕猴桃、中华猕猴桃和软枣猕猴桃样品均包含,占样品总数的36.67%;(3)颗粒状,均为软枣猕猴桃,占样品总数的10.00%。【结论】猕猴桃花粉外观形态和大小在相同种内和相同来源环境背景下存在一定的保守性;整体来看,美味猕猴桃花粉最大,其次是软枣猕猴桃花粉,显著大于中华猕猴桃花粉;花粉大小、萌发沟长度、萌发沟脊宽度、极轴长度、赤道轴长度,中华猕猴桃均显著小于美味猕猴桃,可作为2者划分的孢粉学特征依据。  相似文献   

9.
选取3年生"蓝丰"、"北陆"、"美登"蓝莓品种为试验材料,采用石蜡切片法和"指甲油法"观察了3个蓝莓品种叶片解剖结构和气孔特性。结果表明:3个品种的叶片的角质层、表皮细胞、栅栏组织、海绵组织等组织厚度都存在着差异,其中"蓝丰"的角质层、表皮、栅栏组织、海绵组织厚度最大,"北陆"次之,"美登"最小;从叶片组织紧密度来看,"美登"的最大,"北陆"次之,"蓝丰"最小;栅海比参数比较中,"北陆"最大,"美登"次之,"蓝丰"最小;从蓝莓叶片气孔特性来看,"蓝丰"气孔长度和宽度最大,"北陆"次之,"美登"最小,而气孔的密度呈现相反的结果。  相似文献   

10.
选取10个品种的芍药作为研究对象,观察芍药叶片气孔的形态、分布规律,并对其气孔大小、气孔长宽比、表皮细胞密度、气孔密度及气孔指数等进行品种间比较及差异分析.结果表明:10个品种的芍药叶片气孔形态及分布规律一致.各项指标的品种内变异系数均较小.4个品种(1、2、8、9)的4项指标(气孔长度、宽度、长宽比及气孔指数)均没有差异.2个品种(1、9)的5项指标(气孔长度、宽度、长宽比、气孔密度及气孔指数)均没有差异.各项指标相比较,气孔宽度和气孔指数在各品种间变化较小.气孔密度与气孔长度呈反相关.结果不支持将气孔长度、宽度、气孔长宽比、气孔密度、气孔指数及表皮细胞密度作为芍药种或品种分类的依据.  相似文献   

11.
盐胁迫对三色苋叶片气孔分化及开闭的影响   总被引:1,自引:0,他引:1  
任安祥  王羽梅 《园艺学报》2010,37(3):479-484
以三色苋(Amaranthus tricolor L.)为材料,研究了不同浓度(0、50、150、300、500 mmol · L-1)NaCl 处理后气孔的应答反应和300 mmol · L-1 NaCl 长时间处理后对不同叶序叶片气孔开闭和分化的影响。结果表明,盐处理后三色苋的气孔不同程度地迅速关闭,气孔开放率在处理3 h 后达到最低,之后小幅回升。24 h 后除50 mmol · L-1 NaCl 处理外,仍有多数气孔处于关闭状态。长时间盐胁迫使基层的叶片气孔密度略有增加;上层新叶的气孔密度显著降低。长时间盐胁迫使气孔的开放率也降低,越是新分化的叶片盐胁迫对其气孔影响也越大。  相似文献   

12.
以15℃夜温为对照,研究了6℃夜间低温对番茄叶片气孔开张度日变化及叶片结构的影响。结果表明:处理7d时,处理植株叶片气孔器大小和叶面积显著小于对照,气孔密度显著大于对照。表皮厚度极显著大于对照。叶片厚度大于对照,但与对照差异不显著。处理植株番茄叶片气孔张开程度一天中皆小于对照,气孔张开率上午与对照差异不显著,14:00显著小于对照。16:00极显著小于对照;恢复7d时,夜低温处理番茄叶片气孔器显著大于对照。气孔密度、每叶气孔数及单叶叶面积、气孔张开率皆小于对照,叶片气孔开口程度、叶片表皮厚度及厚度大于对照,但差异都不显著;夜间低温处理后叶片栅栏组织显得更紧密,恢复7d后无显著差异。  相似文献   

