The effects of ancymidol,abscisic acid,uniconazole and paclobutrazol on somatic embryogenesis of asparagus

Summary The effects of ancymidol, abscisic acid (ABA), uniconazole, and paclobutrazol on asparagus somatic embryogenesis were evaluated. Calli induced from seedlings of genotype G447 were transferred to embryo induction medium (MS plus 3% sucrose, 0.1 mg L^–1 NAA, 0.5 mg L^–1 kinetin and 3% gelrite), with different concentrations of these compounds. After 8 weeks, the recovered bipolar or globular embryos were placed on germination medium (MS plus 6% sucrose, 0.1 mg L^–1 NAA, 0.1 mg L^–1 kinetin, 0.75 mg L^–1 ancymidol, 40 mg L^–1 adenine sulphate dihydrate, 0.17 mg L^–1 sodium phosphate monobasic and 3% gelrite) for conversion to plantlets. Inclusion of ancymidol, ABA, uniconazole and paclobutrazol in the embryo induction medium did not affect the total number of somatic embryos produced relative to the control without these compounds. However, ancymidol, ABA and uniconazole significantly improved embryo development by increasing the production of bipolar embryos 250–750% and decreasing that of globular embryos 8–35% relative to the control. The bipolar embryos produced with any of the four compounds in the embryo induction medium converted to plantlets at rates 700–1100% greater than the control. None of the globular embryos converted to plantlets. Ancymidol (0.75 mg L^–1) and ABA (0.05 mg L^–1) were the most effective treatments; 61 and 46 bipolar embryos g^–1 callus were produced, and 38% and 37% of the bipolar embryos converted to plantlets, respectively. These results indicated that ancymidol, ABA, uniconazole and paclobutrazol significantly enhanced the production of asparagus somatic embryos and their conversion to plantlets, and ancymidol and ABA were more effective than uniconazole and paclobutrazol.Abbreviations Ancymidol a-cyclopropyl-a(4-methoxyphenyi)-5-pyrimidine methanol - NAA 1-naphthaleneacetic acid - Paclobutrazol I-(4-chlorophenyl)-4,4-dimethyl-2(1H-1,2,4-triazol-1-yl)-pentan-3-ol - Uniconazole (E)-(p-chlorophenyl)-4,4-dimethyl-2-(1,2,4-triazol-1-yl)-1-pentan-3-ol - ABA abscisic acid - GA gibberellic acid     

Development of haploid asparagus embryos from liquid cultures of anther-derived calli is enhanced by ancymidol

Summary The effect of ancymidol concentration on the development of haploid asparagus embryos was determined. Liquid cultures from anther-derived calli were grown for three weeks in MS medium plus 1.0 mg l^–1 2,4-D, 0.1 mg l^–1 NAA, 0.2 mg l^–1 kinetin, 800 mg l^–1 glutamine, 500 mg l^–1 casein hydrolysate, 2% sucrose and 0.0–1.0 mg l^–1 ancymidol. Cell clumps (224–500 m) were plated on solid embryo maturation medium (MS medium plus 3% sucrose, 0.1 mg l^–1 NAA, 0.5 mg l^–1 kinetin and 0.0–1.0 mg l^–1 ancymidol) and grown for eight weeks. Ancymidol enhanced embryo maturation and germination and was more critical in the solid than liquid medium. Total embryo number did not vary among most treatments. The best response was observed when ancymidol concentrations were 0.1 and 0.5 mg l^–1 in the liquid and solid media, respectively; two-thirds of the embryos produced were bipolar and 35% of bipolar embryos germinated. Seven to 82% of plants recovered from different ancymidol treatments were haploid; the others were diploid, triploid or chimeric for ploidy level.Abbreviations NAA naphthaleneacetic acid - 2,4-D 2,4-dichlorophenoxyacetic acid - GA₃ gibberellic acid - MS Murashige and Skoog (1962)     

Promotion of asparagus shoot and root growth by growth retardants

Plantlets regenerated from shoot-tip culture of Asparagus officinalis L. possessed weak shoots and roots. Various combinations of auxins and cytokinins did not improve the plantlets. Incorporation of a number of growth retardants, viz. ancymidol, B-995, phosfon, Amo 1618, cycocel and paclobutrazol, promoted growth of stronger shoots and roots. The effectiveness of the growth retardants varied, with ancymidol being most effective and cycocel least effective.The response to ancymidol was prevented by exogenous GA₃ and GA_4/7. GA_1/3 and GA_4/7-like activities were detected in asparagus shoot-tip culture and these activities were reduced by the presence of the growth retardants ancymidol, Amo-1618, and cycocel.     

