高温胁迫对水稻花粉粒性状及花药显微结构的影响

对两个耐热性不同的水稻品系进行高温处理(8:00～17:00,37℃,17:00～8:00,30℃),测定了高温胁迫对水稻花粉粒性状及花药显微结构的影响.结果表明,高温胁迫导致花药开裂、花粉活力、花粉萌发率和柱头上花粉粒数的显著下降,花粉粒直径增大.高温下耐热品系996的花药开裂、花粉活力、花粉萌发率和柱头上花粉粒数明显高于热敏感品系4628,这表明耐热品系996在高温胁迫条件下能保持较好地花粉散落特性和花粉萌发特性,是其耐热性的生理基础;高温下耐热品系996的花药壁的表皮细胞排列较整齐,细胞间隙小;药隔维管束较大,维管束鞘细胞排列整齐,簿壁细胞多且排列整齐,木质部和韧皮部清楚可见;而热敏感品系4628花药壁的表皮细胞形状不规则,排列疏松,细胞间隙大,药隔维管组织受到很大程度破坏,维管束鞘细胞形状异常,排列紊乱,木质部和韧皮部界限不清.     

开花期低温胁迫对水稻花粉性状及剑叶理化特性的影响

以耐冷水稻品种996和冷敏感品种4628为材料,开花期在人工气候室进行7 d低温（06:00-8:00和19:00-23:00,19 ℃;08:00-10:00和16:00-19:00,21 ℃;10:00-16:00,23 ℃;23:00-06:00,17 ℃）和适温（06:00-8:00和19:00-23:00,24 ℃;08:00-10:00和16:00-19:00,26 ℃;10:00-16:00,30 ℃;23:00-06:00,22 ℃)处理,研究了低温胁迫对水稻花药开裂、花粉性状及剑叶叶绿素、可溶性糖和可溶性蛋白质含量、膜透性等理化特性的影响.结果表明：开花期低温胁迫导致水稻花药开裂系数、花粉萌发率显著下降,中部和下部颖花的不育花粉率增加.996的花药开裂系数和花粉萌发率显著高于4628,表明耐冷品种996在开花期低温胁迫下能保持较好的花粉散落特性和花粉萌发特性.低温胁迫下,996的剑叶可溶性蛋白质和游离脯氨酸含量及其增幅显著高于4628,而丙二醛含量和相对电导率及其增幅却显著低于4628,说明耐冷品种在低温胁迫下的保护性反应更迅速和强烈,其膜结构及功能更稳定.     

不同成熟度对水稻种子萌发及其生理特性的影响

对抽穗后15、20、25、30和35d不同成熟度的水稻种子的萌发情况及其生理特性进行了研究。结果表明,随着种子成熟度增加,种子的发芽率、发芽势、活力指数逐渐提高,种子中过氧化物酶（POD）、过氧化氢酶（CAT）、脱氢酶和淀粉酶的活性、可溶性蛋白质和脱落酸（ABA）含量呈现上升趋势,抽穗后30d达最大值,稍后有所下降,而种子的可溶性糖、赤酶素（GA3）和生长素（IAA）含量则呈现下降趋势。在抽穗后15～35d,‘996’种子的发芽率、发芽势、活力指数、4种酶活性、可溶性蛋白质含量、可溶性糖含量、GA3和IAA含量均高于‘4628’种子的,而ABA含量则低于‘4628’种子。     

葱胞质雄性不育花蕾生化物质含量和能量代谢酶活性的动态变化特征

以葱胞质雄性不育系CA及其同核异质保持系CB为试材,研究了花蕾发育过程中IAA、GA3、ZR、ABA含量以及细胞色素氧化酶(COD)和ATP酶(ATPase)活性、可溶性糖、游离氨基酸和可溶性蛋白质含量的动态变化规律.结果显示:(1)葱不育系花蕾的IAA和GA3含量在败育过程中显著低于保持系,而ZR和ABA含量则较保持系有不同程度的盈积.不育系花蕾COD和ATPase活性以及游离氨基酸含量、可溶性蛋白质含量在中蕾期后显著低于保持系,可溶性糖在不同发育时期均基本低于保持系.(2)不育系花蕾IAA和GA3含量与可溶性糖含量变化均呈显著正相关,不育系ZR和保持系ABA含量则分别与COD、ATPase活性以及可溶性糖、可溶性蛋白质含量存在负相关关系.研究表明,葱胞质雄性不育系花蕾中IAA和GA3亏缺,而ZR和ABA盈余,各种内源激素含量和营养物质含量与能量代谢有关酶活性相关性不尽相同.     

