Effect of Auxins on in vitro Rooting of Plumbago Zeylanica: Peroxidase Activity as a Marker for Root Induction

Induction of rooting in the microshoots of Plumbago zeylanica was achieved on halfstrength basal Murashige and Skoog's medium supplemented with 0.25 mg dm^–3 indole-3-butyric acid. Rooting was totally inhibited when the microshoots were cultured in vitro under continuous light, however, maximum percentage of microshoots rooted when incubated in continuous light for 4 weeks before transfer to the rooting media. Peroxidase activity increased markedly during root induction indicating a key role of peroxidase in rooting of microshoots of Plumbago zeylanica in vitro.     

Peroxidases, lignin and anatomy during in vitro and ex vitro rooting of gardenia (Gardenia jasminoides Ellis) microshoots

In vitro and ex vitro rooting of gardenia (Gardenia jasminoides Ellis) microshoots with or without indolic-3-butyric acid (IBA) was studied in order to improve acclimatization of microplants after root formation and transplantation. Peroxidase (POD) activity and isoforms, lignin content and anatomical observations were evaluated in the course of the three interdependent phases (induction, initiation and expression) of microshoot rooting. Microshoots treated or not treated with IBA achieved high rooting percentages both in vitro and ex vitro. At the end of the 2-week acclimatization period, the percentage of surviving microplants ranged from 80% to 100%, for in vitro and ex vitro rooted microshoots, respectively. Microshoots rooted in vitro and ex vitro showed a relationship between rooting and POD activity but in a different time course. It appeared that root formation occurred after the microshoots had reached and passed a peak of maximum enzyme activity. In all treatments, electrophoretic analysis (native PAGE) of PODs revealed the appearance of one anionic and three cationic POD isoforms (C(1), C(3) and C(4)). An additional cationic POD isoform (C(2)) appeared only in the ex vitro rooting. The lignin content was similar in microshoots rooted both in vitro and ex vitro. The sequential anatomical changes during the rooting process were similar in both in vitro and ex vitro rooting treatments. In the case of in vitro rooting, pith cells had vacuoles entirely filled with a dark substance, while in the case of ex vitro rooting, pith cells contained many amyloplasts. The origin of the adventitious roots, in both rooting conditions, was located in the cambial ring. Roots with organized tissue systems emerged from the microshoot stem 10-14 days after the root induction treatments; on day 10 for rooting in vitro, while a 4-day delay was noted in microshoots rooted ex vitro.     

In vitro root induction in axillary microshoots of Quercus robur L.

Whilst considerable efforts have been made to optimise shoot multiplication and rooting in oak, little attention has been paid to the impact of conditions used for multiplication on subsequent root formation. An optimised technique for rooting of oak microshoots has been developed to assess the effect of cytokinin treatments applied to shoot multiplication cultures on the subsequent rooting of microshoots. We found IBA to be more effective at inducing root formation in microshoots than NAA. Efficient rooting of oak microshoots (80%) was achieved after 35 days on medium supplemented with 1.0 mg litre^-1 IBA. Lower concentrations of IBA reduced the frequency of root formation and significantly increased the time taken for microshoots to form roots. High concentrations of IBA (3.0 mg litre^-1) produced similar rooting frequencies but with significantly increased numbers of roots formed by each microshoot. However, high concentrations of IBA stimulated the production of basal callus. Rooting of microshoots was unaffected by the concentration of BA used during shoot multiplication, although basal callusing was greater in microshoots taken from multiplication medium supplemented with the highest concentration of BA (1.0 mg litre^-1) and rooted on medium supplemented with 3.0 mg litre IBA. Reducing the period of exposure to auxin to 7 days by transferring microshoots to auxin-free medium increased the frequency of root formation (84%), led to more rapid root formation and a reduction in basal callus formation.     