Micropropagation of the pistachio and its rootstocks by temporary immersion system

Although several studies have been reported on the micropropagation of the pistachio and its rootstocks, to date none of them had been efficient on the mass production of these plants in bioreactor systems. Thus, the micropropagation of juvenile pistachio shoot tips and nodal buds was investigated in a temporary immersion bioreactor system (RITA^®) and on a conventional semi-solid medium. Among the tested immersion conditions, immersion for 24 min every 16 h reduced vitrification and improved proliferation in the pistachio. Interactions were evident in immersion time and frequency in nodal segments. Nodal buds were better than shoot tips as the highest multiple shoot formation was recorded in MS medium containing 4 mg L^?1 BA and 0.1 mg L^?1 GA₃ in RITA^®. Although shoot tip necrosis (STN) was observed in shoots proliferated on semi-solid MS medium, such a symptom did not occur in shoots sprouted in the RITA^®. Additionally, these optimized conditions were applied to nodal buds of mature male pistachio ‘Atl?’ and Pistacia rootstocks (P. khinjuk Stocks and P. atlantica Desf.), and the micropropagation in the bioreactor system, in comparison to the semi-solid medium, was also improved. Furthermore, in vitro rooting of pistachio plantlets, despite the lower range (27.5 %), was also achieved in RITA^®. However, rooting was better on semi-solid medium for all tested species (ranged between 50 and 70 %). The results of this study showed that RITA^® could be used for the mass propagation of pistachio and its rootstocks, as well as for other woody plant species.     

<Emphasis Type="Italic">In vitro</Emphasis> stem elongation of stemless carline thistle

In vitro culture of stemless carline thistle was established using immature zygotic embryos. A satisfactory bud multiplication was achieved on MS medium supplemented with BAP (1 mg L^–1) and IAA (0.2 mg L^–1). Maximum rooting of buds was induced upon short cultivation (4 or 8 days) on an auxin-supplemented medium. Highest number of roots was obtained with NAA in the medium while the longest roots developed on the IAA-supplemented medium. Plantlets that subsequently developed were in rosette form if grown in light (16/8 h light to darkness photoperiod) and with elongated stems if raised in darkness. Light grown plantlets treated with GA₃ showed dose dependent stem increase in length, reaching maximum at the concentration of 10^–4 M. This was correlated with the length and the average number of internodes. If cultivated in the presence of ancymidol, dark grown plantlets showed reduced stem length. However, the inhibitory effect of the growth retardant on stem elongation was completely overcome by the addition of GA₃.     

In vitro culture and micropropagation of the Baetic-Moroccan endemic plant Lapiedra martinezii Lag. (Amaryllidaceae)

Lapiedra martinezii Lag. is a potential medicinal and ornamental plant facing conservation challenges. Thus, this study was focused on determining the conditions for culture initiation and propagation using in vitro techniques. The optimal sterilization procedure combined thermotherapy at 54°C for 60 min and immersion in 7% (w/v) Ca(ClO)₂ solution for 20 min. The most suitable medium to initiate bulb scales cultures was Gamborg B5 medium containing 500 mg L⁻¹ casein, 2 mg L⁻¹ adenine, 10 mg L⁻¹ glutathione and 10 g L⁻¹ sucrose. The most productive multiplication medium tested was Murashige and Skoog medium containing 30 g L⁻¹ sucrose, 4.0 mg L⁻¹ 6-benzylaminopurine, and 0.12 mg L⁻¹ 1-naphtaleneacetic acid. Most plants developed in vitro rooted spontaneously in the multiplication phase. The vast majority of the plants (89%) were successfully transferred to ex vitro conditions, and 100% survived over 1 yr of cultivation outdoors. Sucrose at a concentration of 60 g L⁻¹ was the most effective treatment to increase the biomass of bulblets. High auxin/cytokinin ratios produced the highest callus induction efficiency. The vast majority of callus developed in dark conditions, but none regenerated in the combinations of growth regulators previously tested. The plants obtained by micropropagation did not show significant differences in morphometric traits compared with the wild specimens, which supported the stability of the materials produced in vitro. This is the first report on cell cultures and micropropagation of L. martinezii, and the results can be applied to other Amaryllidaceae for industrial or conservation purposes.

