大果白刺种子内源激素含量研究

目的：探究大果白刺种子萌发过程中内源激素的变化。方法：通过HPLC测定低温层积后大果白刺种子内源激素含量的变化。结果：大果白刺种子GA₃含量显著提高，而ABA、IAA、ZR和ETH含量均显著下降。GA₃/ABA值显著提升，IAA/ABA和ZR/ABA值呈现下降趋势。结论：GA₃含量和GA₃/ABA值较高，ABA、IAA、ZR、ETH含量和IAA/ABA、ZR/ABA值较低，证明各种内源激素含量及其比值是制约其种子休眠的重要因素。     

四季花金花茶花芽分化进程及叶片内源激素变化

四季花金花茶(Camellia perpetua)为山茶属中唯一几乎全年开花的珍稀濒危植物。为探究其花芽分化进程及不同花发育时期和年生长周期叶片内源激素变化,该研究通过石蜡切片,观察四季花金花茶花芽分化进程,采用酶联免疫吸附法测定不同花发育时期叶片及年生长周期内有花芽和无花芽叶片的脱落酸(ABA)、吲哚乙酸(IAA)、赤霉素(GA₃)和玉米素核苷(ZR)含量的变化规律。结果表明：(1)四季花金花茶花芽分化顺序由外向内进行,分为6个时期,共历时35 d,从花芽分化至开花约2个月。(2)花芽形态分化期叶片ABA、GA₃的含量及GA₃/ABA、(IAA+GA₃)/ZR的比值较高,IAA、ZR的含量及IAA/ABA、ZR/ABA的比值较低。(3)年生长周期内有花芽叶片ABA、IAA、ZR的含量整体上高于无花芽叶片;IAA/ZR及(IAA+GA₃)/ZR的比值整体上低于无花芽叶片。综上表明,四季花金花茶花芽分化至开花时间较短;高水平的ABA、GA₃及低水平的IAA、...     

不同栽培措施对降香黄檀内源激素含量的影响

为了了解不同栽培措施对降香黄檀叶片内源激素的影响,本研究通过铺设修枝、移植、钾肥、乙烯4个试验,分析各处理叶片激素含量特征。结果表明：修枝实验中,重度修枝处理IAA、GA₃、ZR、ABA含量均最大,分别为69.849、6.619、8.805、77.998 ng·g^-1。移植各处理中,去冠移处理IAA、ZR含量最高分别为73.195和9.472 ng·g^-1,而其ABA含量最低为52.001 ng·g^-1,GA₃含量最高的为断根处理8.418 ng·g^-1。IAA、ZR、GA₃含量K1钾肥配比最高分别为75.188、8.383、6.127 ng·g^-1;ABA最大含量71.082 ng·g^-1为CK处理。乙烯试验中,CK处理的IAA、GA₃含量最高分别为47.762、4.967 ng·g^-1;E2.5%处理的ABA含量96.94 ng·g^-1最高。E0.1%处理的ZR含量最高为9.378 ng·g^-1。修枝对GA₃/ABA和ZR/GA₃影响较大,其最小值分别比最大值降低了29.7%、19.0%。移植对IAA/ABA、GA₃/ABA影响较大,最小值比最大值依次降低了52.47%和51.47%。树干注射乙烯和钾肥对IAA/ABA、GA₃/ABA影响较大,乙烯试验最小值分别比最大值降低了55.4%、49.2%,钾肥试验最小值分别比最大值降低了48.8%和37.1%。     

低钾胁迫对不同基因型水稻苗期根系生长和内源激素含量的影响

以2个耐低钾基因型水稻N18、N19和2个低钾敏感基因型水稻N27、N28为材料,采用溶液培养试验,研究低钾胁迫对其苗期根系生长和内源激素含量的影响。结果表明,低钾胁迫下,水稻根长、地上部干重和根干重均降低,但N18和N19显著高于N27和N28。低钾胁迫使4个基因型水稻的根冠比增大,而各基因型之间差异不显著。低钾胁迫下,水稻根中IAA、GA₁和ZR含量均减少,ABA含量增加;N18、N19根中IAA、GA₁和ZR含量都高于N27、N28。此外,低钾胁迫使水稻根中IAA/ABA、ZR/ABA、GA₁/ABA值降低,但N18、N19的上述比值高于N27、N28。     