In vitro rooting of Psoralea corylifolia Linn: Peroxidase activity as a marker

Induction of rooting in microshoots of Psoraleacorylifolia was achieved within 6–8 days of cultureon half-strength basal Murashige and Skoog's(1962) medium supplemented with 0.005–0.01 mg/lindole-3-acetic acid (IAA) and 2% (w/v) sucrose. Rooting was drastically reduced and friable callusformed at the cut end of the microshoots when themedium was supplemented with a higher concentration ofauxin. Rooting was totally inhibited when themicroshoots were cultured in vitro undercontinuous light. However, the maximum percentage ofmicroshoots rooted when incubated in continuous lightfor 4 weeks before transfer to the rooting media.Peroxidase activity increased considerably duringroot induction indicating a key role of peroxidase inrooting of microshoots of Psoralea corylifolia invitro.     

<Emphasis Type="Italic">In vitro</Emphasis> rooting of two <Emphasis Type="Italic">Eucalyptus urophylla X Eucalyptus grandis</Emphasis> mature clones

Abstract   The rooting capacity of microshoots derived from two mature Eucalyptus urophylla X Eucalyptus grandis half-sib clones kept for 3 y under intensive micropropagation was assessed in different in vitro conditions. A first set of experiments established that clone 147 microshoots rooted earlier and in greater proportions, while producing more adventitious roots overall than their homologs from clone 149. Modifying the composition of the basal 1/2-MS-derived rooting medium by 1/4-MS or Knop macronutrients, or reducing sucrose concentration to 10 g l⁻¹ did not enhance the rooting rates. However, together with the growth regulators added, they had a significant effect on the number of adventitious roots formed. With rooting rates reaching 81%, the higher rootability of clone 147 over clone 149 was further confirmed by the second set of experiments with significant effects of the various auxins tested and strong clone × auxin interactions on the proportions of rooted microshoots and on the number of adventitious roots. The best rooting scores were given by 5 μM indole-3-butyric acid (IBA) and 12.5 μM 1-naphthaleneacetic acid (NAA), whereas the microshoots exposed to 5 or 12.5 μM indole-3-acetic acid (IAA) were less responsive. Lower light intensities did not improve significantly root capacities, although differences might exist according to the genotype. Overall, root and shoot elongation was stimulated by light. At the end of the experiment, the rooted microshoots were markedly taller than the non-rooted ones, with significant influences of auxins and light intensity, and to a lesser extent, of the genotypes.     

Biochemical and histological changes during in vitro rooting of microcuttings of <Emphasis Type="Italic">Bacopa monnieri</Emphasis> (L.) Wettst.

The present study was conducted to investigate the biochemical changes vis-à-vis histological changes during adventitious rooting of microcuttings of Bacopa monnieri (L.) Wettst. The rooting in these microcuttings was induced on basal MS medium and medium supplemented with different concentrations of indole-3-acetic acid and indole-3-butyric acid (IBA). Presence of lower auxin concentration (1.0 µM) in the medium enhanced rooting and significantly improved number of roots per shoot but maximum root length was observed on basal MS medium. Histological studies were conducted to identify different phases of rooting in these microcuttings. The root meristemoids with distinct polarity become visible after 3 days and mark the beginning of in vitro root initiation phase. It was followed by primordia elongation, root emergence and visible rooting on the 5th day of culture on medium supplemented with auxins. Biochemical studies were also conducted from basal portions of microcuttings cultured on MS medium supplemented with 1.0 µM IBA and control (basal MS medium) from 0 to 7 days. Total carbohydrate content was lower during initial periods (up to day 1) and was found to increase during root initiation and primordia development, which reflects high energy demands for active cell divisions. A significantly higher level of phenols was recorded in microcuttings on medium supplemented with IBA. Polyphenol oxidase, peroxidase (POX), ascorbate peroxidase activities were also found to vary during different phases of rhizogenesis. Early phases were also marked with the lower activities of POX and IAAO. This study revealed significant role of enzymes, sugars and phenols during different phases of rooting.     

