A simple method for mass propagation of Spathiphyllum cannifolium using an airlift bioreactor

Summary A method for the micropropagation of Spathiphyllum cannifolium is presented using shoot tip proliferation onto Murashige and Skoog (MS) medium supplemented with different plant growth regulator concentrations and combinations. The proliferation responses were significantly influenced by the cytokinin type and concentrations. Supplementation of the medium with benzyladenine (BA; 4.44–13.32 μM) increased the shoot proliferation rate significantly as compared to other treatments. When cytokinins were used with auxin (indole-3-butyric acid, IBA and naphthalene acetic acid. NAA), the number of shoots per explant increased in comparison with treatments with BA alone. The largest number of shoots, 9.3 per explant, was obtained with 13.32 μM BA and 4.9 μM IBA. Different MS medium strengths and sucrose concentrations were used with the aim to stimulate in vitro shoot proliferation. Full MS medium with 30 gl⁻¹ sucrose was found to be suitable for shoot tip culture of Spathiphyllum. Comparative studies between gelled medium and bioreactor culture [continuous immersion (with or without net) and temporary immersion in liquid media using ebb and flood] revealed that shoot multiplication and growth were more efficient in continuous immersion (with net) bioreactor with low cytokinin-supplemented media. Plantlets from the bioreactor were cultured hydroponically for 30 d and 100% of plants were rooted and acelimatized successfully. Rapid and efficient multiplication rate in bioreactor and successful transfer to greenhouse makes this protocol suitable for large-scale multiplication of this important foliage plant.     

Comparison of methods of liquid medium culture for banana micropropagation

Five different liquid medium culture methods for meristem propagation of bananas were investigated and compared with solid medium culture. Treatments studied were: gelled culture medium (treatment 1); liquid medium with immersion of the plants (treatment 2); liquid medium with cellulose culture support (treatment 3); liquid medium with partial immersion of the plants (treatment 4); liquid medium aerated by bubbling (treatment 5); liquid medium with temporary immersion of the explants for 20 min every 2h (treatment 6). After 20 days of culture, three culture groups with statistically different multiplication rates were observed:

-shoots in simple liquid medium and those on cellulose substrate proliferated little or not at all,

-shoots on gelled medium, those subjected to partial immersion and those in aerated medium displayed multiplication rates of 2.2 to 3.1, and

-the highest multiplication rate (>5) was observed in explants subjected to temporary immersion in the medium.

Two groups of treatments differed in the accumulation of dry matter: the smallest weight (around 0.5 g) was observed in treatment 1, 2, 3 and 4, and accumulation was 2 to 5 times greater in the explants in aerated liquid medium and those subjected to temporary immersion. The highest multiplication rates and weight gains were observed in aerated treatments (treatments 4 and 5). Shoots in liquid medium continuously aerated by bubbling displayed hyperhydricity of the outer leaf sheaths. This was not observed with temporary immersion of explants.     

Development of a temporary immersion system (RITA®) for mass production of sugarcane (<Emphasis Type="Italic">Saccharum</Emphasis> spp. interspecific hybrids)

Commercial micropropagation of sugarcane is largely determined by the clonal fidelity and the cost of plants produced. Rapid production of plants in vitro reduces the frequency of offtypes in many species. By exploiting the concept of transverse thin cell layer culture, we have developed a rapid, high frequency direct plant regeneration system, called SmartSett®, for commercial sugarcane cultivars grown in Australia. Similar to conventional micropropagation, labour remains the major cost of this plant production system. Hence, to reduce the labour component, we have integrated the SmartSett® system with the RITA® temporary immersion bioreactor. Thin transverse leaf sections or fragmented leaves cultured on agar-based SmartSett® shoot induction medium were used as the starting material for RITA®. Shoot initiation on semi-solid medium prior to transferring to RITA®, culture immersion frequency, explant size and genotype determined the productivity (number of plants produced per unit culture) of the system. Results obtained with cultivar Q165 indicate that explants cultured for 45 d on SmartSett® shoot induction medium were the most prolific, producing on average 275 shoots per vessel after 45 d of culture in RITA with 1 min immersion every 12 or 24 h. Using the fragmented tissue, 14-d-old explants and 3-mm leaf tissue fragments were the most productive. Experiments with three cultivars (Q117, Q165 and Q205) showed that RITA® culture conditions need to be optimised for each cultivar for maximum plant production.     