低温条件下拔节期小麦叶片内源激素含量和抗氧化酶活性的变化

以扬麦16和徐麦30为试验材料,利用人工气候室模拟低温逆境,研究拔节期-3 ℃和-5 ℃低温胁迫对小麦植株受冻率、叶片内源激素含量和抗氧化酶活性的影响.结果表明： 随着处理温度的降低、胁迫时间的延长,小麦植株冻害等级与冻害指数增加,-5 ℃处理72 h两品种五级冻害率均为100%.低温处理结束当天,小麦叶片中内源激素脱落酸（ABA）、玉米素核苷（ZR）含量、抗氧化酶超氧化物歧化酶（SOD）、过氧化物酶（POD）、过氧化氢酶（CAT）活性随胁迫程度加重呈先升高后降低的趋势;处理结束后3 d,ABA、ZR含量及抗氧化酶活性较处理结束当天升高;至处理结束后6 d,与自然生长的对照处理接近.低温胁迫叶片中赤霉素（GA₃）含量下降,处理结束后3和6 d,扬麦16叶片中GA₃含量呈上升趋势,徐麦30则表现为先升高后下降.-5 ℃ 72 h重度胁迫处理叶片中ABA、ZR、GA₃含量和SOD、POD、CAT活性均较对照显著下降.相关分析表明,较高的ABA、ZR含量、SOD、POD、CAT活性以及较低的GA₃含量可减缓低温胁迫对小麦植株的伤害.     

单花、有侧花牡丹品种花芽分化特点及内源激素变化

为比较单花牡丹品种‘梨花粉’、有侧花牡丹品种‘姊妹游春’和‘云鄂粉’的花芽分化进程、形态特征差异及花芽分化期内源激素的变化,该研究通过解剖和石蜡切片,观察‘梨花粉’‘姊妹游春’和‘云鄂粉’的花芽分化过程,采用酶联免疫吸附分析法测定不同分化阶段‘梨花粉’和‘姊妹游春’的生长素(IAA)、脱落酸(ABA)、赤霉素(GA₃)及玉米素核苷(ZR)的含量。结果表明：(1)‘梨花粉’花芽分化仅6个时期;有侧花品种‘姊妹游春’和‘云鄂粉’花芽分化为11个时期,顶花原基先分化,侧花原基后分化。(2)叶原基分化期至苞片原基分化期,‘姊妹游春’和‘梨花粉’花芽中ABA、GA₃及ZR的含量均升高,IAA含量降低;‘姊妹游春’侧花原基分化起始阶段,ABA、GA₃含量降低,ZR、IAA含量升高。(3)‘梨花粉’ABA/IAA比值在形态分化期时最低。综上认为,有侧花牡丹品种花芽分化比单花牡丹品种早,分化时间长,顶花和侧花部分花器官分化期重叠;较高水平的ZR、IAA以及较低的ABA、GA₃有利于启动侧花原基分化。该研究结果为牡丹...     