棉花洞A型核雄性不育系花药败育过程中的生化变化

研究了陆地棉洞A型核雄性不育系(抗A1,MA)不育和可育花药不同发育时期可溶性碳水化合物、游离氨基酸和IAA、GA3、ABA含量的动态变化。结果表明,不育花药中可溶性糖含量偏高,缺乏淀粉积累;有4种游离氨基酸含量在可育与不育花药问存在显著差异,其中不育花药天门冬氨酸含量偏高,这可能是其败育的原因之一,而脯氨酸、精氨酸、苯丙氨酸含量异常,则是不育花药败育的结果;在花药主要败育时期之前,不育花药中ABA含量极显著偏高,IAA、GA3含量极显著偏低。不育花药中IAA、GA3、ABA含量变化与洞A型核雄性不育系花药败育密切相关。     

水稻、玉米和狼尾草花粉低温贮藏期间激素和维生素含量及呼吸速率变化

测定了水稻、玉米和狼尾草花粉在低温(4±1℃)贮藏时内源激素(IAA、GA3、ZT和ABA)、维生素B.维生素C、维生素E、类胡萝卜素含量和呼吸速率的变化,结果表明IAA、GA3、ZT、维生素B2、维生素C、维生素E、类胡萝卜素的含量和呼吸速率在贮藏期间下降,而脱落酸的含量不断上升.与短寿命的水稻和玉米花粉相比,长寿命的狼尾草花粉的IAA和GA3含量及呼吸速率低,下降速度慢,而ABA始终保持较高水平.     

铅对水稻植物激素含量的影响

目的:研究铅对水稻植物激素含量的影响.方法:以湘早籼24和八两优100为材料,通过盆栽试验,采用高效液相色谱法测定不同浓度铅处理下水稻根和叶中植物激素的含量.结果:在低浓度铅胁迫下,湘早籼24叶中GA1和CTK含量以及与ABA比值、八两优100叶中GA1和IAA含量以及与ABA比值均增加,两个品种根中GA1和IAA含量以及与ABA比值增加、而ABA含量均有降低趋势.在高浓度铅胁迫下,两个品种的叶和根中GA1、IAA和CTK含量以及与ABA比值均降低;根中ABA含量增加.两个品种叶中ABA含量均随铅处理浓度的增加而增加.结论:低浓度铅能促进水稻的生长发育,而在高浓度铅胁迫下,水稻的生长发育受到抑制,这些作用与其差异调节水稻体内多种植物激素含量和激素间比值有关.     

辣椒胞质雄性不育系和保持系内源激素含量的比较

以2个辣椒品系(199807、199803)的胞质雄性不育系和相应保持系为实验材料,采用酶联免疫吸附法(ELISA)测定IAA、(Z ZR)、GA3和ABA等内源激素含量,用气相色谱分析仪测定乙烯(ETH)释放量,对辣椒胞质雄性不育系和相应保持系内源激素含量变化规律进行研究.实验结果表明:在四分小孢子之前,花药中的IAA含量不育系显著高于保持系,在四分小孢子时期花药和花蕾中的IAA含量出现转折,到花粉粒成熟期的花蕾和花药以及开花期叶片中的IAA含量均是不育系显著低于保持系;小孢子各发育时期花药以及花期叶片中GA3含量均是不育系高于保持系,但花粉粒成熟期化蕾中GA3含量为不育系低于保持系;小孢子不同发育时期的花药以及花期叶片中ABA含量始终足不育系显著高于保持系,而花粉粒成熟期花蕾中ABA含量不育系与保持系没有显著差异;花粉粒成熟期的花蕾和花期叶片中ETH释放量表现为不育系显著高于保持系.同时,花粉粒成熟期的花蕾、花药和叶片中IAA/ABA、(Z ZR)/ABA、GA3/ABA、IAA/GA3、(Z ZR)/GA3等5个激素的比值均有不育系低于保持系的趋势.本实验结果说明辣椒的育性表现与花器和叶片等组织中内源激素的含量变化有关,花药和花期叶片中IAA亏缺、GA3和ABA增加以及化蕾和叶片中ETH过度产生,都有可能导致辣椒雄性不育.     

