植物生长调节剂对几种树木插条生根的影响

采用插条繁殖苗木,是保持良种特性,发展良种生产的重要手段。近年来,我们在林木引种工作中,对筛选出一些有推广价值的优良树种;尤其是母树资源较少的良种,开展了萘乙酸(NAA),吲哚丁酸(IBA),吲哚乙酸(IAA)等植物生长调节剂促进树木插条发根的试验,取得了一些结果。     

外施植物生长调节剂对山荆子扦插生根的影响

目的:本研究旨在筛选适宜山荆子硬枝扦插生根的植物生长调节剂配方,从生理水平探讨其促进扦插生根原因.方法:采用萘乙酸(NAA)、3-吲哚丁酸、双吉尔的不同浓度处理,对插穗生根效果及生理生化指标动态测定.结果:300 mg·L-1 NAA处理的插穗生根效果最佳,生根率83％,生根数23.7条,分别为对照组的3.6倍、6.2...     

不同植物生长调节剂对中华猕猴桃扦插生根的影响

以中华猕猴桃"桂海4号"为试材,采用500mg·L-1、1000mg·L-1、1500mg·L-1三种不同浓度的吲哚丁酸、萘乙酸、和ABT生根粉处理插条,进行了猕猴桃扦插试验。结果表明:吲哚丁酸1500mg·L-1的扦插生根率极显著高于萘乙酸和ABT生根粉的各个处理,显著高于吲哚丁酸1000mg·L-1;吲哚丁酸对根数和根长的促进作用优于萘乙酸和ABT生根粉,ABT生根粉对于根粗的促进作用却较其它两者强;主成分分析结果表明,吲哚丁酸1500mg·L-1处理的插条生长情况最好。     

3种植物生长调节剂对树头菜扦插生根的影响

利用植物生长调节剂不同种类及质量浓度处理树头菜插穗,了解其扦插生根机制并筛选出适宜扦插繁殖的生长调节剂及浓度配比,为其扩大繁殖和生产提供科学依据。以树头菜一年生枝条为材料,采用3种植物生长调节剂（IAA、NAA、ABT-1）的3种不同质量浓度进行正交试验,清水处理（CK）作为对照,扦插3个月后对其芽生长量及生根性状（生根率、生根量、最长根长、平均根长等）进行测定并综合分析。本次试验筛选出的树头菜扦插最优方案为A1B2C2,即ABT-1质量浓度为50 mg·L^-1、NAA质量浓度为200 mg·L^-1、IAA质量浓度为200 mg·L^-1,该处理生根率（83.33%）、平均根长（24.03 mm）、最长根长（46.13 mm）、平均根数（24条）、根系效果指数（19.06）为CK的2.27、2.97、3.03、4.50、12.79倍,根系发育较好。不同植物生长调节剂在适宜的浓度下混合利用可以显著增加树头菜的生根能力,进而加快生长并提高其扦插生根率。     

三种植物生长调节剂对楝叶吴茱萸光合作用的影响

以楝叶吴茱萸Evodia glabrifolia苗木为材料,用生根粉(ABT-3)、吲哚乙酸(IAA)、萘乙酸(NAA) 3种植物生长调节剂处理植物,测定处理后苗木的光合作用指标。结果表明,NAA和IAA的最佳浓度为150 mg·L-1,ABT-3的最佳处理浓度为100 mg·L-1;其中浓度为150 mg·L-1 NAA最有利于楝叶吴茱萸的光合作用,50 mg·L-1 IAA最不利于楝叶吴茱萸的光合作用。研究结果可为楝叶吴茱萸的育苗、移栽提供技术指导。     

两种植物生长调节剂浸种对大豆根系解剖结构的影响

在砂培框栽条件下,研究植物生长调节剂2-N,N-二乙胺基乙基己酸酯（DTA-6）和烯效唑（S3307）浸种对大豆‘垦农4号’根系生长的调控效应,并比较不同浓度条件下2种植物生长调节剂对大豆根系的显微结构及超微结构的影响。结果表明,50mg·L-1DTA-6和0.4mg·L-1S3307浸种后中柱鞘直径、根系木质部及韧皮部截面积均增加,线粒体及淀粉质体等结构清晰,线粒体、淀粉质体、质体数量丰富;而其他浸种处理对根细胞发育的上述指标的调控效果不显著。综合分析表明,50mg·L-1DTA-6和0.4mg·L-1S3307浸种有利于大豆根系的生长发育。     