不同形态氮素对专用型小麦花后氮代谢关键酶活性及籽粒蛋白质含量的影响

采用盆栽方法研究了氮素形态对不同专用型小麦开花后氮素同化关键酶活性及籽粒蛋白质含量的影响。结果表明:不同专用型小麦氮素同化关键酶硝酸还原酶、谷氨酰胺合成酶和谷氨酸合酶对氮素形态的反应不同。强筋小麦豫麦34施用酰胺态氮对旗叶硝酸还原酶和谷氨酰胺合成酶活性、籽粒谷氨酰胺合成酶和谷氨酸合酶活性具有明显的促进作用,最终籽粒蛋白质含量较高;中筋小麦豫麦4 9在施用铵态氮时,3种氮素同化关键酶活性均有较大增强,籽粒蛋白质含量最高;弱筋小麦豫麦5 0硝酸还原酶活性以铵态氮处理最高,而籽粒和旗叶谷氨酰胺合成酶和谷氨酸合酶活性在酰胺态氮处理下明显增强,酰胺态氮对籽粒中蛋白质含量的增加具有明显的促进作用。相关性分析表明,籽粒蛋白质含量与旗叶GS活性和籽粒GOGAT活性呈显著或极显著正相关,与旗叶NR活性和GS活性、籽粒GOGAT活性相关性不显著     

氮素形态对不同专用型小麦根系及氮素利用率影响的研究

采用盆栽方法研究了3种氮素形态对不同专用型小麦根系及氮素利用率的影响．结果表明,拔节期以后,强筋型小麦豫麦34在酰胺态氮处理下,根系生物量、根系活力、氮素利用率、氮收获指数和籽粒蛋白质含量最高,铵态氮处理次之,硝态氮处理最低．中筋型小麦豫麦49的各测定指标以铵态氮处理最高,其它指标在酰胺态氮和铵态氮间的趋势不同;弱筋型小麦豫麦50在酰胺态氮处理下各项指标最高,而铵态氮处理下蛋白质含量最低,符合品种优质和专用,氮收获指数与籽粒蛋白质含量之间呈现极显著正相关。     

蝴蝶兰成花过程中叶片内源激素与多胺含量的变化动态

以苗龄18~20个月的蝴蝶兰(Phalaenopsis)成熟苗为试材,通过夜温17℃/日温27℃处理诱导其成花,并研究蝴蝶兰成花过程中,叶片内源激素及多胺含量的变化动态。结果显示:低温诱导蝴蝶兰成花的临界期为第15d,芽重、内源激素和多胺含量均在第15d出现明显的消长规律;较低含量GA₃、ABA,高含量ZR、Spd,高比值ZR/GA₃、ZR/ABA和Spd/Put状态有利于成花;相对高含量的内源ZR是成花的关键因素;内源多胺与激素含量动态具有关联效应。     

土壤容重对花生根系生长性状和内源激素含量的影响

本文采用柱栽方法,研究了不同土壤容重对花生根系生长性状和内源激素含量的影响。结果表明:在花生苗期,较低的土壤容重利于花生根系生长,根系中生长素(IAA)、赤霉素(GA_3)、细胞分裂素(ZR)含量升高,而脱落酸(ABA)含量下降。适宜的土壤容重(1.2~1.3 g·cm~(-3))下,花生根系保持较高的IAA、GA_3、ZR含量和较低的ABA含量,有利于根系生长和保持较好的根系形态。根系IAA、GA_3、ZR含量与根系干重、总长度、体积和表面积均呈显著或极显著正相关,ABA含量则相反。IAA/ABA、ZR/ABA、GA_3/ABA也与根系干重、总长度、体积和表面积呈显著或极显著正相关。据此可见,土壤容重为1.2~1.3 g·cm~(-3)可维持有利于花生根系生长的内源激素水平。     

兰州百合鳞茎发育及低温解除休眠过程中内源激素的变化

以兰州百合为试材,研究了鳞茎发育过程中以及2、6、10℃条件下保湿贮藏101 d内母鳞茎与新鳞茎中内源激素的变化。结果表明：鳞茎发育过程中内源ABA含量以及母鳞茎的GA₃与ZR含量增加,而内源IAA含量以及新鳞茎的GA₃与ZR含量下降。低温贮藏期间,母鳞茎与新鳞茎的GA₃、IAA含量均有升高过程,而ABA含量呈下降趋势;新鳞茎的ZR含量呈下降趋势,母鳞茎的ZR含量也有升高过程。低温处理初期的34 d内,内源激素变化最为显著。不同贮藏温度相比较,ABA含量差异不大,GA₃含量随温度升高而下降。在富含淀粉的新鳞茎中,GA₃和ABA表现出极显著的负相关关系,而在淀粉含量较低的母鳞茎中GA₃和ABA无相关性。通径分析结果表明,母鳞茎与新鳞茎的物质代谢机制不同,母鳞茎的物质变化受内源GA₃的调控,新鳞茎主要是ABA作用的结果。     