华中五味子种子的发育和3种内源激素含量的变化

研究秦岭地区野生华中五味子种子的发育及其不同发育时期种子中内源激素GA3、IAA和ABA含量变化的结果表明：盛花期后80d华中五味子种子形态发育已完善,相对含水量降至28．8％,盛花期后60d和80d的可溶性糖和可溶性蛋白含量分别达到最大,GA3和IAA含量以及ABA含量分别在盛花期后30d和70d达到最大。     

水稻细胞质雄性不育系及其保持系幼穗发育过程中内源激素的变化

利用酶联免疫测定技术研究了水稻细胞质雄性不育系珍汕97A及其保持系珍汕97B在幼穗发育过程中叶片、幼穗和花药中内源IAA、GA1＋4、ABA和iPAs含量的动态变化。结果表明,1）从幼穗发育的雌雄蕊形成期到三核花粉期,保持系叶片中IAA水平高于不育系,并在二核花粉期最高;在幼穗和花药中也以保持系为高。2）保持系与不育系叶片中GA1＋4含量变化趋势相似,均为先升后降,但从单核到三核花粉期以保持系为高;在幼穗和花药中也都以保持系为高。3）不育系叶片中ABA水平在幼穗发育早期明显高于保持系,中期与保持系相近,后期又高于保持系;在幼穗和花药中也都以不育系为高。4）保持系叶片、幼穗和花药中iPAs含量始终显著高于不育系。5）保持系叶片中IAA＋GA1＋4＋iPAs与ABA之比值也始终高于不育系。提示不育系叶片、幼穗和花药中IAA、GA1＋4、iPAs和ABA含量出现了异常,且IAA、GA1＋4和iPAs亏缺以及ABA盈积可能与水稻细胞质雄性不育发生有关。     

Interactive effects of high temperature and elevated carbon dioxide concentration on cowpea [Vigna unguiculata (L.) Walp.]

Limitations in carbohydrate supplies have been implicated as a factor responsible for reproductive failure under heat stress. Heat stress affects two stages of reproductive development in cowpea [Vigna unguiculata (L.) Walp.], and genotypes are available with tolerance and sensitivity to heat during these different stages. The objectives of this study were to determine the responses of these cowpea lines to ambient and elevated [CO₂], under heat stress and optimal temperature, and test whether differences in carbohydrate supplies due to genotypes, CO₂ enrichment and heat stress are associated with differences in sensitivity to heat during reproductive development. Plants were grown in reach-in growth chambers and subjected to day/night temperatures of either 33/20 or 33/30°C, and [CO₂] levels of either 350 or 700 μmol mol^-1. Under intermediate night temperature (33/20°C), all lines set substantial numbers of pods. Under high night temperature (33/30°C) with either ambient or elevated [CO₂], one heat-sensitive line produced no flowers and the other set no pods, whereas the heat-tolerant line abundantly set pods. High night temperature reduced the overall carbohydrate content of the plants, especially peduncle sugars, and caused decreases in photosynthetic rates. The high pod set of the heat-tolerant line, under high night temperature, was associated with higher levels of sugars in peduncles compared with the heat-sensitive lines. The heat-tolerant line accumulated substantial shoot biomass, exhibited less accumulation of starch in leaves, and possibly had less down-regulation of photosynthesis in response to CO₂ enrichment and heat stress than the heat-sensitive lines. Elevated [CO₂] resulted in higher overall carbohydrate levels in heat-sensitive lines (starch in leaves, stems and peduncles), but it did not increase their heat tolerance with respect to flower production or pod set. Heat-induced damage to floral buds and anthers in the sensitive lines was associated with low sugars levels in peduncles, indicating that heat had greater effects on assimilate demand than on leaf assimilate supply. The heat-tolerant line was the most responsive genotype to elevated [CO₂] with respect to pod production under either high or intermediate temperatures.     

高效液相色谱法同时检测棉花根中的多种植物激素

目的：探寻高效液相色谱同时检测棉花根中多种植物激素含量的方法。方法：采用WatersC18反相色谱柱（4.6×250mm,5μm）,在柱温为35℃、流速为1mL.min-1的条件下,以乙腈和三乙胺溶液为流动相梯度洗脱,在每种物质的保留时间附近切换至最大吸收峰（GA3除外）波长作为检测波长,并与254nm同一波长检测多种植物激素含量的方法进行比较,分离和检测棉花根中的玉米素（Z）、玉米素核苷（ZR）、赤霉酸（GA3）、生长素（IAA）和脱落酸（ABA）的含量。结果：切换波长法检测5种植物激素的灵敏度和回收率均较高,检出限均较低。回收率为：Z 96.82%、ZR 94.14%、GA3 92.75%、IAA 93.38%、ABA 95.57%;检出限为：Z 0.1μg.mL-1、ZR 0.1μg.mL-1、GA3 0.5μg.mL-1、IAA 0.3μg.mL-1;ABA 0.05μg.mL-1,能准确检测出棉花根中Z、ZR、GA3、IAA和ABA的含量。结论：采用Waters C18反相色谱柱（4.6×250mm,5μm）,在柱温为35℃、流速为1mL.min-1的条件下,以乙腈和三乙胺溶液为流动相梯度洗脱,结合切换波长法能同时检测出植物组织中多种植物激素含量。     

