扁桃生理落果期不同组织激素浓度的动态变化及其对落果的影响

为探明扁桃幼果生理脱落与GA3、IAA和ABA等3种激素的关系,以新疆‘纸皮’扁桃为试材,分析新梢、结果枝组、幼果和果柄(包括正常发育幼果和果柄、即将脱落幼果和果柄)中3种内源激素浓度的动态变化规律,并分别涂抹3种外源激素调查其对坐果率的影响。结果表明:(1)‘纸皮’扁桃幼果脱落期和新梢生长期重合,扁桃生理落果期不同组织中3种内源激素浓度变化趋势与新梢生长期和幼果脱落期的动态特征基本一致。(2)扁桃生理落果期间,正常的和即将脱落的幼果及其果柄中内源激素浓度呈规律性变化,即:GA3和IAA浓度表现为正常果和正常果果柄始终大于相应的落果和落果果柄,而内源ABA浓度表现则与之相反,同时对应外源涂抹试验也印证了幼果和幼果果柄中高GA3和IAA浓度、低ABA浓度有利于扁桃坐果。(3)新梢和幼果中对应内源激素之间的浓度平衡关系也是调控扁桃幼果生理脱落的重要因素,即:新梢与幼果的GA3比值和IAA比值增大、而ABA比值减少将会促进幼果脱落,反之则减缓幼果脱落。     

萘乙酸与多效唑对茉莉成花及新梢内源激素含量的影响

在茉莉开花前期分别使用不同浓度NAA与PP333均匀喷施于植株茎、叶片等生长部位,对其新梢与花蕾生长及其4种内源激素--生长素(IAA)、赤霉素(GA)、脱落酸(ABA)、玉米素核苷(ZR)的含量变化进行分析.结果表明:(1)NAA处理使茉莉新梢徒长,成花比对照推迟2～4 d;PP333处理的茉莉新梢矮化,而成花比对照提早2～4 d.(2)NAA处理后,茉莉新梢中IAA与ABA含量处理初期较高,后快速下降,后期稳定在较高水平;GA含量稍低于对照,ZR含量降低并稍低于对照.PP333处理后,茉莉新梢中IAA与ABA含量初期较高,而后缓慢下降;GA含量与对照一样快速上升;ZR含量在初期含量较高,后缓慢下降,但较对照稳定在较高水平.(3)PP333处理的茉莉植株新梢中ABA/IAA、GA/IAA、ZR/IAA比值在处理后迅速上升,特别是GA/IAA、ZR/IAA比值明显高于对照,而相应NAA处理的3个比值与对照无明显差异.可见,经NAA与PP333处理能明显调节茉莉新梢及花蕾生长进程,保持较高水平的内源激素GA、ZR、GA/IAA、ZR/IAA比值在茉莉新梢及花蕾生长过程中起关键作用.     

香梨果实成熟衰老过程中4种内源激素的变化

以库尔勒香梨[白梨(PyrusbretschneideriRehd.)的变种]为材料,在果实生长发育、成熟衰老期间检测内源IAA、GA3、ABA、乙烯含量变化规律及其相互关系。结果表明果实发育初期IAA、GA3、ABA含量最高,有利于幼果坐果;CA3与ABA的比值变化对果实迅速膨大起关键作用;高浓度GA3对阻抑叶绿素分解起明显作用;果实成熟衰老期间,IAA含量与乙烯释放速率呈方向相同的变化;在此期间GA3含量变化与乙烯释放变化相反。     

扁桃幼果发育过程中的内源激素含量变化

用高效液相色谱测定扁桃幼果发育过程中脱落与否的果实中内源生长素(IAA)、赤霉素(GA3)和脱落酸(ABA)含量变化的结果表明,幼果发育初期,脱落幼果中IAA和GA3含量均明显低于未脱落的,而ABA含量则明显高于未脱落的果实。     