13.
Two experiments were conducted to determine the effect of Vapor Gard (VG), an antitranspirant, and moisture stress on shoot water potential of container-grown photinia. In Experiment 1, plants sprayed with VG has less moisture stress than plants with no VG when 24.0 and 27.5 mm of net evaporation occurred prior to watering. Recovery periods for shoot water potential were within 4, 8 and 24 h for photinia stressed to 21.5, 24.0 and 27.5 mm of net evaporation, respectively. Photinia with and without VG were compared in Experiment 2. Shoot water potential and stomatal opening were measured pre-dawn daily (for 9 days) on photinia stressed to ?25 and ?35 bars pre-dawn shoot water potential before watering. Plants watered daily had a maximum pre-dawn shoot water potential of ?3 bars, and watered plants had a higher shoot water potential than stressed plants. Within 8 h after watering, plants with a pre-dawn stress of ?25 bars recovered to shoot water potentials of plants watered daily, and stomates closed regardless of VG treatment. Pre-dawn stress to ?35 bars resulted in a longer recovery period of shoot water potential (about 36 h). Stomates were closed on plants treated with VG and open on plants not treated with VG. Defoliation (25–75%) occurred on plants stressed to ?35 bars and not treated with VG.  相似文献   

14.
Leaf water potential (ψ1), whole tree transpiration (F) and leaf surface conductance (g), together with a number of environmental parameters, were measured from early summer until late winter in a well-watered mature ‘Valencia’ orange (Citrus sinensis (L.) Osb.) orchard during the growing season of 1977/78. F and g showed a seasonal trend, with maximum values reached during the late summer. Tree conductance (Ctree), calculated as the ratio between transpiration and the water potential difference between the wet soil and the sunlit leaves, was found to vary seasonally and showed maximum values during late summer. The soil temperature (Ts) showed a seasonal trend similar to Ctree. Analysis of this and other data from the literature confirmed that the sensitivity of tree conductance to soil temperature is related to the climatic origin of the plant species.The linear regression fitted to the relationship between Ctree and Ts was used to calculate soil temperature at apparent zero Ctree. This datum can be used as an index of plant sensitivity to root medium temperature.  相似文献   

15.
 柑橘叶片Ⅰ–型气孔器是在叶片发育早期形成的具有6 ~ 8 个副卫细胞和较大保卫细胞的一 类气孔器。以‘稻叶温州蜜柑’(Citrus unshiu)、‘春见’[C. reticulata ×(C. reticulata × C.sinensis)]、‘卡 拉卡拉’红肉脐橙(C. sinensis)、‘HB 柚’(C. grandis)和‘玫瑰橙’(C. sinensis)等5 个柑橘品种不同 发育阶段的春梢叶片为材料,采用本实验室改良的临时装片法和常规石蜡切片法,研究其发育过程中的 Ⅰ–型气孔保卫细胞程序性死亡及其对表皮结构变化的影响。结果表明:叶片发育过程中,气孔密度呈单 峰变化,并在2/3 伸展叶龄时达到峰值。春梢叶片发育后期,‘稻叶温州蜜柑’、‘春见’和‘HB 柚’的 Ⅰ–型气孔保卫细胞退化率较低。‘玫瑰橙’和‘卡拉卡拉’红肉脐橙的Ⅰ–型气孔保卫细胞几乎全部退化。 DAPI 染色显示发生退化的保卫细胞核内染色质凝集并产生核固缩,进一步形成凋亡小体,初步表明细胞 发生程序性死亡。发生程序性死亡的保卫细胞内原生质凝聚,细胞逐步萎缩,气孔逐渐变小并最终关闭 或消失。Ⅰ–型保卫细胞程序性死亡使‘卡拉卡拉’红肉脐橙和‘玫瑰橙’成熟叶片中气孔器内开口分布 与‘稻叶温州蜜柑’的趋于一致。  相似文献   