The Relationship Between Yield and the Antioxidant Defense System in Tomatoes Grown Under Heat Stress

Four putative heat-tolerant tomato (Lycopersicum esculentum) cultivars (Tamasabro, Heat Wave, LHT-24, and Solar Set) and one putative heat-sensitive tomato culti-var (Floradade) were grown in the field under non-stress (average daily temperature of 26°C) and heat-stress (average daily temperature of 34°C) conditions. At anthesis, approximately five weeks after being transplanted to the field, leaf samples were collected for antioxidant analyses. Yield was determined by harvesting ripe fruit seven weeks after the collection of leaf samples. Heat stress resulted in a 79.1% decrease in yield for the heat-sensitive Floradade, while the fruit yield in the heat-tolerant cultivars Heat Wave, LHT-24, Solar Set, and Tamasabro was reduced 51.5%, 22.1%, 43.8%, and 34.8% respectively. When grown under heat stress, antioxidant activities were also greater in the heat-tolerant cultivars. Superoxide dismutase (SOD) activity increased up to 9-fold in the heat-tolerant cultivars but decreased 83.1% in the heat-sensitive Floradade. Catalase, peroxidase, and ascorbate peroxidase activity increased significantly in all cultivars. Only Heat Wave showed a significant increase in glutathione reductase in response to heat stress but all heat-tolerant cultivars exhibited significantly lower oxidized ascorbate/reduced ascorbate ratios, greater reduced glutathione/oxidized glutathione ratios, and greater a-tocopherol concentrations compared to the heat-sensitive cultivar Floridade. These data indicate that the more heat-tolerant cultivars had an enhanced capacity for scavenging active oxygen species and a more active ascorbate-glutathione cycle and suggest a strong correlation between the ability to up-regulate the antioxidant defense system and the ability of tomatoes to produce greater yields when grown under heat stress.     

外源褪黑素对高温胁迫条件下黄瓜幼苗氮代谢的影响

以‘津优4号’（热敏感型）和‘美国保尔’（耐热型）黄瓜幼苗为试材,研究了叶面喷施褪黑素对高温胁迫条件下黄瓜幼苗氮代谢的影响。结果显示,高温胁迫下,（1）两种黄瓜幼苗硝态氮含量先升高后降低,‘津优4号’总氮和氨态氮含量先下降后持续升高,而‘美国保尔’总氮和氨态氮含量持续上升;（2）两种黄瓜幼苗硝酸还原酶（NR）活性均先上升后下降,而谷氨酰胺合成酶（Gs）、谷氨酸合成酶（GOGAT）和谷氨酸脱氢酶（GDH）均持续下降,‘美国保尔’的4种酶活性下降幅度显著低于‘津优4号’。研究结果表明,叶面喷施褪黑素可有效缓解高温胁迫对NR、GS、GOGAT和GDH的抑制作用,显著增加硝态氮含量,降低氨态氮含量,减轻氨态氮积累对黄瓜幼苗造成的毒害作用,增强高温胁迫条件下黄瓜幼苗氮素的代谢能力,减轻高温胁迫对黄瓜幼苗造成的伤害,提高黄瓜幼苗抵御高温胁迫的能力。     

利用高效液相色谱法分离和测定棉花组织培养过程中4种内源激素

目的：优化利用高效液相色谱法测定棉花组织培养过程中吲哚-3-乙酸（IAA）、玉米素（ZT）、赤霉素（GA3）和脱落酸（ABA）等4种植物内源激素的条件,了解棉花胚性愈伤组织发生过程中4种内源激素及激素含量比例的规律性变化,以及添加不同外源激素对内源激素和愈伤组织的影响,为棉花组织培养由经验型变为理论型提供基础。方法：采用高效液相色谱法。结果：棉花胚性愈伤组织发生过程中4种内源激素及激素含量比例呈规律性变化：ZT、ABA、ABA/GA3、ABA/IAA呈现先上升后下降的趋势,GA3呈现先上升后下降再上升的趋势,ZT/IAA呈现明显的上升-下降-上升-下降的趋势;不同激素组合诱导下愈伤组织中内源激素含量及愈伤组织状态也有较大差别。结论：研究结果对指导组织培养过程中激素的调整和配比、制定适宜的培养计划有一定的指导意义;4种不同的内源激素都是愈伤组织生长的重要因子,各自适宜的浓度和恰当的比例调节着外植体的脱分化和再分化,各种激素协同作用促进细胞的生长和分化。     

