苗期不同光周期对西葫芦花性分化的影响

通过人工控制光照时间 ,探讨了不同光周期对西葫芦花性分化和氧化酶活性及其同工酶的影响。结果表明 ,从促雌效果和雌雄比率来看 ,均为短日的大于长日。究其原因 ,这可能与短日处理能降低过氧化氢酶活性 ,提高过氧化物酶活性 。

光周期处理对黄瓜花性分化及其氧化酶活性影响

通过人工控制光照时间,研究了不同光周期处理对黄瓜强雌系、普通系花性分化和内源氧化酶活性的影响。结果表明,8h光照处理使所有供试材料的雌花节率都高于对照,16h光照处理使所有供试材料的雌花节率都低于对照,两种处理均达到了显著差异。与对照相比,8h光照处理总体上使过氧化物酶活性升高,过氧化氢酶活性降低;16h光照处理使过氧化物酶活性降低,过氧化氢酶活性升高。

温度和光周期与丝瓜花性分化及其生理的研究 Ⅱ 温度和光周期对丝瓜蛋白氨基酸组分含量的影响

应用人工气候室研究了不同温度和光周期组合处理,对丝瓜(Luffa acutangula Roxb.)蛋白氨基酸组分含量的影响,以探讨其与丝瓜花性分化的关系。结果表明,温度和光周期处理对丝瓜叶片的蛋白氨基酸含量及其组分都有影响,不论从氨基酸总量,还是酸性、碱性或中性氨基酸含量,都表现低温短日>高温短日>高温长日>低温长日的趋势。说明短日比长日处理有利于氨基酸的积累;在短日下,低温比高温更有利于氨基酸的积累;处理过程各类氨基酸的百分率及个别组分也发生转化,初步认为这可能使蛋白质或酶的性质或种类也发生相应的变化,从而调节丝瓜的花性分化的方向。

光周期处理对不同基因型有棱丝瓜花性分化和产量的影响

研究了苗期不同光周期处理下，不同基因型有棱丝瓜皇冠一号和夏丝一号两个品种的光周期反应。试验表明，短日照处理能促进两个有棱丝瓜品种植株的雌性发育，提早雌雄花，显著的增加雌花总数，提高雌雄花比率；10h光照处理能极显著提高两个品种产量，6h和8h处理显著减产。皇冠一号的雌雄花比率和产量要极显著的高于夏丝一号，但夏丝一号的雌花开花时间极显著早于皇冠一号。

温度和光周期与丝瓜花性分化及其生理的研究 Ⅲ 丝瓜花性分化与核酸、蛋白质及内源ABA的关系

应用人工气候室研究了不同温度和光周期组合处理,以探讨对丝瓜(Luffaacutangula Roxb.)花性分化与核酸、蛋白质及内源ABA的关系。试验表明,低温和短日条件,可以促进总核酸、RNA、DNA和蛋白质的合成和积累,为丝瓜雌性分化提供良好的物质基础。处理期间ABA含量前后变化不大。F_(ABA)/B_(ABA)比小,F_(ABA)含量降低时,丝瓜雌性分化较强。最后,对温度和光周期影响丝瓜花性分化的生理基础进行了探讨。