‘欧美杨107’组培苗瓶外生根

‘欧美杨107’是近年来重点推广的杨树品种之一,但其组培苗存在移栽成活率不高的问题。本试验研究了‘欧美杨107’组培苗的直接瓶外生根和瓶内复壮后瓶外生根两种生根方式,结果表明,两种方式蘸取IBA的最佳浓度分别为10mg·L-1和100mg·L-1,生根率分别达73.33%和81.67%,移栽成活率分别为62.5%和93.33%。进一步研究发现生根的过程中外源补加0.5mg·L-1IBA溶液能加速生根,使生根周期缩短2周左右。添加1/2MS营养液可促进生根苗茎的生长和根的伸长,有利于移栽成活。瓶内生根苗的生根率高达到95%,但是移栽难以成活,显微镜观察发现瓶外生根苗比瓶内生根苗的根毛发达,验证了瓶外生根苗的根吸收功能更好。该研究对促进‘欧美杨107’组培苗及其转基因苗的推广应用具有重要的现实意义。     

Onset of in vitro rhizogenesis response and peroxidase activity in Zingiber officinale (Zingiberaceae)

The induction of rooting in microshoots of Zingiber officinale cvs. Suprava, Turia local, Suruchi and V3S18 was achieved on half-strength basal Murashige and Skoog's medium supplemented with 0.5-1.0 mg/l either indole-3-acetic acid (IAA) or indole-3-butyric acid (IBA) and 2% (w/v) sucrose within 7-9 days of culture. Rooting was inhibited when the microshoots were cultured under higher concentration of auxins. The microshoots cultured on medium supplemented with NAA induced large number of thin root hairs with friable calluses within 6-7 days. Peroxidase activity was determined during root induction (0-day to the 10th day at every 2 day interval) from microshoots derived in vitro. The activity was minimum in the inductive phase (primary) and at the maximum level during the root initiative phase. These finding may be useful in monitoring the rooting behaviour in microshoots derived from different subculture and peroxidase activity as a marker for root initiation.     

Adventitious rooting performance in micropropagated Cornus mas

Axillary buds sampled from a mature 27-year-old Cornus mas cv. Macrocarpa were grown in vitro on modified woody plant medium (WPM). Adventitious rooting performance of microshoots was assayed on half-strength WPM supplemented with 1-naphthaleneacetic acid (NAA) or indole-3-butyric acid (IBA) under various pH. NAA induced significantly higher rooting frequencies than IBA. The pH of 6.8 inhibited rooting, and differentiated roots were extremely thick and fragile. The highest rooting frequency was recorded on half-strength WPM supplemented with 5.37 µM NAA at the pH value adjusted to 6.2 (73 % of rooted shoots). In the presence of IBA, the formation of adventitious roots was observed only in the basal part of the microshoot dipped into rooting medium. In the case of NAA, however, adventitious roots arose also from the parts of microshoots that were not in contact with medium. The growth of aerial roots was always positively gravitropic. The nuclear microsatellite Cf-G17 gave a monomorphic fingerprinting pattern across the mother shrub and micropropagated plantlets. Acclimatized plants did not show any visually detectable morphological variation and the aerial adventitious root formation was no longer observed.     

Micropropagation of Telopea speciosissima R. Br. (Proteaceae). 2: Rhizogenesis and acclimatisation to ex vitro conditions

Conditions affecting rhizogenesis in vitro and ex vitro and subsequent acclimatisation of Telopea speciosissima (waratah) were investigated. Clonal selections were successfully rooted in vitro in agar, on filter paper bridges or using crushed quartz-sand, the last substrate resulting in superior growth of roots. The in vitro substrates were impregnated with half-strength MS, 7.5 gl^-1 sucrose and various concentrations of IBA. For the quartz-sand, an IBA concentration of 50 M was optimal, 70% of microcuttings were rooted. No plantlets rooted in vitro were acclimatised to ex vitro conditions (using mist, fog or humidity tent regimes). Microcuttings (25–45 mm in length) were rooted ex vitro in a fog humidity regime (droplet size <10 m) using an IBA powder dip (3 g IBA kg^-1). Neither a mist nor a humidity-tent regime was suitable for rooting of waratah microshoots ex vitro. A peat and perlite mixture was superior to crushed quartz-sand or potting mix for the rooting of microshoots; this appeared to be related to the air-filled porosity (>20%) of the mixture, measured after the medium was saturated and then drained for 24h. Plantlets must be left under the high humidity regime until shoot growth resumes (four to eight weeks) otherwise plant mortality increase significantly. In vitro-produced leaves abscised between eight and 12 weeks after transfer to ex vitro conditions, indicating that these structures did not acclimatise ex vitro.Abbreviations BA benzyladenine - GA₃ gibberellic acid - IBA indole-3-butyric acid - LSD least significant difference - MS Murashige and Skoog medium     

<Emphasis Type="Italic">In vitro</Emphasis> propagation of <Emphasis Type="Italic">Acer grandidentatum</Emphasis> Nutt.