三种植物生长调节剂对降香黄檀种子发芽的影响

采用三种植物生长调节剂GA3、IBA和6-BA不同浓度按正交设计方法,搭配处理组合,对降香黄檀种子进行处理,通过对种子发芽率、发芽势和发芽指数指标的测定,研究不同浓度的植物生长调节剂对珍贵用材树种降香黄檀种子萌发的影响。结果表明:3种植物生长调节剂浸种对降香黄檀种子萌发以6-BA的促进效果较好,GA3次之,而IBA对降香黄檀种子的发芽促进作用不明显,以处理组合6-BA50mg/L6h为最优,显著提高种子的萌发率。     

不同生长调节剂及基质对越南粉苞茉莉扦插生根的影响

为探索越南粉苞茉莉(Jasminum dichotomum)扦插生根的影响因素,建立扦插繁育技术体系,以1年生越南粉苞茉莉枝条为插穗,采用L16(44)正交试验,探讨生长调节剂种类及其浓度、处理时间、基质种类对越南粉苞茉莉茎段扦插生根的影响,利用排队评分法和公式评分法对正交试验进行分析。结果表明,A2B3C3D2为试验的最优处理组合,即将插穗在250 mg·L-1 IBA和500 mg·L-1 NAA混合药剂中浸泡20 min后扦插于沙子上。     

不同基质对多穗石柯扦插生根的影响

为了筛选适宜的多穗石柯(Lithocarpus polystachyus)扦插基质，以半木质化枝条为插穗，选取5种原料(园土、黄心土、泥炭土、河沙、椰糠)设置8个基质配方，并对各基质容重、总孔隙度、pH、电导率进行测定，探讨不同基质对多穗石柯扦插成活率、生根数量及根系长度的影响。结果表明，不同配方基质的理化性质不同，多穗石柯扦插成活率、根系数量和根系长度具有显著性差异；成活率、根系数量和根系长度与基质的理化性质存在显著相关，总孔隙度大的基质不利于多穗石柯扦插成活和根系生长，pH和电导率较低的基质中多穗石柯扦插成活率较高；基质园土:黄心土:河沙(1:1:1)最适宜多穗石柯扦插繁殖，扦插成活率最高，为86.75%，其次是基质黄心土:河沙(2:1)。     

外源一氧化氮供体对几种植物种子的萌发和幼苗生长的影响

以0、0.1、0.3、0.5、0.7、0.9mmol·L-1共6种浓度的外源一氧化氮(NO)供体硝普钠(SNP)处理豌豆、黄瓜、玉米和刺槐种子及其砂培幼苗后的结果表明:0.1～0.3mmol·L-1SNP对种子发芽势、发芽率及幼苗的根长、叶绿素含量和生物量有明显的促进作用;随着SNP浓度的增加,种子萌发和幼苗生长明显受抑制,不同植物受抑制程度的差异明显.     

Stimulation of Adventitious Rooting in Cuttings of Four Herbaceous Species by Piperazine

Piperazine, a chemical used as buffer component, greatly promotedadventitious root formation in cuttings of sunflower (Helianthusannuus L.), pea (Pisum sativum L.), mung bean (Vigna radiataL.) and to a lesser extent in bean (Phaseolus vulgaris L.) seedlings.Piperazine was more effective in acidic pH. The studies withpiperazine analogues showed that any substantial modificationof the structure caused the chemical to be less effective, oreven inhibitory. Histological studies in sunflower hypocotylsdemonstrated that piperazine did not alter the timing of theinitial cell division. In the presence of piperazine, sunflowerhypocotyls failed to develop primary phloem fibres. Piperazineat the concentrations that promote rooting did not kill or damagethe tissue at the base of the hypocotyl. Compared to controls,piperazine treatment did not alter the proportion of primordiathat eventually developed into actively elongating roots. Sixdays after treatment 45% of the control roots in the basal sectionwere actively growing, compared to 51% in the piperazine. Therewas little evidence suggesting that the piperazine-induced promotionof rooting was caused by the removal of basal dominance in whichpiperazine killed the basal part of hypocotyl.Copyright 1995,1999 Academic Press Helianthus annuus, Phaseolus vulgaris, Pisum sativum, Vigna radiata, adventitious roots, mung bean, pea, piperazine, sunflower     

Growth Substances in Relation the the Rooting of Salix fragilis Cuttings

An attempt has been made to correlate seasonal variations inthe rooting responses of Salix fragilis cuttings with theircontent of growth-promoting substances. Although they were bothlow in early dormancy and higher in late dormancy and in summerthere was not an exact correlation in all months. It was found that extracts of S. fragilis cuttings taken indormancy strongly inhibited the action of IAA on the growthof Avena coleoptile segments. This inhibitory influence wasless in extracts of cuttings taken at the end of dormancy andin summer. Extracts of cuttings which had been left in waterto root showed a striking decrease in their inhibitory actionon IAA.     