Hormone Effects on the Membrane Potential and on Sucrose-Induced Depolarization of Young Citrus Leaves

The effect of IAA, GA₃ and ABA on transmembrane potential difference(Em) and on sucrose-induced depolarization has been studiedin young Citrus leaves. The addition of any of these hormonesto the perfusion solution (short-term experiments) did not affectEm or sucrose-induced depolarization. Hormonal treatments ofyoung leaves on the tree resulted, after 4 to 16 days (long-termexperiments), in an increase of Em for GA₃- and ABA-treatedleaves, while in IAA-treated ones no hyperpolarization was found.Only in ABA treated leaves this membrane hyperpolarization couldbe related to an enhancement of sucrose uptake. (Received April 28, 1992; Accepted September 21, 1992)     

Relationships of endogenous plant hormones to accumulation of grain protein and starch in winter wheat under different post-anthesis soil water statusses

Accumulation of protein and starch in grain is a key process determining grain yield and quality in wheat. Under drought or waterlogging, endogenous plant hormone levels will change and may have an impact on the yield and quality of wheat. In a greenhouse experiment, four winter wheat (Triticum aestivum L.) varieties differing in grain protein content, Heimai 76, Wanmai 38, Yangmai 10 and Yangmai 9, were subjected to drought (SRWC = 4550%, DR), waterlogging (WL) and moderate water supply (SRWC = 7580%, CK), beginning from 4 days post-anthesis (DPA) to maturity. On the 10 (grain enlargement stage) and 20 (grain filling stage) DPA, endogenous abscisic acid (ABA), gibberellins (GA₁₊₃), indole-3-acetic acid (IAA) and zeatin riboside (ZR) were determined in sink and source organs of wheat plants by enzyme linked immunosorbent assay (ELISA). The patterns of hormonal changes were similar in four varieties. The ABA levels were much higher under DR and WL than under CK. Compared with CK, GA₁₊₃ levels in whole-plant under DR and WL changed a little at 10 DPA, but markedly decreased under DR and WL at 20 DPA. Changes of endogenous IAA level under DR and WL exhibited a complicated pattern, depending on organs and growth stages. Particularly at the 20 DPA, the mean levels of IAA in roots, leaves and grains decreased significantly under DR and WL. In comparison with CK, ZR levels in all organs significantly decreased under DR and WL at both stages. The correlation analyses between yields and contents of starch and protein in grains and levels and ratios of four hormones in source and sink organs indicated that the changes in yield and content of grain starch and protein under DR and WL were associated with the reduced IAA, ZR and GA₁₊₃ levels and elevated ABA level in plants, especially in grains. It was proposed that the changed levels of endogenous hormones under post-anthesis DR and WL might indirectly affect protein and starch accumulation in grains by influencing the regulatory enzymes and processes.     

Effects Produced on Tomato Plants, Lycopersicum esculentum, by Seed or Root Treatment with Gibberellic Acid and Indol-3yl-Acetic Acid

Growth in lengths of tomato stems and leaves was acceleratedby 5.0 µg gibberellic acid (GA₂) applied to the seed,or by 5.0, 0.5, and 0.05 µg given to the roots. Treatmentwith 5.0 µg also decreased bud number and lengthened thetime between bud appearance and fruit formation on the firsttruss by 1–8 days. Smaller amounts applied to roots shortenedthis time by 1–4 days. Indol-3yl-acetic acid at 0.5 µghad no effect, nor was simultaneous application of GA₃ and IAAto the roots more effective than GA₃, alone. Single applicationsof very small amounts of GA₃ to seeds or seedling roots thusproved capable of changing growth-rates of stems, leaves, andtrusses.The effects of treating tomatoes with GA₂ and with culturesof Azotobacter chroococcum, which contain small amounts of GA₃,and IAA, are compared.     