     

华重楼离体胚培养及植株再生初探

为探明华重楼离体胚培养及植株再生的基本体系,该文以华重楼离体幼胚为试验材料,以MS培养基为基本培养基,研究不同光照、不同浓度梯度组合的植物生长调节剂对华重楼离体幼胚萌发、成苗的影响。结果表明:培养到60 d时,暗培养条件下华重楼离体幼胚的生长率和萌发率分别比光培养条件下高45.25%、19.17%,故暗培养比光培养更有利于华重楼离体幼胚生长发育。当GA₃浓度相同时,离体幼胚萌发所需时间随IAA浓度增加而延长。不同浓度的GA₃都可促进离体幼胚萌发,促进作用由强到弱依次为5 mg·L^-1GA₃>1 mg·L^-1GA₃> 10 mg·L^-1GA₃。在黑暗条件下,优选得到最适华重楼离体幼胚生长发育配方为1/2 MS+30g·L^-1蔗糖+7 g·L^-1琼脂+0.5 g·L^-1活性炭+5 mg·L^-1GA₃     

Alkaloid patterns in Leucojum aestivum shoot culture cultivated at temporary immersion conditions

The alkaloid patterns in Leucojum aestivum L. shoot culture cultivated at temporary immersion conditions were investigated using gas chromatography-mass spectrometry. 18 alkaloids were identified, and galanthamine, hamayne and lycorine were dominant. The L. aestivum 80 shoot culture, cultivated at temporary immersion conditions, is a prospective biological matrix for obtaining wide range Amaryllidaceae alkaloids, showing valuable biological and pharmacological activities. The temperature of cultivation influenced enzyme activities, catalyzing phenol oxidative coupling of 4′-O-methylnorbelladine and formation of the different groups Amaryllidaceae alkaloids. Decreasing the temperature of cultivation of L. aestivum 80 shoot culture led to activation of para-ortho’ phenol oxidative coupling (formation of galanthamine type alkaloids) and inhibited ortho-para’ and para-para’ phenol oxidative coupling (formation of lycorine and haemanthamine types alkaloids).     

Necessity of gibberellin for stimulatory effect of KAR1 on germination of dormant Avena fatua L. caryopses

Avena fatua L. florets (caryopses enclosed by lemma and palea) were partially dormant at 10–20 °C and did not germinate at temperatures outside this range. After-ripening florets at 25 °C for 12 weeks completely removed dormancy. Caryopses (florets without lemma and palea) were able to germinate totally at 20 °C. Karrikinolide (KAR₁) and gibberellic acid (GA₃) applied at 10–25 °C partially or markedly induced germination of dormant florets and caryopses, respectively. Both florets and caryopses were more sensitive to KAR₁ than to GA₃. To obtain similar effects, 1,000 to 10,000 times lower concentrations of KAR₁ than GA₃ were required. After-ripening with time gradually increased sensitivity of caryopses to these regulators. Likewise, after-ripened, non-dormant caryopses were sensitive to KAR₁ and GA₃. Inhibitors of gibberellin biosynthesis, ancymidol, paclobutrazol and flurprimidol inhibited the effect of KAR₁. This inhibition was reversed by GA₃. Caryopses pre-incubated in water with ancymidol or paclobutrazol in the presence or absence of KAR₁ germinated completely but with different rates after transfer to GA₃. KAR₁ probably requires gibberellin biosynthesis to stimulate germination of dormant Avena fatua L. caryopses. Both KAR₁ and GA₃ increased α-amylase, β-amylase and dehydrogenases activities during imbibition before visible germination occurred.     

Multiple bud cultures of 'Barhee' date palm (Phoenix dactylifera) and physiological status of regenerated plants

Adventitious bud clusters of date palm ‘Barhee’ were successfully established from juvenile leaves (<1 cm) using reduced amounts of 2,4-D (0.2 mg L⁻¹) to limit the risk of somaclonal variation. An average of 8.4 adventitious buds per explant were obtained. Histological examination showed that the superficial cell layers of leaves had the highest caulogenic capacity. High sucrose concentration (70 g L⁻¹) was used for the conversion of initial buds to multiple bud clusters. The promoting effect of temporary immersion on shoot proliferation was found to be significant when compared to cultivation on solid media. Elongation of shoots was also better using a thin film of PGR-free liquid medium instead of a solid medium. Anatomical observations indicated that roots from vitroplants were potentially functional at various developmental stages. However, only 12-month-old vitroplants were found to be physiologically able to control transpirational vapor loss. Additionally, the photochemical activity of photosystem II in these vitroplants was close to that measured in plants that were already acclimatized. As a result, 83.3% of regenerated plants were successfully acclimatized. No phenotypic variation was observed among more than 500 adventitious bud-derived plants. All regenerants survived after field transplantation. We found that the production of adventitious bud clusters in small bioreactors was able to provide an efficient micropropagation system for date palm cv. ‘Barhee’. An in vitro hardening step was a prerequisite for the successful transfer of vitroplants in soil.     