不同花性分化时期顶坛花椒花芽激素、多胺和C/N变化规律

【目的】近年来,贵州省关岭县和贞丰县种植的顶坛花椒出现大量开雄花的现象,表明花性分化过程发生了变化。顶坛花椒花性分化过程中生理特征变化表现出怎样规律,目前尚不清楚。为此,探讨了顶坛花椒花性分化过程中激素、多胺以及C/N变化规律,为顶坛花椒花性分化机制及调控提供理论基础。【方法】以贵州省关岭县顶坛花椒为研究对象,采用酶联免疫法测定花性分化不同时期花芽的赤霉素(GA_(3))、吲哚乙酸(IAA)、乙烯(Eth)、脱落酸(ABA)和玉米素(ZR)含量;采用高效液相色谱测定花芽腐胺(Put)、苯乙胺(Pea)、尸胺(Cad)、亚精胺(Spd)、精胺(Spm)、色胺(Try)、组胺(His)和酪胺(Tyr)含量;采用蒽酮比色法测定花芽可溶性糖含量,采用考马斯亮蓝法测定花芽可溶性蛋白质含量,二者的比值为C/N。【结果】(1)在顶坛花椒花性分化不同时期中,IAA和ABA差异显著,且均表现出雌花>雄花>花序轴分化期的花芽的规律,表明高的IAA和ABA含量促进雌花发育;雄花和雌花中GA_(3)含量均显著高于花序轴分化期的花芽,雄花和雌花的GA_(3)含量无差异,表明较高的GA_(3)含量有利于雌花和雄花的发育。(2)在顶坛花椒花性分化不同时期均未检出Put和Pea,其他6种多胺均差异显著;随着花性分化过程的进行,Cad表现出先降低后升高的规律,Spd、Try和His表现出持续降低的规律,表明Cad可能与雌花发育有关,而Spd、Try和His可能与雄花发育关联;Tyr表现出先升高后降低的规律,Spm则仅在雌花中检出,表明高的Tyr含量促进雄花发育而高的Spm含量促进雌花发育。(3)随着花性分化过程的进行,C/N表现出先升高后降低的规律,雄花和雌花的C/N显著高于花序轴分化期的花芽,且雄花的C/N显著高于雌花,表明高的C/N促进雄花发育。【结论】高浓度的IAA、ABA和Spm促进顶坛花椒雌花发育,而高浓度的Tyr和C/N有利于雄花发育,这为未来通过人工施用不同浓度外源激素、多胺或矿质养分调控顶坛花椒花性分化提供参考。

五味子花性分化诱导期及其雌花分化促进技术

五味子[Schisandga chinensis(Tnrcz)Baill]是分布于我国东北、朝鲜半岛、日本及俄罗斯远东地区的野生植物资源,果实作为名贵常用中药材具有修久的历史,在酿酒、制汁等方面也得到广泛应用.近年来,由于需求的不断增加而导致野生资源破坏的日益严重,五味子的人工栽培越来越受到人们的重视.

五味子花性分化的诱导期及雌花分化的促进技术

论述了五味子花性分化的诱导期及雌花分化的促进技术措施,为五味子的人工栽培提供理论依据。

光质调控植物开花时间和花性分化研究进展

光是植物生长发育的重要环境因素和调控信号。关于光周期调控植物开花的途径已经较为清晰,但是光质调控植物花性分化的研究仍少见报道。本文对光质、光受体、植物激素、转录因子等对植物性别决定和开花的影响进行综述,旨在揭示光质调控植物花性分化和开花的机制,为该领域的探索提供参考。

龙眼、荔枝和红毛丹花芽及花性的分化与调控

综述了６０年代以来尤其是近１０多年来年龙眼、荔枝和红毛丹花芽及花性分化的内部变化及其与外部因素关系的研究进展，并对龙眼、荔枝和红毛丹的研究现状进行比较。

高温高湿胁迫对黄瓜产量形成的影响机理

以黄瓜品种‘津优101’(Jinyou101)为试材,于2020年5-9月在南京信息工程大学人工气候室开展人工环境控制实验,以探明高温高湿复合灾害对设施黄瓜产量形成的影响机理。利用温度、湿度、持续时间三因素进行正交试验设计,昼温/夜温设置32℃/22℃、35/25℃、38℃/28℃和41℃/31℃共4个水平,空气相对湿度设置50%、70%和90%共3个水平(湿度变化范围控制在±5个百分点),持续时间设计3、6、9和12d。以昼温28℃/夜温18℃、空气相对湿度50%±5个百分点处理为对照(CK)。测定叶片光合参数、叶绿素含量、顶芽内源激素含量,观测各个节位的花性分化情况及最终产量。结果表明:(1)黄瓜叶片的叶绿素总量随着处理温度的升高和胁迫时间的延长,下降幅度逐渐加大。胁迫12d后叶片叶绿素a、叶绿素b、类胡萝卜素含量达到最低值,分别较CK下降31.51%、22.62%、37.10%;(2)黄瓜叶片的Pmax(最大净光合速率)、LSP(光饱和点)、AQE(表观量子效率)值均随着高温高湿胁迫程度的加深显著降低,41℃高温处理后黄瓜叶片的LSP、AQE、Pmax值达到最低,分别较CK降低48.78%、40.00%、43.04%,日最高温度32~41℃范围内,70%空气相对湿度处理下黄瓜叶片的Pmax值高于其它湿度处理,与CK差异较小;(3)在植株花芽分化进程中,黄瓜顶芽中的ZT(反玉米素)、ABA(脱落酸)和GA3(赤霉素)含量均呈现出先升高后降低的趋势,IAA含量则随着黄瓜植株的生长逐渐减小。黄瓜顶芽中的ZT、IAA、GA3含量均随着温度、胁迫天数的增加而逐渐降低,ABA含量呈反向变化。41℃高温处理结束当日,黄瓜顶芽中ZT、IAA、GA3含量分别较CK降低47.37%、26.38%、83.65%,ABA含量则较CK提高27.27%;胁迫12d后黄瓜顶芽中ZT、IAA、GA3含量达到同时期内的最低值,分别为0.07、1.11、0.75μg·g^(−1),而ABA含量则达到同时期内最高值,为1.89μg·g^(−1);(4)高温高湿胁迫提高了黄瓜各雌花产生节位,而雌花节率和雌雄花花芽数量则降低;70%空气相对湿度处理下雌花产生的节位有所降低,雌花节率和雌花花芽数量有所提高;(5)高温高湿胁迫导致黄瓜产量显著降低,41℃处理后黄瓜产量较CK降低38.50%。研究发现高温通过抑制黄瓜叶片的光合作用,扰乱顶芽中的内源激素平衡,使雌花分化数量减少,从而导致最终产量降低。