生长调节剂和基质对东南山茶扦插生根的影响

比较东南山茶Camellia edithae枝条在NAA、IBA以及ABT-1号生根粉等生长调节剂处理下的扦插生根情况。结果表明,东南山茶插条以质量浓度500 mg·L-1 NAA处理20 min处理生根率达93.33%,黄泥土和河沙按3∶1混合作基质较为合适。     

Effect of Wild-Type and Mutant Plant Growth-Promoting Rhizobacteria on the Rooting of Mung Bean Cuttings

Mung bean cuttings were dipped in solutions of wild type and mutant forms of the plant growth-promoting rhizobacterium Pseudomonas putida GR12-2 and then incubated for several days until roots formed. The bacteria P. putida GR12-2 and P. putida GR12-2/aux1 mutant do not produce detectable levels of the enzyme 1-aminocyclopropane-1-carboxylate (ACC) deaminase, whereas P. putida GR12-2/acd36 is an ACC deaminase minus mutant. All bacteria produce the phytohormone indole-3-acetic acid (IAA), and P. putida GR12-2/aux1 overproduces it. Treatment of cuttings with the above-mentioned bacteria affected the rates of ethylene production in the cuttings in a way that can be explained by the combined effects of the activity of ACC deaminase localized in the bacteria and bacterial produced IAA. P. putida GR12-2 and P. putida GR12-2/acd36-treated cuttings had a significantly higher number of roots compared with cuttings rooted in water. In addition, the wild type influenced the development of longer roots. P. putida GR12-2/aux1 stimulated the highest rates of ethylene production but did not influence the number of roots. These results are consistent with the notion that ethylene is involved in the initiation and elongation of adventitious roots in mung bean cuttings. Received October 21, 1998; accepted January 3, 1999     

The Physiology of Rooting Populus Cuttings

The changing levels of carbohydrates and the rates of photosynthesis in rooting Populus cuttings are described. The cuttings were planted in a sand medium, in controlled environment conditions. There was no evidence to support the view that failure to root in P. tremula was caused by insufficient carbohydrate reserves. In leafless hardwood cuttings, the carbohydrate levels were initially very high (14–19%) but fell rapidly (to 5–10%) as roots, callus or shoots developed. In leafy softwood cuttings, a steady accumulation of carbohydrate reserves was observed, rising from 5–10% on planting to 15–25% when roots had developed. One of the differences between the easy-to-root P. × euramericana and the hard-to-root P. tremula was the apparent downward transport of assimilates in P. × euramericana softwood cuttings.     

Auxin Synergists in Rooting of Cuttings

Leafy cuttings of Eranthemum tricolor were treated with tannic acid, gallic acid, p-hydroxybenzoic acid and salicylic acid at the concentrations of 1000, 100, 10 and 1 nig/1 for 24 hours, whereafter they were dipped quickly in a 1000 mg/l solution of IAA, IBA and NAA for ten seconds. None of the phenolics showed any root promoting effect when used singly. In combination with NAA and IBA tannic acid promoted rooting, however, with IAA there was no effect to be seen. Gallic acid also markedly increased the number of roots of cuttings treated with NAA and IBA. Even in this case there was no effect with IAA. Synergism was also recorded between p-hydroxybenzoic acid and IAA or NAA but not with IBA. Salicylic acid greatly promoted rooting in combination with both IAA, IBA and NAA.     

The Physiology of Rooting Populus Cuttings

Activity of endogenous cytokinin of cuttings was investigated in relation to the process of rotting. The levels of cytokinin in hardwood cuttings of easy-to-root Populus × euramericana (Dode) Guinier and difficult-to-root Populus tremula L. were monitored at various stages of root formation. In cuttings of P. tremula was found a higher cytokinin activity than in P. × euramericana and this condition persisted throughout the rooting period. There was a general initial decrease of cytokinin activity in both upper and lower halves of cuttings of both species. The declining level was reversed in the easy-to-root species when roots had formed and to a lesser extent in the difficult-to-root species when leaves expanded. In both cases this increase was relatively higher in the lower halves than in the upper halves.