The effect of gibberellic acid on the <Emphasis Type="Italic">in vitro</Emphasis> germination of coconut zygotic embryos and their conversion into plantlets

The effect of gibberellic acid (GA₃) was tested on germination of coconut zygotic embryos, their conversion into plantlets and ex vitro survival. There were four treatments consisting of 5 wk of culture in semi-solid medium or liquid medium, with or without GA₃. Embryos were then transferred to GA₃ free-liquid medium for the rest of a 32-wk culture. Germination and conversion percentages were higher in semi-solid medium than in liquid medium, and with both media percentages increased with GA₃ treatment (with the exception of the highest GA₃ concentration). Embryos of two varieties (MGD and MYD) were used. The following are the results with MGD embryos. Optimum GA₃ concentration in liquid medium was 0.46 μM, with 80% germination (62% in the control without GA₃) and 4.6 μM in semi-solid medium with 98% germination (71% in the control). With GA₃ treatment, germination was also faster. Conversion in semi-solid medium with GA₃ was 87% (60% in the control), and 45% in liquid medium with GA₃ (25% in the control). Once the plantlets had at least three bifid leaves and three primary roots at the time of transfer to ex vitro, they survived independently of the treatment. When MYD embryos were used, germination and conversion percentages were higher in semi-solid medium than in liquid medium, and they increased when GA₃ was used, although percentages were lower than those obtained with MGD embryos. The results showed that the use of GA₃ benefited coconut embryos in culture because it favored germination and conversion to plants on semi-solid medium, and hence improved previous protocols.     

Effect of sucrose,light, and carbon dioxide on plantain micropropagation in temporary immersion bioreactors

In vitro physiology and carbon metabolism can be affected by the sink–source relationship. The effect of different sucrose concentrations (10, 30, and 50 g L⁻¹), light intensities (80 and 150 μmol m⁻² s⁻¹), and CO₂ levels (375 and 1,200 μmol mol⁻¹) were tested during plantain micropropagation in temporary immersion bioreactors. Activities of pyruvate kinase, phosphoenol pyruvate carboxylase, and the photosynthesis rate were recorded. From the morphological and practical point of view, the best results were obtained when plants were cultured with 30 g L⁻¹ sucrose, 80 μmol m⁻² s⁻¹ light intensity, and 1,200 μmol mol⁻¹ CO₂ concentration. This treatment improved leaf and root development, reduced respiration during in vitro culture, and increased starch level at the end of the hardening phase. In addition to that, the number of competent plants was increased from 80.0% to 91.0% at the end of the in vitro phase and the survival percentage from 95.71% to 99.80% during ex vitro hardening.     

Improved propagation of vanilla (Vanilla planifolia Jacks. ex Andrews) using a temporary immersion system

Here, we evaluated the efficiency of shoot multiplication of Vanilla planifolia Jacks. ex Andrews using solid medium, partial immersion, and a temporary immersion system (TIS) to improve micropropagation in this species. Clusters of shoots were cultivated in vitro using Murashige and Skoog (MS) medium supplemented with 9.55 μM benzyladenine (BA) and 100 mL L^?1 coconut water. For the TIS, a RITA^® system was used and three immersion frequencies were evaluated (every 4, 8, and 12 h) with an immersion time of 2 min. After 30-d culture, the TIS produced the maximum multiplication rate (14.27 shoots per explant) when using an immersion frequency of 2 min every 4 h, followed by the partial immersion system (8.64 shoots per explant), and solid medium (5.80 shoots per explant). Next, the effect of the volume of culture medium per explant was also evaluated for TIS. The most suitable volume of culture medium for shoot formation was 25 mL per explant, which increased the rate of multiplication to 17.54 shoots per explant. Root initiation was 90% successful in TIS using half-strength MS medium supplemented with 0.44 μM naphthaleneacetic acid (NAA) and an immersion frequency of 2 min every 4 h. With this system, the shoot multiplication rate increased threefold compared to that obtained with solid medium. In addition, this system produced good results for the transplantation and acclimation (90% of survival) of in vitro-derived plants. These results offer new options for large-scale micropropagation of vanilla.     