The dynamics of nutrient utilization and growth of apple root stock ‘M9 EMLA’ in temporary versus continuous immersion bioreactors

The present study investigated the dynamics of nutrient utilization and various growth and physiological parameters during in vitro proliferation of apple root stock ‘M9 EMLA’ in two different bioreactor systems, i.e. temporary and continuous immersions. Individual shoots obtained from temporary immersion system had higher dry mass and were of better quality than those obtained from continuous immersion. In continuous immersion bioreactor, apple shoots appeared to utilize more nutrients from liquid culture medium than that from temporary immersion. The shoot growth was limited by the availability of phosphate and nitrogen in continuous immersion system. The shoots produced in temporary immersion bioreactor showed higher photosynthetic rate, maximum quantum yield of photosystem-II and slow but steady rate of nutrient absorption, indicating the occurrence of higher photomixotrophic metabolism. The study also showed that high level of antioxidant scavenging enzymes in shoots grown in continuous immersion system induced physiological changes to foster adaptation to stresses.     

Mass multiplication of protocorm-like bodies using bioreactor system and subsequent plant regeneration in Phalaenopsis

Protocorm-like bodies (PLBs) formed on leaf segmentsin vitro were used as explants for bioreactor cultures. Continuous immersion cultures (air lift column and air lift-balloon bioreactor), and temporary immersion cultures (with or without charcoal filter attached) were used for the culture of PLB sections. A temporary immersion culture with charcoal filter attached was most suitable for PLB culture. About 18,000 PLBs were harvested from 20 g of inoculum (∼1000 PLB sections) in 2 l Hyponex medium after 8 weeks of incubation. Aeration in a bioreactor at 0.5 or 2.0 volume of air per volume of medium min⁻¹ (vvm) yielded similar levels of biomass production. PLBs grown in bioreactors were cultured on solid Murashige and Skoog, Vacin and Went, Knudson C, Lindemann and Hyponex media. Hyponex medium was found to be suitable for conversion of PLBs into plantlets and 83% of PLBs transformed into plantlets on this medium. The feasibility of using PLBs for large-scale micropropagation was evaluated for scaled-up liquid cultures in bioreactors, rate of proliferation, and regeneration. This revised version was published online in June 2006 with corrections to the Cover Date.     

Shoot regeneration from nodules of <Emphasis Type="Italic">Charybdis</Emphasis> sp.: a comparison of semisolid,liquid and temporary immersion culture systems

Nodules of Charybdis numidica maintained in liquid Murashige and Skoog (MS) medium with 20 mol BA in the dark were subjected to different treatments under continuous light for shoot regeneration. A high regeneration rate without hyperhydration of the shoots was observed on semisolid basal MS medium with 1% sucrose. The use of liquid MS medium (1% sucrose, no growth regulators) resulted in a significantly lower amount of shoots per gramme of nodules under both submerged and temporary immersion (TI) conditions. Shoot hyperhydration was lowest in a TI system with one 5 min immersion every 24 h. When compared on a per container base, large amounts of shoots could be produced in the TI system with less labour input than in the system with semisolid medium.     

Protease excretion during pineapple micropropagation in temporary immersion bioreactors

Summary Biotechnology has become an important tool to produce plant secondary metabolites and proteases are among them. Although pineapple plants have been found to produce proteases, most of the biotechnological investigations on this crop have been focused on propagation. The procedure involving the use of temporary immersion bioreactors is one of the most outstanding because of its high multiplication rate. We previously recorded specific protease activity in the culture medium during the pre-elongation step of this protocol. Therefore we decided to modify this phase, looking for an increase of protease excretion. Three independent experiments were performed to evaluate the effects of culture duration, and levels of gibberellic acid (GA) and 6-benzyladenine (BA). The following indicators were recorded: shoot fresh mass per bioreactor; and protein concentration, proteolytic activity, and specific protease activity in culture media. As happens in investigations focused on protease production, the specific protease activity was the most important indicator recorded here. It maximized at 21 d of culture. Moreover, GA (4.2 μM) increased specific activity in the culture medium while BA produced a negative effect. Results shown here demonstrate that conditions adquate for propagation purposes (15-d pre-elongation phase; 2.8 μM GA; 2.2 μM BA) are not necessarily adequate for protease excretion.     