BA、GA3和IAA对富士苹果果形形成的影响

以9年生富士苹果为材料,研究富士苹果形成过程中BA、GA,和IAA对果形、品质、内源激素含量的影响。结果表明：在花期喷GA,对富士苹果的坐果率影响效果最好,分别比清水对照和无处理对照提高49％和79．45％。BA100mg·L^-1GA3300mg·L^-1＋IAA20mg·L^-1对降低富士苹果偏斜率效果最好。在花期、花期＋幼果期和幼果期分别喷BA和在花期喷GA3可以提高果实中可溶性固形物的含量。花期喷IAA、BA、GA,和BA＋GA,＋IAA对内源激素IAA和GA3的含量均有促进作用,在整个生长季内不同处理下IAA、GA3含量均高于清水对照且差异明显;花期喷BA、GA3和BA＋GA3＋IAA对内源激素ZT含量有促进作用,尤其在果实幼果期和膨大期与清水对照相比效果明显;花期喷GA3和BA＋GA3＋IAA与清水对照相比内源激素ABA含量有明显降低,其中幼果期变化显著。     

香梨的果表突起和落果裂果与果实中内源激素之间的关系（简报）

6月初香梨落果中GA3、IAA含量高于发育正常的果实,ABA含量几无变化。7月底、8月初果实迅速膨大期间,无论裂果与否的果实中均未检出IAA,但裂果中GA3和ABA含量均高于而GA3／ABA则低于发育正常果0实。萼端突起部位的内源激素含量高于梨身。     

无花果花芽分化与内源激素含量的关系

在‘布兰瑞克’无花果花芽分化形态学研究的基础上,对花芽分化期无花果新梢第7或第8节位花芽中的玉米素核苷(ZRs)、脱落酸(ABA)、赤霉素(GA1 3)、生长素(IAA)4种内源激素含量的变化进行了探讨。结果表明,在无花果花芽分化阶段,GA1 3和IAA初期含量较高,后快速下降,后期稳定在较低水平;ZRs和ABA在初期含量较低,后大幅提高,后期稳定在较高水平。可见,较高水平的内源ZRs、ABA和较低水平的内源GA1 3、IAA,以及较高的ABA/IAA、ABA/GA1 3、ZRs/GA1 3和ZRs/IAA比值有利于无花果花芽分化。     

化橘红生理落果与若干生理生化指标的关系

通过测定正常果与脱落果若干生理生化指标的变化,探讨化橘红生理落果的机理.结果显示,N、P、K、Ca、Mg含量正常果一致地高于脱落果;脱落果总糖含量呈下降趋势,正常果则先升后降;果实中生长促进类内源激素(GA3、IAA、ZT)含量正常果显著高于脱落果,而ABA/(GA3 LAA ZT)值则是脱落果显著地高于正常果;三类水解酶活性均为脱落果显著高于正常果.说明化橘红果实的脱落与果实内部的矿质元素、总糖、内源激素含量和水解酶活性密切相关.     

柑橘果实生长发育过程中果实不同部位的4种内源激素含量变化的研究

以单性结实的国庆1号温州蜜柑和自花结实的华农本地早橘为材料,研究了果实生长发育过程中果实不同部位的吲哚乙酸(IAA)、脱落酸(ABA)、赤霉素(GA1/3)和玉米素核苷(ZR)含量的变化。结果表明:(1)国庆1号果皮IAA、GA1/3和ZR含量在幼果阶段均相对较高,随后果皮和果肉IAA含量均趋下降,而在果实膨大期内果肉ABA和果皮、果肉GA1/3、ZR含量均出现上升峰值,果实成熟采收时果皮和果肉ABA含量均明显回升。(2)华农本地早种子、果皮和果肉IAA及其种子ABA含量均在果实膨大期内出现明显峰值,在幼果阶段至果实膨大初期内种子GA1/3和ZR含量均居较高并出现明显上升,对应的果皮、果肉4种内源激素水平均相对较低且变幅小。还就两结实类型柑橘果实生长发育与其内源IAA、ABA、GA1/3和ZR含量动态的关系进行了讨论。     

华中五味子雌雄株花期叶片中内源激素的比较

对华中五味子雌雄株花期叶片中4种内源激素含量进行测定和比值的比较,结果表明,雌株叶片中的ABA含量显著高于雄株,IAA、GA3和ZR含量则显著低于雄株,ABA/IAA、ABA/GA3和ABA/ZR比值显著高于雄株,这可能与华中五味子性别分化有关。     

烯效唑浸种对玉米幼苗生长和内源激素含量的影响

烯效唑浸种对玉米苗期叶片和叶鞘伸长生长有抑制作用,且抑制效应随烯效唑浓度的增大而增强,但植株粗壮,叶宽和茎基宽增加,根系增多,根长增加.烯效唑浸种的玉米幼苗中LAA和GA3含量下降,叶鞘中尤为明显;ZT含量则是地上部提高,根中下降,ABA含量提高,植株各器官中(IAA GA3)/ABA比值均下降,IAA/GA3比值均升高,IAA/ZT和GA3/ZT比值则是地上部降低,根中升高.     