氮肥施用时期及基追比例对土壤矿质氮含量时空变化及小麦产量和品质的影响

采用田间试验方法,研究了不同氮肥施用时期和基追比例对土壤硝态氮和铵态氮含量变化及小麦产量和品质的影响.结果表明：土壤硝态氮和铵态氮含量随着土层深度的增加而降低,不同氮肥施用时期和基追比例对0～20 cm土层土壤硝态氮和铵态氮含量均有显著影响;与氮肥全部基施处理相比,氮肥施用时期后移和基追比例的增加,明显提高了氮肥吸收利用率,减少了小麦全生育期土壤氮素的表观盈余量,同时显著改善了小麦籽粒品质;但对籽粒产量影响不显著,孕穗期追施比例过大导致产量显著降低.在本试验条件下,综合考虑产量、品质和生态效益,以基肥∶拔节肥∶孕穗肥为5∶3∶2为最佳氮肥运筹方式.     

不同成花量金花茶花果期果枝叶内源激素的变化

该研究采用ISSR分子标记,对黄枝油杉7个自然种群的遗传多样性进行了分析。结果表明：用12条ISSR引物对218个黄枝油杉个体进行扩增,共扩增出125个位点。在物种水平上,多态性位点百分数( PPL)为100.00％,Shannon信息多样性指数( I)为0.4177,Nei’ s基因多样性指数( H)为0.2666;在种群水平上,多态性位点百分数(PPL)在71.20％~92.00％之间,平均值为80.69％,Shannon信息多样性指数(I)在0.3273~0.3886之间,平均值为0.3548,Nei’ s基因多样性指数( H)在0.2139~0.2478之间,平均值为0.2291。这说明黄枝油杉在物种水平和种群水平上均显示出较高的遗传多样性。 Nei’ s遗传多样性分析( Gst＝0.1433)和AMOVA分析(Φst＝17.91％)表明,黄枝油杉的遗传变异主要存在于种群内,种群间的遗传分化程度较低,种群间保持一定的基因交流( Nm＝2.9890>1)。 Mantel分析显示,黄枝油杉种群间的遗传距离和地理距离之间不存在显著的相关关系( r＝0.4567, P＝0.0610>0.05)。     

Comparative Effects of lndole-3-acetic acid, Abscisic acid, Gibberellic acid and 6-Benzylaminopurine on the Dark- and Light-induced Pulvinar Movements in Cassia fasciculata Michx

Effects of plant hormones were examined on the dark- and light-inducedmovements of Cassia fasciculata. Indole-3-acetic acid (IAA),gibberellic acid (GA₃) and 6-benzylaminopurine (6-BAP) inhibitedthe scotonastic movement whereas abscisic acid (ABA) enhancedit. After brief treatments (5 to 30 min), the ABA effect wasinhibitory rather than promotional. Hormonal treatment in theacidic range gave the best physiological response for ABA, butthe greatest efficiency of IAA, GA₃ and 6-BAP was obtained withpH values close to neutrality. Three to 5 h were needed beforeexpression of the physiological effect triggered by GA₃ and6-BAP, while 5 min treatments were sufficient for IAA and ABA.Light-induced movements were largely enhanced by IAA and slightlyby GA₃ but inhibited by 6-BAP and ABA. The results are discussedin relation to the ionic changes in the pulvinar motor cells,regulating leaflet movements. Key words: Abscisic acid, auxins, cytokinins, gibberellic acid, pulvinar movements     

The effect of plant growth regulator treatments on the levels of ethylene emanating from excised turgid and wilted wheat leaves