Improving secondary embryogenesis in <Emphasis Type="Italic">Quercus robur</Emphasis>: application of temporary immersion for mass propagation

The effects of the culture system used for embryo proliferation were investigated with the aim of improving multiplication rates and somatic embryo quality in two embryogenic lines of Quercus robur derived from mature trees (B-17 and Sainza). Embryo proliferation medium was defined following comparison of five different semi-solid media, and the highest multiplication rates (based on the total number of embryos and number of cotyledonary-shaped embryos) were achieved with medium supplemented with 0.44 μM benzyladenine for both lines. Embryo proliferation on semi-solid medium was compared with that obtained by a temporary immersion system (TIS), in which four cycles with immersion frequencies of 1 min every 6, 8, 12 or 24 h were tested. TIS promoted a significant increase in proliferated embryo biomass, with the growth index (GI) two and four times higher than in semi-solid medium in B-17 and Sainza genotypes, respectively. An immersion cycle of 1 min every 8 or 12 h produced approximately 700 somatic embryos (B-17) and 1,500 somatic embryos (Sainza) per RITA^® bioreactor, with significant differences in the latter genotype with respect to gelled medium. TIS had also a significant effect on somatic embryo synchronization as it enabled a higher production of cotyledonary embryos (90%), which represents increases of 14% (B-17) and 20% (Sainza) with respect to gelled medium. For germination of embryos proliferated in TIS two maturation systems were applied: (1) culture in semi-solid medium containing 6% sorbitol or (2) culture by TIS (without sorbitol) at a frequency of 1 min immersion every 48 h. Germination ability was higher after maturation on sorbitol medium and plantlet conversion occurred in 48% (B-17) and 13% (Sainza) embryos. TIS produced large numbers of well-developed cotyledonary embryos, hence reduced the cost and labor.     

<Emphasis Type="Italic">In vitro</Emphasis> micropropagation of endangered <Emphasis Type="Italic"> Rhododendron ponticum</Emphasis> L. subsp. <Emphasis Type="Italic">baeticum</Emphasis> (Boissier &; Reuter) Handel-Mazzetti

In vitro propagation of Rhododendron ponticum L. subsp. baeticum, an endangered species present in limited and vulnerable populations as a Tertiary relict in the southern Iberian Peninsula, was attained. Several cytokinin:IAA ratios and a range of zeatin concentrations were evaluated for their effect on shoot multiplication from apical shoots and nodal segments. The type of cytokinin and the origin of the explant were the most important factors affecting shoot multiplication. The highest shoot multiplication rate was obtained from single-nodal explants on medium supplemented with zeatin. Increasing zeatin concentration promotes shoot multiplication independently of explant type, although this effect tends to decrease with higher zeatin concentration. Shoot growth was higher in apical shoots and it was not stimulated by the presence of auxin. A number of experiments were conducted to identify suitable procedures for rooting of in vitro produced shoots. The best results in terms of in vitro rooting were obtained with Andersons modified medium with macrosalts reduced to one-half, regardless of the auxin or its concentration in the medium. Although rooting frequency rose to 97% by basal immersion of shoots in auxin concentrated solution followed by in vitro culture on an auxin-free medium, the survival of the plants after 6 months of acclimatization was poor (50%). Best results (100% rooting and survival) were observed for ex vitro rooting. The micropropagated plants from this study were successfully reintroduced into their natural habitat (87% of survival after 8 months).     

Shoot regeneration from leaf explants of five strawberry (<Emphasis Type="Italic">Fragaria × Ananassa</Emphasis>) cultivars in temporary immersion bioreactor system

Summary A temporary immersion bioreactor system (TIB system) provides a convenient and efficient way to propagate plant material in vitro while requiring significantly lower labor input than conventional methods. The applicability of a TIB system for adventitious shoot regeneration from strawberry leaf explants was studied. Five commercial cultivars, i.e. Bounty, Jonsok, Korona, Polka, and Zephyr, were propagated in regeneration medium in commercially available TIB bioreactors (RITA^?) and, for comparison, on the same medium solidified with agar. The TIB system proved to be well suited for shoot propagation and for subsequent subculture of the developing plantlets. Regeneration frequencies were 70±8 to 94±2% and 83±5 to 92±3% in the TIB system and on semi-solid medium, respectively. The labor time taken by the TIB system was less than half of the time required for handling plant material for cultivation on semi-solid medium. This system thus provides a convenient method that could be adopted for commercial in vitro propagation or for regeneration of transgenic strawberry cultivars.     