16.
Abstract

The effect on leaf physiology and fruit quality, of two irrigation schedules, daily and twice a week irrigation (control), were tested on ‘SRA 63’ Clementine (Citrus reticulata Blanco) during 2002 and 2003. Micrometeorological data revealed a higher impact of everyday irrigation on air and leaf temperature compared with the control. While in 2002 daily irrigation treatment reduced air temperature up to 3.4°C with respect to the control, in 2003 the cooling effect was greater, with reductions of air temperature up to 9°C as compared with the control. In 2002, gas-exchange related parameters were influenced little by daily undertree microsprinkler irrigation, on the contrary, in 2003 net photosynthetic rates were significantly increased by daily irrigation with respect to the control.  相似文献   

17.
以苹果离体叶片为材料,发现外源5-ALA处理可以诱导下表皮保卫细胞内黄酮醇含量显著上升。在5-ALA预处理抑制外源ABA诱导气孔关闭的同时,叶片保卫细胞ROS含量下降,而用外源槲皮素及山奈酚等黄酮醇预处理,也抑制了ABA诱导的苹果叶片气孔关闭,并且降低保卫细胞ROS含量。此外,槲皮素和山奈酚可以抑制外源H2O2诱导的苹果叶片气孔关闭。以上结果喻示,5-ALA诱导苹果叶片气孔开放与其上调保卫细胞中黄酮醇含量而后降低活性氧含量有关。  相似文献   

18.
通过对营养液水培、陶粒浇灌营养液、珍珠岩浇灌营养液、蛭石浇灌营养液、土培5种栽培条件处理下吊兰气孔参数的研究,结果表明,试验中所观察的吊兰叶片气孔呈圆型或椭圆型,保卫细胞半月形。靠近叶尖和叶中部位的气孔分布较叶缘和叶基的多,叶基部位气孔分布相对较少,从叶基到叶尖气孔密度逐渐增大,表现为:叶尖〉叶中〉叶基。不同栽培基质中吊兰叶片中段下表皮气孔参数相比较:土培处理的叶片中段气孔指数最大为41.63%,极显著地高于蛭石浇灌营养液、营养液水培、陶粒浇灌营养液处理;土培单个气孔面积最小,为896.98μm^2,极显著地低于蛭石浇灌营养液、营养液水培、陶粒浇灌营养液处理。  相似文献   

19.
The effects of exogenous application of abscisic acid (ABA) on anti-oxidant enzyme activities and photosynthetic capacity in ‘Sultana’ grapevine (Vitis vinifera L.) were investigated under cold stress. When vines had an average of 15 leaves, 0 (control), 50, 100, or 200 µM ABA was sprayed to run-off on all leaves of each plant. Twenty-four hours after foliar spraying with ABA, half (n = 5) of the water-only control vines and half (n = 5) of each group of ABA-treated plants were subjected to 4°C for 12 h, followed by a recovery period of 3 d under greenhouse conditions (25°/18°C day/night). The remaining plants in each treatment group were kept at 24°C. Cold stress increased H2O2 and malondialdehyde (MDA) concentrations in vine leaves, whereas all foliar ABA treatments significantly reduced their levels. Chilled plants showed marked increases in their total soluble protein contents in response to each ABA treatment. ABA significantly increased the activities of superoxide dismutase, peroxidase, catalase, and ascorbate peroxidase in cold-stressed grapevine leaves. In contrast, cold stress markedly decreased the rates of leaf photosynthesis (A) and evaporation (E), stomatal conductance (gs), and chlorophyll concentrations in leaves, but increased intercellular CO2 concentrations (Ci) in leaves. Treatment with all concentrations of ABA resulted in lower leaf A, E, and gs values, but higher Ci values at 24°C. However, following cold stress, ABA-treated vines showed higher leaf A, E, and gs values, but lower Ci values compared to control vines without ABA treatment. The application of 50–200 µM ABA allowed chilled vines to recover more quickly when re-exposed to normal temperatures, enabling the vines to resume their photosynthetic capacity more efficiently following cold stress. These results showed that, by stimulating anti-oxidant enzyme systems and alleviating cold-induced stomatal limitations, ABA reduced the inhibitory effect of cold stress on the rate of CO2 fixation in ‘Sultana’ grapevine plants.  相似文献   

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