Abscisic acid (ABA) inhibits the production of ethylene induced by water stress in excised wheat leaves and counteracts the stimulatory effect of 6-benzyladenine (BA) on this process. The stimulatory effect of BA and the inhibitory effect of ABA were equally pronounced whether external or endogenous ethylene levels were determined. When leaves were sprayed or floated on solutions of BA, indole-3-acetic acid (IAA), gibberellic acid (GA₃), or ABA, the relative activities of these growth regulators on stress-induced ethylene at 10^-4 mol l^-1 were BA>IAA >GA₃>controls>ABA. In non-stressed leaves, however, where the levels of ethylene produced were 2–20 times smaller, the relative activities were IAA >BA>GA₃>controls>ABA. The effects of BA and ABA spray treatment on water stress induced ethylene were closely similar whether the solutions were applied 2 or 18 h prior to the initiation of water stress. The relationships between the levels of endogenous growth regulators in the plant and ethylene release induced by water stress are discussed.Abbreviations BA 6-benzyladenine - IAA indole-3-acetic acid - GA₃ gibberellic acid - ABA abscisic acid - GLC gas-liquid chromatography - _leaf leaf water potential     

Effects of Nitrogen Fertilizer on Growth and Yield of Spring Wheat

Nine amounts of nitrogen fertilizer, ranging from 0 to 200 kgN ha^–1, were applied to spring wheat cv. Kleiber in the3 years 1972-1974. In 1972 grain dry weight with 125 kg N ha^–1or more was 100 g m^–2 (23 per cent) greater than withoutnitrogen. Grain yield was unaffected by nitrogen in the otheryears. Leaf area at and after anthesis was increased throughoutthe range of nitrogen tested, most in 1972 and least in 1973.Consequently, the addition of 200 kg N ha^–1 decreasedthe amount of grain produced per unit of leaf area by approximately25 per cent in all years. The dry weight of leaves and stems at anthesis and maturitywas increased by nitrogen in all years, similarly to leaf area.However, the change in stem dry weight between anthesis andmaturity was not affected by nitrogen; stems increased in dryweight for about 20 days after anthesis and then decreased tovalues similar to those at anthesis. The uptake of CO₂ per unit area of flag leaf or second leaf(leaf below the flag leaf) was slightly decreased by nitrogenwhen the increase in leaf area caused by nitrogen appreciablydecreased the light intensity at the surface of these leaves.In spite of such decreases the CO₂ absorbed by flag and secondleaves per unit area of land was always increased by nitrogen,and relatively more than was grain yield. It is suggested that increases in respiratory loss of CO₂ withincreasing nitrogen fertilizer may explain why nitrogen increasedvegetative growth and leaf area relatively more than grain yield.     

Growth and pigment content of wheat as influenced by the combined effects of salinity and growth regulators

A field experiment was conducted to investigate the effects of presoaking the wheat grains (Triticum aestivum L.) in different levels of salinity (33 or 66 mM) and in growth regulators (indolyl-3-acetic acid, IAA at SO g m^-3, gibberellic acid, GA₃ at 100 g m^-3, or kinetin at 100 g m_-3) on the shoot growth and pigment content of the developing wheat flag leaf. Salinity at 33 or 66 mM led to an insignificant increase in the fresh and dry masses as well as in the shoot diameter and shoot length, but it attenuated the flag leaf area. In the majority of cases, salinity increased the chlorophyll (Chla, Chlb) and carotenoid contents as well as the number of chloroplasts per a mesophyll cell. The growth in the wheat shoot of the saline-treated plants was, in general, stimulated in response to presoaking the grains in kinetin or GA₃. On the other hand, IAA + salinity led to a negligible effect on the growth in the wheat plants particularly at the early stages of growth. The presoaking of grains in NaCl at 33 mM + IAA or 66 mM + kinetin induced a marked increase in the pigment content of the wheat flag leaf particularly at the early stages of growth. The interaction between salinity and phytohormones increased the number of chloroplasts; kinetin was the most effective.