Biomass production of<Emphasis Type="Italic">Anoectochilus formosanus</Emphasis> hayata in a bioreactor system

We investigated the factors that affect biomass production fromAnoectochilus formosanus in a bioreactor system. Those factors included inoculum size, initial sucrose concentration, media supplements, photosynthetic photon flux density (PPFD), and cuIturing methods. An inoculum size of 8 g L⁻¹ was most suitable for shoot proliferation; biomass accumulation was optimized when the medium was supplemented with 3% sucrose compared with sucrose-free media or those containing concentrations of 6% or 9%. This accumulation also was enhanced under a PPFD of 50 μmol m² s⁻¹. Likewise, the addition of coconut water (50 mL L⁻¹) plus activated charcoal (0.5 mg L⁻¹) to our Hyponex medium proved most beneficial. Comparative studies among three bioreactor systems — continuous immersion, raft (net), and temporary immersion (the ebb and flood system) — revealed that shoot proliferation and biomass accumulation were more efficient when culturing was performed under continuous immersion.     

In vitro regeneration of Alnus cremastogyne Burk from epicotyl explants

Summary Multiple shoots were grown from seedling explants of Alnus cremastogyne Burk by a two-stage culture procedure: initiation on WP medium supplemented with 2–8 M benzylammopurine(BAP) for 6 weeks, thereafter 3 weeks of subculture(shoot multiplication) on the same medium with 1 M BAP. A 5–9 fold multiplication rate was achieved. Type and concentration of sugar used in the multiplication medium were shown to be critical factors for both multiple shoot induction and bud elongation, the optima being 87.5mM glucose and 87.5mM sucrose respectively. After transfer to half-strength WP media either containing indolebutyric acid (IBA) or lacking plant growth regulator, almost all the shoots rooted. However, high rhizogenesis could be achieved only with shoots cultured in rooting medium containing 87.5mM sucrose or 175mM glucose, and shoots from multiplication media containing 87.5mM sucrose. Survival of the plantlets following transfer to vermiculite was 100%.Abbreviations BAP 6-benzylaminopurine - 2iP N⁶-(²-isopentenyl)adenine - kinetin 6-furfurylaminopurine - zeatin trans-6-(4-hydroxy-3-methylbut-2-enyl)aminopurine - IBA indol-3-butyric acid - WPM Woody plant medium (Lloyd and McCown, 1981)     

Development of an embryogenic suspension culture of soybean (Glycine max Merrill.)

A rapidly growing, maintainable, embryogenic suspension culture of Glycine max L. Merrill. has been generated. The culture consisted almost entirely of clumps of proliferating globular embryos with very little nonembryogenic tissues. The number and size of somatic embryo clumps were used to quantify growth of embryogenic tissues under various conditions. Initiation and proliferation of this embryogenic suspension culture were dependent on the inoculum, method of subculture, and composition of the subculture medium. Twenty to 50 mg of highly embryogenic, early-staged soybean tissue were inoculated into 35 ml of liquid culture medium containing 5 mg 1^–1 2,4-D and either 15 mM glutamine or preferably 5 mM asparagine. Suspension cultures were subcultured at the same inoculum density every 4 weeks. The embryos matured and germinated following placement on solid media, resulting in consistent plant regeneration.     

Pineapple (Ananas comosus L. Merr) micropropagation in temporary immersion systems

A procedure for the mass propagation of pineapple plants (Ananas comosus L. Merr) using a temporary immersion technique is described. This procedure involved three distinct phases in the automated temporary immersion system: shooting, bud differentiation and elongation. To establish this protocol, we used in vitro shoots obtained from established liquid culture as starting materials. Three culture methods (solid, liquid and temporary immersion) were compared. Temporary immersion increased the multiplication rate and fresh and dry weight after 42 days. Conventional micropropagation (liquid medium) and temporary immersion were compared in combination with paclobutrazol. Paclobutrazol promoted the formation of compact bud clusters with limited leaf development. The highest multiplication rate (106) was found when ex-plants were cultured in shooting medium (MS+2.1 mg/l BA+0.3 mg/l NAA) supplemented with 1 mg/l PB for 7 weeks. A 10-l temporary immersion bioreactor was used to test two approaches during elongation stage: reduction of the shoot-formation period or decrease of the initial number of explants. The highest number of competent and uniform plants (191.8 plant/l) was achieved when shoots were cultured for 4 weeks in shooting medium supplemented with PB. Received: 4 February 1998 / Revision received: 22 June 1998 / Accepted: 14 August 1998     