Possible correlation between high temperature-induced floret sterility and endogenous levels of IAA,GAs and ABA in rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.)

In order to explore the possible physiological mechanism of high temperature induced sterility in rice, we examined the floret sterility and endogenous plant growth regulator contents in pollens of two hybrid rice cultivars Shanyou63 and Teyou559 that are tolerant and susceptible to high temperature, respectively. Indexes of floret sterility, pollen activity, and variation of endogenous indole-3-acetic acid (IAA), gibberellic acids (GAs), abscisic acid (ABA), free proline and soluble proteins in anthers were measured. We found that during the course of high temperature treatment, both cultivars exhibited a marked decrease in pollen activity, pollen germination and floret fertility; however, the high temperature tolerant Shanyou63 showed a much slower rate of decrease than the high temperature susceptible Teyou559. In addition, anthers of both cultivars displayed a decrease in the contents of IAA, GAs, free proline and soluble proteins but an increase in the ABA content. Yet compared to Teyou559, Shanyou63 retained significantly higher levels of free praline and GAs and a lower level of ABA, along with higher pollen vigour and pollen germination rate even after prolonged high temperature treatment. Our study suggests a possible correlation between pollen viability/floret sterility and high temperature-caused changes in IAA, GAs, ABA, free proline and soluble protein contents. The severity in these changes may reflect the variation of rice cultivars in their heat stress sensitivities for floret development.     

Growth characteristics and endosperm structure of superior and inferior spikelets of indica rice under high-temperature stress

Heat stress severely reduces rice yield and quality; however, differences between the superior, early-flowering and inferior, later-flowering spikelets of indica rice in response to high-temperature stress during grain filling remain unclear. This study investigated the effects of high temperature (HT, 33.6/20.7 °C day/night) on growth, endosperm structure, and hormone and polyamine content of superior and inferior spikelets of heat-sensitive (SG-1) and heat-tolerant (HHZ) indica cultivars. The HT decreased fertilization rate, caused earlier grain filling, and reduced duration of grain filling, thus resulting in decreased grain mass and a poor endosperm structure. In addition, soluble sugar and sucrose content increased, and starch synthesis decreased by HT at the early stage of grain filling. The HT increased polyamine [spermidine (Spd) and spermine (Spm)] and abscisic acid (ABA) content, but reduced zeatin (Z) + zeatin riboside (ZR) and indole-3-acetic acid (IAA) content in the grains. Such effects were more apparent in the inferior than superior spikelets; however, the inferior spikelets of SG-1 were more affected than those of HHZ. At the middle grain filling stage, HT produced little difference between the two cultivars. Our results suggest that the poor development of inferior spikelets of SG-1 under the HT could be attributed, at least in part, to the changed content and ratios of free polyamines [putrescine (Put), Spd, and Spm] and phytohormones (Z+ZR, IAA, and ABA) and the conversion efficiency of sucrose into starch.     

高温胁迫下不同茄子品种幼苗耐热性研究

以14个茄子品种为材料,研究了高温对茄子幼苗的热害指数、恢复指数、电解质渗透率、脯氨酸、可溶性糖含量的影响。结果表明,43／38℃(昼／夜)高温处理下,茄子幼苗热害指数升高,电解质渗透率和脯氨酸含量增加,可溶性糖含量下降。其中。热害指数、恢复指数、电解质渗透率、脯氨酸含量可作为不同茄子品种耐热性的筛选指标。而可溶性糖含量不宜作为耐热筛选指标。高温胁迫条件下,N1(农友茄)表现出极强的耐热性。C2(刺红茄)、F3(丰研二号)、F4(伏龙茄)、Y5(圆杂二号)、X6(西安绿茄)、B7(北京六叶)、Y8(野茄2号)、N9(粘毛茄)、B11(北京五叶)耐热性中等,K11(快圆茄)、R12(二苠茄)、C13(赤茄)、G14(刚果红茄)耐热性极差。