Bigtooth maple (Acer grandidentatum) is a promising ornamental tree that is not widely used in managed landscapes. Tissue culture has not been used successfully to propagate this taxon. We cultured single- and double-node explants from greenhouse-grown, 2-y old seedlings of bigtooth maples, which are indigenous to New Mexico, Texas, and Utah, on Murashige–Skoog (MS), Linsmaier–Skoog (LS), Driver–Kuniyuki Walnut (DKW), and Woody Plant (WPM) tissue culture media. Media affected shoot proliferation (P = 0.0242) but the zone of explant origin (P = 0.7594) did not. After four 30-d subcultures, explants on DKW media and WPM media produced 3.6 and 3.5 shoots per explant, respectively. Sprouting rates were highest on DKW, making DKW the best overall media for shoot proliferation. Double-node microshoots were rooted in vitro on DKW containing indole acetic acid (IAA). Microshoots represented six genotypes from three locations within Texas and New Mexico. Rooting percentage increased up to 15% as IAA concentration increased (P = 0.0040). There was 100% survival of rooted microshoots in vented Phytatrays containing one perlite: one peat moss (v/v). We conclude that DKW can be used to proliferate microshoots, and IAA induces rooting in microshoots of bigtooth maple.     

甘蔗试管苗光合自养生根技术研究

为了简化甘蔗组织培养流程,降低生产成本,该文以甘蔗品种GT44和B9无根试管苗为材料,先经叶片喷施植物生长调节剂处理,然后炼苗24 h,接着把处理后的试验苗移植于沙土混合栽培基质中,研究其在日光温室条件下完成不定根的形成和生长过程; 同时比较了无根试管苗和有根试管苗的移栽存活率和生长情况。试管苗生根率调查时间为试管苗移植后第3天开始至第10天结束,成活率的调查时间为试管苗移植后的第30天。结果表明:经吲哚丁酸(IBA)和ABT2号生根粉处理的无根试管苗的移栽成活率分别为96.3%和97.7%,接近传统生根试管苗的移栽成活率,且其单株试管苗生根成本为传统生根方法的1/28。甘蔗品种GT44和B9试管苗首次出现可见根的时间均发生在试管苗移栽后的第4天。试管苗根的再生可以在有菌的沙土基质栽培和日光温室条件下完成,而不需要在无菌的MS生根培养基和培养室中进行生根; 基因型和试管苗素质是影响甘蔗试管苗光合自养生根的关键因素; 甘蔗试管苗光合自养生根技术比传统试管苗培养基生根技术拥有更多优势,且操作简单、程序简化、生根率和成活率高、省工、节省能源和生产成本、效率高,替代传统的试管苗生根技术,应用于商业化生产。     

In vitro rooting of juvenile and mature<Emphasis Type="Italic"> Acacia mangium</Emphasis> microcuttings with reference to leaf morphology as a phase change marker

Rooting capacity of microshoots derived from a mature clone of Acacia mangium Willd. and from its juvenile progeny was compared in different in vitro conditions and in relation to leaf morphology as a phase change marker. Rooting capacity of the mature clone appeared to depend a lot on rooting medium composition, in contrast to the juvenile plant material. On a SH/3 derived medium with 4 µM IAA, the rooting rates varied significantly according to microshoot morphology and light regime starting from day 14. Maintaining the microshoots for 3 weeks in total darkness prior to transfer to the standard 16-h photoperiod increased the rooting rates overall. Mature-like microshoots of juvenile origin rooted in much lower proportions than the juvenile-like ones under the 16-h photoperiod, whereas no difference in rooting rates between the two morphological types was observed after 3 weeks in total darkness. The results were totally opposite for the mature clone for which 3 weeks in darkness, in contrast to the 16-h photoperiod, induced morphology-related differences in rooting rates with higher scores for the juvenile type. This study shows that under certain conditions, A. mangium microshoots from mature origin but with juvenile morphology can root in vitro with similar success rates (70%) to microshoots from juvenile plant material. However, the inconsistencies observed between the two age classes of microshoots in relation to photoperiod refute the use of foliar morphology as a reliable marker of rooting ability in A. mangium, although these two traits are classically referred to as phase change indicators.     