北五味子成花特性的研究现状及展望

对北五味子的成花特性研究现状进行了较系统的阐述 ,并结合相关领域不同树种成花特性的研究现状 ,分析了北五味子成花特性研究的不足 ,为北五味子成花特性的进一步研究及解决生产中存在的问题 ,提出一些看法。

Plant Developmental Biology in China: Past, Present and Future

Plant development is a process from germination of seed to vegetative growth, flower initiation and development, fertilization and finally to the next generation seed formation. A lot of achievements have been obtained in plant developmental biology in China. Since the 1990's, those young generation scientists returned to China from abroad to use molecular and genetic techniques to study morphological, physiological and biochemical process of plant development. The present paper reviews the progress in some research area of plant developmental biology in the past decades and also prospects the chance and future of plant developmental studies, due to the recent advances of plant genome sequencing and functional genomics in China under the international research background.

Lonicerae Flos:A Review of Chemical Constituents and Biological Activities

Lonicerae flos,a widely used traditional Chinese medicine(TCM),has been used for several thousand years in China.As a famous traditional Chinese herbal medicine,it was used as heat-clearing drug and alexipharmic agent and was widely cultivated in Hunan province.L.flos mainly contains biologically active compounds such as caffeic acid derivatives,essential oil,flavonoids,iridoid glycosides and terpenoids.A range of biological activities has been reported from plant extracts including anti-inflammatory,antitumor,antioxidant,antiallergy,immunomodulating and antibacterial activity.In this study,the author investigated ancient books of TCM and nowadays reports,summarized the chemical constituents,biological activity of L.flos to provide a comprehensive systematic review.

Polyploidization and sexual dimorphism of floral traits in a subdioecious population of Dasiphora glabra

Aims Sexual dimorphism is a common trait in plants with sex separation,which could influence female and male functions differently.In a subdioecious population of Dasiphora glabra on the Qinghai-Tibet Plateau,we investigated sexual dimorphism of floral traits and their effects on pollinator visitation,pollen flow and seed production.We also examined differences in genome size of hermaphroditic and dioecious plants.Methods We examined sexual dimorphism in flower number,flower size,and pollen and ovule production in a subdioecious population of D.glabra.We compared pollinator visitation,pollen dispersal and seed production between sexes.We also examined the genome size of three sex morphs using flow cytometry.Important Findings The number of hermaphroditic plants was significantly more than that of male and female plants,and dioecious plants accounted for ca.40%in the study population.Hermaphroditic plants produced significantly more flowers than male and female plants.Flower size of male flowers was significantly larger than that of female and hermaphroditic flowers.Male flowers did not produce more pollen grains than hermaphroditic flowers,but female flowers produced more ovules than hermaphroditic flowers.Flies were the most frequent flower visitors and preferred large flowers,but their movements between flowers did not show any preference to large flowers.Simulated pollen flows suggested that effective pollen transfer was generally low for both hermaphroditic and male flowers,corresponding to the low seed set of naturally pollinated flowers.DNA contents of male and female plants were ca.four times than those of hermaphroditic plants.These results suggest male and female individuals have undergone polyploidy events and thus are not compatible with hermaphroditic individuals.Sexual dimorphism in floral traits in relation to pollination of dioecious plants might show an advantage in female and male functions,but this advantage is masked largely by low effectiveness of pollen transfer.