In vitro propagation and assessment of genetic stability of micropropagated Samanea saman (rain tree) using microsatellite markers

An efficient in vitro propagation of Samanea saman (rain tree) protocol has been successfully developed using nodal explants from a 20-year-old tree. Higher percentage (76 %) of explants produced up to five shoots per explant on Murashige and Skoog (MS) medium supplemented with 2 mg L^?1 6-benzyladenine (BA), 0.1 mg L^?1 gibberellic acid (GA₃) and 100 mg L^?1 casein hydrolysate after 3 weeks of culture. When explants were subcultured to fresh medium after harvesting first batch of shoots, more shoots could be generated (another eight shoots per explant). Shoot elongation was achieved (3 cm) when shoots were cultured on MS medium supplemented with 0.25 mg L^?1 BA and 0.75 mg L^?1 GA₃. In vitro generated shoots rooted on MS medium fortified with 0.75 mg L^?1 indole-3-butyric acid plus 0.1 % of activated charcoal. A higher percentage of explant response and shoots per explant were obtained on MS medium with BA and GA₃. Each responsive nodal explant yields an average of 15 rooted plants within a period of 10 weeks. Rooted plantlets were successfully acclimatized in green house with a survival rate of 90 %. Micropropagated plants were tested for genetic stability using simple sequence repeats (SSR) markers. Use of the 12 high-resolution SSR markers revealed the exact same genetic profile between the mother tree (donor) and micropropagated plants, suggesting the genetic fidelity of our micropropagation protocol. The same protocol was also used successfully in propagating a “Golden Rain Tree” although response of explant and efficiency of propagation was much lower. This protocol will be useful for germplasm preservation/large scale production of true-to-type clones of desirable genotypes.     

Micropropagation of Eucalyptus benthamii to form a clonal micro-garden

Eucalyptus benthamii is an important component of forestry plantations in cold regions, but it is difficult to obtain clonal plants of this species, especially by low rooting. In this study, we developed a method for cloning selected genotypes of E. benthamii using a micropropagation technique, enabling the formation of a clonal micro-garden. Nodal segments from sprouts of mini-stumps in the clonal mini-garden were used as explants. After in vitro establishment of the explants, we tested two selected clones (BP101 and BP118), three culture media (Wood Plant Medium (WPM), Correia and colleagues JADS medium, and Murashige and Skoog medium), and two plant growth regulators (6-benzylaminopurine (BAP) and ??-naphthaleneacetic acid (NAA)) for the multiplication of adventitious buds. Additionally, combinations of two other plant growth regulators (BAP and gibberellic acid (GA₃)) were tested for the elongation of shoots. The in vitro and ex vitro rooting of micro-plantlets prior to acclimatization were compared. The in vitro bud multiplication of E. benthamii depended on the clone, culture medium, and concentration of plant growth regulators. The best results were obtained with WPM supplemented with 0.5?mg?L^?1 BAP and 0.05?mg?L^?1 NAA. The elongation of shoots depended on the clone and plant growth regulator, and the best results were obtained with nutrient medium free of GA₃ and BAP. Histological analysis showed that both in vitro and ex vitro rooting were successful, resulting in normal development of adventitious roots showing a vascular connection with the vascular cambium. The new protocol is efficient for micro-plantlet production of E. benthamii and can be used for the formation of a clonal micro-garden for other Eucalyptus or tree species.     

Leucojum aestivum plants propagated in in vitro bioreactor culture and on solid media containing cytokinins

Cytokinins are growth regulators that stimulate cell division and control morphogenesis in plants, however their role in regulating secondary metabolism is not well studied. The influence of various cytokinins (benzyladenine, zeatin, kinetin, meta‐topolin, thidiazuron) and culture systems (solid and temporary immersion RITA® system) on the quality Leucojum aestivum plant regenerated from somatic embryos was investigated. The largest number of regenerated plants (181.6 and 168.8) was obtained from the embryos cultivated on media enriched with meta‐topolin and benzyladenine. Thidiazuron and meta‐topolin led to the highest number of normally developed plants (94.8 and 90.6). The random amplified polymorphic DNA analysis of in vitro and in vivo plants showed four clusters of similarity. The highest biomass (growth index: 2.49) was obtained with the temporary immersion RITA® system. Alkaloid extracts were analyzed by LC‐MS, leading to the quantification of galanthamine and lycorine both in plant materials and in liquid media. The highest contents of galanthamine (0.05% dry weight) were observed in plants cultivated in the presence of thidiazuron in bioreactor system. Galanthamine was accumulated (highest content 0.05% dry weight) in plants cultivated in the presence of thidiazuron in bioreactor system whereas lycorine was synthetized mainly in plants cultivated on solid media.     