Influence of culture conditions on embryo formation and maturation in auxin-induced embryogenic cultures of Digitalis obscura

Somatic embryogenesis was induced in hypocotyls of Digitalis obscura using indoleacetic acid or 2,4-dichlorophenoxyacetic acid with different culture and subculture conditions. Indoleacetic acid-induced embryogenic cultures were used to investigate the effects of amino acids, polyamines and growth regulators on embryo differentiation and maturation. Supplementation of the media with amino acids, polyamines or abscisic acid did not influence or had an adverse effect on embryogenic response. Gibberellic acid at 1.4 M in either culture (30 days) or subculture medium was effective in promoting both differentiation and normal embryo development. The efficiency of somatic embryogenesis was greatly enhanced when isolated indoleacetic acid-induced proembryogenic masses were subcultured in liquid medium with reduced auxin content.Abbreviations ABA abscisic acid - 2,4-D 2,4-dichlorophenoxyacetic acid - GA gibberellic acid - IAA indoleacetic acid - Ptr putrescine - Spd spermidine - Spn spermine     

A survey of the response of Rhododendron to in vitro culture

The responses of 7 genotypes of Rhodendron to culture conditions and their establishment as shoot cultures are described. The genotypes represent a broad genetic diversity in the genus. After sterilization and an acclimation period of 3 to 12 months, all the selections were established as shoot cultures on Woody Plant Medium (WPM) supplemented with N⁶(-²-isopenteny) adenine (2iP). Plants with strong episodic growth cycles required the longer acclimation periods. Utilizing shoots from these cultures, the response to a cytokinin series of 0 to 32 M 2iP or BAP (6-Benzylaminopurine) was analyzed. BAP proved toxic to all but the elipidote and lepidote rhododendrons (R. mucronulatum, R. x Boule de Neige, and R. x PJM); however, even with these selections, 2iP stimulated greater shoot multiplication rates. The optimum 2iP level for shoot multiplication varied little with the genotype and levels of 4 to 16 M generally proved optimal, depending on the specific selection. Adventitious shoot production was observed in 3 selections (R. canadense, R. x Boule de Neige and R. x PJM), but only at 2iP levels above 8 M. Shoot multiplication rates of 7 to 21 times were observed, depending on the selection. Using an average utilizable shoot production rate of 40 shoots per culture per 6 week subculture period, some 75,000 shoots can be generated per square meter of culture space per year. The harvested shoots (microcuttings) rooted readily out-of-culture and the resultant plants grew like seedlings.     

Micropropagation of Calluna vulgaris cv. ‘H.E. Beale’

Axillary shoot producing cultures were obtained from microcuttings and shoot tips of Calluna vulgaris cv. H.E. Beale. For cultures derived from microcuttings the highest multiplication rate of 38 shoots (5 mm or longer) was obtained on a reduced salt medium with the addition of 0.5 mgl^-1 2-isopentenyladenine (2iP) during an 8 week subculture. For shoot tip derived cultures 0.2 mgl^-1 6-benzyladenine (BA) was the best cytokinin and led to a multiplication rate of 26 for a 6 week subculture. The addition of 1 g/l casein hydrolysate to a multiplication medium enhanced shoot proliferation in presence of 0.5 mgl^-1 BA.Despite various auxin treatments shoots formed no roots in vitro but rooted readily if transferred to a peat substrate ex vitro. A high rooting percentage (80%) was also obtained with shoots taken from the end of a multiplication phase and rooted directly. An additional subculture on low auxin containing media before transfer to peat substrate is recommended because the shoot condition can be improved in this way. A high number of rooted plantlets was produced, so the methods described will allow mass propagation.     