In vitro multiplication of cashew (Anacardium occidentale L.) using shoot node explants of glasshouse-raised plants

Using glasshouse-raised plants (1 month, 1 year and 5 years old), factors affecting shoot development from shoot nodes of two Brazilian and one Tanzanian elite selections of cashew (Anacardium occidentale L.) were assessed. Sprouting of buds decreased strongly with increasing age of mother plants. Solidified media, mainly when purified agar was used, gave better results than liquid medium. Murashige and Skoog salts containing 1/2-strength macroelements were the most suitable for bud sprouting and shoot elongation. Vitamins and sucrose concentration did not have a significant effect but by replacing 20 g/l sucrose with glucose or maltose all estimated parameters were improved. Gibberellins supported bud sprouting and shoot elongation but blocked rooting. Shoots developed in the presence of cytokinins were short and produced axillary branches. Activated charcoal, cultivation of explants in darkness for the first 7 days and superoptimal temperature (35 °C) decreased bud sprouting and supported shoot elongation. Microshoots rooted in vitro at a frequency of 42% when cultured for 5 days with 100 μμ indole-3-butyric acid. Over 40% of rooted microshoots survived weaning. Received: 20 October 1996 / Revision received: 24 January 1997 / Accepted: 1 June 1997     

Micropropagation of <Emphasis Type="Italic">Theobroma cacao</Emphasis> L. using somatic embryo-derived plants

Summary A micropropagation protocol was developed using cacao somatic embryo-derived plant as a source for nodal and apical stem explants, and apical microcuttings. Microcuttings were efficiently rooted and developed into plantlets. Axillary meristems within the remaining decapitated plantlets subsequently developed and were used for production of additional microcuttings, with an average 2.4 growing shoots per decapitated stem. The remaining plantelts were maintained as microcutting stock plants. When nodal stem explants were cultured on thidiazuron medium, axillary buds proliferated and developed into shoots, which were excised and rooted. However, the efficiency of this method is lower than rooting of apical microcuttings harvested directly from stock plants. During root induction, short treatment with indole-3-butyric acid (IBA) increased the total percentage of rooted microcuttings up to 89%. Longer exposures to IBA increased the average number of roots per microcutting (from 1.7 to 5.2). Plant acclimatization after rooting was achieved with an average success of 87%. During several months of growth in the greenhouse, the micropropagated plants developed functional taproots. Currently, cocoa plants produced by this micropropagation method have been successfully acclimated to field conditions in Ivory Coast, Ghana, and Saint Lucia.     

Role of auxin and its modulators in the adventitious rooting of <Emphasis Type="Italic">Eucalyptus</Emphasis> species differing in recalcitrance

It is well established that auxins play a central role in the determination of rooting capacity, which is essential for vegetative propagation. Recent studies with apple trees have pointed to significant effects of auxin stability, wound related phenolics and ethylene production in the control of adventitious rooting. In the present study, a comparative analysis of the adventitious rooting of microcuttings of Eucalyptus saligna (easy-to-root species) and Eucalyptus globulus (difficult-to-root species) was carried out with different types of auxins, light intensities, presence or absence of apical meristem, different concentrations of phenolic compounds and presence or absence of an ethylene action inhibitor. Parameters evaluated were the percent rooting, number of roots per rooted cutting, length of longest root and mean rooting time. Results showed that auxins of intermediate stability are more favorable to rooting (particularly for the recalcitrant species), higher light intensities in the presence of exogenous auxins promote the rooting response, the absence of meristematic apex or externally supplied phenolics are not limiting for the rooting induced by exogenous auxins, and ethylene appears to play a minor role in the development of adventitious roots in microcuttings of Eucalyptus, indicating that the rhizogenic response results from direct effect of auxins.     