Gibberellic acid mediated induction of salt tolerance in wheat plants: Growth,ionic partitioning,photosynthesis, yield and hormonal homeostasis

In order to elucidate the GA₃-priming-induced physiochemical changes responsible for induction of salt tolerance in wheat, the primed and non-primed seeds of two spring wheat (Triticum aestivum L.) cultivars, namely, MH-97 (salt intolerant) and Inqlab-91 (salt tolerant) were sown in a field treated with 15 dS m⁻¹ NaCl salinity. Although all the three concentrations (100, 150 and 200 mg L⁻¹) of GA₃ were effective in improving grain yield in both cultivars, the effect of 150 mg L⁻¹ GA₃ was much pronounced particularly in the salt intolerant cultivar when under salt stress. Seed priming with GA₃ altered the pattern of accumulation of different ions between shoots and roots in the adult plants of wheat under saline conditions. Treatment with GA₃ (150 mg L⁻¹) decreased Na⁺ concentrations both in the shoots and roots and increased Ca²⁺ and K⁺ concentrations in the roots of both wheat cultivars. GA₃-priming did not show consistent effect on gaseous exchange characteristics and the concentrations of auxins in the salt stressed plants of both wheat cultivars. However, all concentrations of GA₃ reduced leaf free ABA levels in the salt intolerant, while reverse was true in the salt tolerant cultivar under saline conditions. Priming with GA₃ (150 mg L⁻¹) was very effective in enhancing salicylic acid (SA) concentration in both wheat cultivars when under salt stress. Treatment with GA₃ (100–150 mg L⁻¹) lowered leaf free putrescine (Put) and spermidine (Spd) concentrations in the plants of both wheat cultivars. The decrease in polyamines (Put and Spd) and ABA concentrations in the salt stressed plants of the salt intolerant cultivar treated with GA₃ suggested that these plants might have faced less stress compared with control. Thus, physiologically, GA₃-priming-induced increase in grain yield was attributed to the GA₃-priming-induced modulation of ions uptake and partitioning (within shoots and roots) and hormones homeostasis under saline conditions.     

An efficient protocol for <Emphasis Type="Italic">in vitro</Emphasis> regeneration and conservation of Shirui lily (<Emphasis Type="Italic">Lilium mackliniae</Emphasis> Sealy): a lab-to-land approach to save the rare endangered Asiatic lily species

An efficient protocol for direct and indirect shoot regeneration and proliferation from bulb scales of Shirui lily (Lilium mackliniae Sealy), an endangered Asiatic lily species endemic to the Shirui hill peak, Manipur, India, has been developed. Bulb scales were isolated from mature bulbs and cultured on Murashige and Skoog (MS) basal medium supplemented with different concentrations of 6-benzylaminopurine (BAP), kinetin (KIN), or thidiazuron (TDZ). For direct shoot regeneration from bulb scale explants, 0.5 mg L^?1 BAP yielded the highest shoot induction (3.5 shoots per scale; a 96.7% response). For indirect de novo organogenesis, optimum callus induction was achieved with 2.0 mg L^?1 2,4-dichlorophenoxyacetic acid (2,4-D), and shoot organogenesis was higher (16.2) when subcultured onto 0.5 mg L^?1 BAP medium. Multiple shoot regeneration and pseudo-bulb formation protocols were assessed; the highest shoot proliferation (10.1) occurred with 0.5 mg L^?1 BAP and 1.0 mg L^?1 gibberellic acid (GA₃). Rooting response was 96% with 0.5 mg L^?1 1-naphthalene acetic acid (NAA), with multiple roots per shootlet. Plantlet survival was increased to 92.5% during the hardening-off process by using hydroponics with Hoagland’s solution in a mist chamber. Clonal fidelity was assessed through random amplified polymorphic DNA (RAPD) analysis comparing the mother plant and regenerated plantlets. After confirming genetic uniformity, the pseudo-bulblets with four to six leaves and three to four roots were successfully established at the Shirui hills peak. This in vitro regeneration and ex vitro conservation approach could be helpful to save this rare endangered species in a sustainable way.     

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.