In vitro differentiation and plant regeneration of Albizia chinesis (Osb.) Merr

Summary Petiolar and distal cotyledonary segments (PCS and DCS) of Albizia chinensis were cultured on Murashige and Skoog's (MS; 1962) medium and induced to form adventitious shoot buds in the presence of either cytokinins 6-benzylamino purine (BAP), kinetin (KN) or thidiazuron (TDZ). Superiority of BAP in inducing shoot bud and differentiation was observed. PCS was more morphogenic to shoot bud differentiation than DCS. TDZ was highly effective in inducing shoot buds, but arrested shoot growth, while KN produced more callus during differentiation of shoots. Rapid and high rate of shoot multiplication per explant was achieved through subculture in MS medium containing BAP (1.0 mg l⁻¹) and indole-3-acetic acid (IAA) (0.5 mg l⁻¹). BAP at low concentration was required to enhance shoot multiplication and elongation. Successful rooting of regenerated shoots was carried out in a two-step culture procedure in MS media with indole-3-butyric acid (IBA) (2.0 mg l⁻¹) and subsequent subculture in IBA-free medium.     

In vitro Storage of Strawberry and Raspberry in Calcium-Alginate Beads at 4°C

Three-millimeter-long shoot tips of strawberry 'Senga Sengana' and raspberry 'Norna' encapsulated in calcium alginate were stored in vitro at 4 °C in the dark. The cultures which were donors for the shoot tips were grown before encapsulation on shoot multiplication media (Boxus medium with 2.2 µM BAP and 2.46 µM IBA for strawberry, and MS medium with NH₄NO₃ and KNO₃ reduced by 50%, and with 3.55 µM BAP and 0.49 µM IBA for raspberry) as well as on these media supplemented with 10 g l^–1 mannitol or paclobutrazol (1.7 µM for strawberry and 3.4 µM for raspberry). Sodium alginate was dissolved in water, water with sugar or in a culture medium without growth regulators. Regrowth ability of the stored explants and in vitro multiplication in three successive subcultures were evaluated. The encapsulated shoot tips could be stored for 9 months in beads containing sugar or a culture medium. The pre-conditioning of the donor cultures on a mannitol containing medium was beneficial for regrowth ability. The multiplication rate of strawberry and raspberry shoots in the first subculture after storage was lower than that of non-stored cultures. Particularly low multiplication was obtained for strawberry which had been stored for 9 months and for raspberry stored for 3 and 6 months, in combinations where the beads were prepared by dissolving sodium alginate in water. Multiplication of strawberry in the second subculture was generally higher than in non-stored cultures, but multiplication of raspberry was lower also in the second subculture, with the exception of the combination stored for 9 months and pre-cultured on mannitol. In the third subculture, shoot multiplication in both species was similar to that in non-stored cultures.     

Plant regeneration from protoplasts of <Emphasis Type="Italic">Musa acuminata</Emphasis> cv. Mas (AA) via somatic embryogenesis

A protocol for plant regeneration from protoplasts of Musa acuminata cv. Mas (AA) via somatic embryogenesis was developed. Viable protoplasts were isolated from embryogenic cell suspensions at a yield of 1.2 × 10⁷ protoplasts/ml packed cell volume (PCV). Liquid and feeder layer culture systems with medium-A and medium-B were used for protoplast culture. In liquid culture system, medium-B was more efficient for inducing cell division (17.5% at 14 days) and colony formation (6.7% at 28 days) than medium-A. However, all protoplast-derived cell colonies (PDCC) obtained from liquid culture system could not develop further. In feeder layer culture system, there was no significant difference between medium-A and medium-B on cell division and colony formation of the cultured protoplasts, and the cell division frequency at 14 days and colony formation frequency at 28 days were 24.5% and 11.2%, respectively, in medium-B. Comparative study on the effects of BAP (2.2 μM, 4.4 μM, 8.8 μM), zeatin (0.4 μM, 0.8 μM, 1.2 μM) and TDZ (0.2 μM, 0.4 μM, 0.6 μM) on embryo formation of PDCC from feeder-layer culture indicated that TDZ was best. TDZ at 0.4 μM induced 7906 mature embryos per ml PCV PDCC, which was 4-fold the frequency as with BAP at 4.4 μM, 7.5-fold as with zeatin at 0.8 μM and 150-fold as control medium (no mentioned cytokinins) after 45 days on M3 medium. About 44% of the mature embryos were converted into plantlets with poor root system after subculture on M4 medium. Root further development of regenerated plantlets was promoted by addition of activated charcoal (AC) to MS basal medium.