Effect of 1,2-benzisoxazole-3-acetic acid on adventitious shoot regeneration and in vitro rooting in apple

 The effect of 1,2-benzisoxazole-3-acetic acid (BOA), compared to 1-naphthaleneacetic acid (NAA), on adventitious shoot formation in leaf portions and compared to indolebutyric acid (IBA), on in vitro rooting in the apple (Malus domestica Borkh) cultivars McIntosh and Gala, and one rootstock, Jork 9, was investigated. BOA at 43.0 μm or 2.7 μm at NAA in combination with 17.8 μm benzyladenine (BA), induced the highest number of explants to produce adventitious shoots in Jork 9. In Gala, the combination of 21.5 μm BOA with 1.0 μm thidiazuron (TDZ) or with 22.0 μm BA induced the highest regeneration percentages, 58 and 54%, respectively, giving more satisfactory results than NAA (where only 42% of leaf explants exhibited shoot formation). In McIntosh, the highest percentage of regeneration was obtained with 1.3 μm NAA and 22.0 μm BA, while 51% was the highest response obtained with the BOA treatment. The combination of BOA with TDZ completely inhibited regeneration activity in leaf portions of this cultivar. The shoots of all the genotypes obtained with the most morphogenetic NAA or BOA treatments were excised, multiplied and successfully rooted and hardened. The results demonstrate that the synthetic auxin BOA is active in inducing shoot regeneration from leaf explants of apple and that the activity of BOA in plant regeneration is genotype dependent. When BOA was used to induce rooting in apple microcuttings, lower rooting percentages were obtained than with IBA, showing that the effect of BOA in inducing root formation is very low and that it cannot be used routinely to replace IBA in the in vitro rooting of microcuttings. Received: 18 June 1998 / Revision received: 4 January 1999 / Accepted: 29 January 1999     

Endogenous indole-3-acetic acid and abscisic acid in apple microcuttings in relation to adventitious root formation

The effects of applying indole-3-butyric acid (IBA) for periods up to 48 h were examined in difficult-to-root microcuttings (from newly-established cultures) and in easy-to-root microcuttings (from long-term subcultures) of Jonathan apple (Malus X domestica Borkh). In easy-to-root material, 20% of the microcuttings produced roots in the absence of IBA, while 6 h exposure to 10 M IBA gave 100% rooting of microcuttings. In contrast, root formation in difficult-to-root material was IBA-dependent. Maximum rooting of these microcuttings (50%) required 24 h exposure to 10 M IBA.Variation in the endogenous levels of free indole-3-acetic acid (IAA) during the course of root induction was similar in microcuttings of both types but there were marked differences in endogenous abscisic acid (ABA) levels. In easy-to-root microcuttings ABA remained at a constant low level, but in difficult-to-root material ABA exhibited marked fluctuations and was present at higher concentrations than in easy-to-root microcuttings.     

Pre and post-severance effects of light quality on carbohydrate dynamics and microcutting adventitious rooting of two Eucalyptus species of contrasting recalcitrance

Adventitious rooting is a complex developmental response affected by genetic and environmental factors. Radiation quality effects on adventitious rooting depend on characteristics such as species, growth stage, irradiance, spectral quality, and time of exposure. Eucalyptus is an essential genus for the paper industry, and high yield plantations depend on adventitious rooting of selected genotypes. This work addressed two hypotheses: (1) radiation quality equally affects adventitious rooting in Eucalyptus species of different recalcitrance; (2) adventitious rooting outcome depends on both donor plant and cutting radiation quality treatments. To that end, the easy-to-root Eucalyptus grandis and the recalcitrant Eucalyptus globulus were evaluated. The effect of white, blue, red and far-red radiation enrichment on microcuttings and donor plants of both species was evaluated in relation to rooting. There was no effect of radiation quality on adventitious rooting of E. grandis or when radiation treatments were applied to E. globulus microcuttings. In contrast, donor plants of E. globulus, grown in medium devoid of sucrose and exposed to far-red radiation, yielded microcuttings showing higher rooting percentage, even in the absence of exogenous auxin in the rooting medium. Sucrose in donor plant medium abolished the positive effect of far-red radiation. An increase in endogenous soluble sugars and starch contents in basal microcuttings was associated with far-red radiation treatment of donor plants. These results underline the importance of appropriate carbohydrate partitioning in donor plants for adventitious rooting of cuttings and provide a basis for understanding and overcoming rooting recalcitrance in E. globulus clones.