Uniconazole-induced tolerance of soybean to water deficit stress in relation to changes in photosynthesis, hormones and antioxidant system

This study investigated whether uniconazole confers drought tolerance to soybean and if such tolerance is correlated with changes in photosynthesis, hormones and antioxidant system of leaves. Soybean plants were foliar treated with uniconazole at 50 mg L-1 at the beginning of bloom and then exposed to water deficit stress at pod initiation for 7 d. Uniconazole promoted biomass accumulation and seed yield under both water conditions. Plants treated with uniconazole showed higher leaf water potential only in water-stressed condition. Water stress decreased the chlorophyll content and photosynthetic rate, but those of uniconazole-treated plants were higher than the stressed control. Uniconazole increased the maximum quantum yield of photosystemand ribulose-1,5-bisphosphate carboxylase/oxygenase activity of water-stressed plants. Water stress decreased partitioning of assimilated 14C from labeled leaf to the other parts of the plant. In contrast, uniconazole enhanced translocation of assimilated 14C from labeled leaves to the other parts, except stems, regardless of water treatment. Uniconazole-treated plants contained less GA3, GA4 and ABA under well-watered condition than untreated plants, while the IAA and zeatin levels were increased substantially under both water conditions, and ABA concentration was also increased under water stressed condition. Under water-stressed conditions, uniconazole increased the content of proline and soluble sugars, and the activities of superoxide dismutase and peroxidase in soybean leaves but not the malondialdehyde content or electrical conductivity. These results suggest that uniconazole-induced tolerance to water deficit stress in soybean was related to the changes of photosynthesis, hormones and antioxidant system of leaves.     

Uniconazole-induced tolerance of rape plants to heat stress in relation to changes in hormonal levels, enzyme activities and lipid peroxidation

Winter rape (Brassica napus L. cv. 601) seedlings were treated with 50 mg.l-1of foliar-applied uniconazole and then exposed to heat stress with a light/dark temperature regime of 43 °C/38 °C for 3 days at the stem elongation stage. Heat stressed plants contained lower endogenous GA3, IAA and zeatin contents than the controls, while ABA content and ethylene level were increased significantly. Uniconazole-treated plants had lower endogenous GA3 and IAA contents, and higher zeatin and ABA contents and ethylene levels. Leaf chlorophyll content and respiratory capacity of roots were reduced markedly after plants were subjected to heat stress, and foliar sprays of uniconazole retarded the degradation of chlorophyll and increased respiratory capacity of roots. Following exposure to heat, the activities of superoxide dismutase and peroxidase were significantly reduced. Uniconazole-induced heat tolerance was accompanied by increased activities of various antioxidant enzymes. Foliar applications of uniconazole reduced electrolyte leakage and malondialdehyde accumulation caused by heat stress, suggesting that uniconazole may have decreased heat-induced lipid peroxidation and membrane damage. Foliar sprays of uniconazole increased the tolerance of rape plants to heat stress.     

牡丹冬季室内催花过程中内源激素含量的变化

牡丹品种朱砂垒(PaeoniasuffruticosaAndr.cv.Zhushalei)在冬季室内催花过程中7种内源激素含量变化不同。玉米素核苷(Z ZR)、生长素(IAA)和赤霉素(GA3)的含量在花生长发育过程中处于较高水平;而脱落酸(ABA)、异戊烯基腺苷(IP IPA)、二氢玉米素核苷(DHZ DHZR)、赤霉素(GA4)的含量低于上述3种内源激素。激素平衡方面,GAs/ABA、CTKs/ABA、IAA/ABA处于较高水平,变化幅度较大。在催花过程中,内源激素以及其平衡影响牡丹花的生长发育。本研究结果对牡丹花期调控提供理论依据。     

Effects of Plant Growth Regulators on Seed Filling,Endogenous Hormone Contents and Maize Production in Semiarid Regions

In this study, we determined whether the application of uniconazole alone or combined with ethephon could enhance the seed-filling rates in maize by regulating the endogenous hormone contents. Uniconazole was applied to the foliage at concentrations of 0 (CK), 25 (U₂₅), 50 (U₅₀) and 75 (U₇₅) mg L⁻¹ at the 12-leaf stage. In addition, uniconazole was applied to the foliage at the 12-leaf stage and ethephon at 10 days after silking stage at concentrations of 0 (CK), 25 mg L⁻¹ uniconazole + 100 mg L⁻¹ ethephon (U₂₅ + E₁₀₀), 50 mg L⁻¹ uniconazole + 200 mg L⁻¹ ethephon (U₅₀ + E₂₀₀) and 75 mg L⁻¹ uniconazole + 300 mg L⁻¹ ethephon (U₇₅ + E₃₀₀). Uniconazole applied alone or in combination with ethephon significantly improved ear characters and grain yield. Uniconazole applied alone or combination with ethephon significantly improved the dry matter accumulation in seeds and seed-filling rates. Uniconazole significantly increased the abscisic acid (ABA) and zeatin (Z) + zeatin riboside (ZR) contents of seeds, but reduced the gibberellic acid (GA) contents. The application of uniconazole combined with ethephon decreased the ABA, Z + ZR and GA contents in seeds. The ABA and Z + ZR contents were significantly positively correlated, whereas the GA content was negatively correlated with the maximum seed weight, maximum seed-filling rate and mean seed-filling rate. The application of uniconazole alone significantly improved the seed-filling rates in maize by regulating the endogenous hormone contents. Thus, we conclude that uniconazole application at 50 mg L⁻¹ in the 12-leaf stage can enhance the maize production.

     

The effect of assimilate supply on fruit growth and hormone levels in tomato plants

Rates of dry matter accumulation and contents of starch, sugars and abscisic acid (ABA) of tomato fruits differed significantly during development at three positions (proximal, middle and distal) on a truss. Proximal fruits, which accumulated dry matter most rapidly during early development, generally had least ABA (per g DW).Partial defoliation reduced carbon accumulation by all fruits but increased ABA, especially in distal fruit, and indoleacetic acid (IAA), particularly in proximal fruits. The ABA content of leaves in partially defoliated plants was similar to that of leaves on non-defoliated plants.Removal of distal fruits on a truss enhanced carbon movement to the remaining proximal fruits and also increased their ABA content early in development but did not affect their IAA content. On the other hand, when proximal fruit were removed there was no large or lasting increased accumulation of carbon by the remaining distal fruits and they contained less ABA and IAA than fruits on plants without fruit thinning. Leaf carbon and ABA levels showed no marked trend in response to fruit thinning.The amount of carbon in the stems was increased by fruit thinning but decreased by partial defoliation.The possible roles of ABA and IAA in regulating fruit growth are discussed.Part of this work has been presented to a Symposium on Phloem loading and related processes at Bad Grund/Oberhar, W. Germany, July 1979.     

Uniconazole-induced alleviation of freezing injury in relation to changes in hormonal balance, enzyme activities and lipid peroxidation in winter rape

Winter rape (Brassica napus L. cv. 601) seedlings were treated with 50 mg.l-1 of foliar-applied uniconazole and then exposed to freezing stress with a light/dark temperature regime of 2 °C/–3 °C for 5 days at the seedling stage. Stressed plants contained lower endogenous GA3 and IAA contents than the controls, while zeatin and ABA contents and ethylene levels were significantly increased. Uniconazole-treated plants had lower endogenous GA3 and IAA contents, and higher zeatin and ABA contents and ethylene levels. Leaf chlorophyll content and respiratory capacity of roots were reduced significantly after plants were subjected to freezing stress, and foliar sprays of uniconazole retarded the degradation of chlorophyll and increased respiratory capacity of roots. Uniconazole-induced freezing tolerance was accompanied by increased activities of various antioxidant enzymes, including superoxide dismutase, catalase and peroxidase. Foliar applications of uniconazole reduced electrolyte leakage and malondialdehyde accumulation caused by freezing stress, suggesting that uniconazole may have decreased freezing-induced lipid peroxidation and membrane damage.