Minituber production from immature seed suspension culture ofOrchis papilionacea

Summary Ripe and immature seeds ofOrchis papilionacea (method I and II, respectively) cultured on modified double strength Curtis medium were assayed for minituber production. Ripe seed germination both on solid and in liquid medium was low and the protocorms obtained developed into white calluses. Germination increased from, 9 to 33% when immature seed suspension culture was used. Protocorms obtained in suspension culture under light developed into minitubers, whereas those obtained on solid media developed into callus. A 30 s ultrasonication of immature seeds 1 wk after suspension, culture initiation further enhanced germination and minituber production. Minitubers had to be transferred and embedded in solid regeneration medium for normal growth.     

Influence of IAA,TDZ, and light quality on asymbiotic germination,protocorm formation,and plantlet development of <Emphasis Type="Italic">Cyrtopodium glutiniferum</Emphasis> Raddi., a medicinal orchid

We investigated the influence of light quality on in vitro germination and protocorm formation, and the effect of indole-3-acetic acid (IAA) and thidiazuron (TDZ) on proliferation of protocorm-like bodies (PLBs) and development of plantlets of Cyrtopodium glutiniferum Raddi. Germination was faster under white and blue light, and highest under green light. The protocorm developed more rapidly under white, blue, and green light. Continuous darkness delayed seed germination and reduced protocorm formation. Among the plant growth regulators (PGRs) tested for multiplying PLBs, shoots, and roots from protocorms, IAA proved to be superior. TDZ was effective in inducing PLB fresh weight accumulation, but not morphogenesis, unlike IAA. This study indicated that C. glutiniferum seedlings can be produced in vitro using asymbiotic seed germination techniques. High germination rate and protocorm yield can be obtained by initially cultivating C. glutiniferum seeds on medium without growth regulators under white light, or under white light supplemented with green or blue light. This culture system complies with commercial and conservation requirements for rapid and low-cost propagation.     

In-vitro seed germination ofCalanthe sieboldii, an endangered orchid species

Immature seeds from unripe capsules ofCalanthe sieboldii, were sown on one of three sterilized media: MS; modified MSH [i.e., the inorganic salts of MS plus the organic elements of Schenk and Hildebrandt]; Hyponex. Germination and protocorm development occurred on the MS and MSH media within eight weeks, but percent germination was low. The addition of putrescine (1 mg L^-1) or adenine sulfate (25 mg L^-1) to the MSH medium enhanced germination. Resultant protocorms were subcultured on the Hyponex medium, where they developed into plantlets after 12 weeks of additional culture. Plantlets were then successfully transferred to community pots.     

In vitro conservation and asymbiotic propagation of Coelogyne flaccida (Lindl.): A threatened orchid

Asymbiotic seed germination of Coelogyne flaccida varied with the capsule stage and the culture medium used for germinating seeds. The capsules were harvested at two different stages of development. The seeds were cultured on three asymbiotic orchid seed germination defined and undefined media, i.e. Mitra (M) medium, Murashige and Skoog (MS) medium and potato dextrose agar (PDA) medium. The seeds obtained from undehisced green capsules germinated with a maximum germination percentage (84.50 ± 0.33%) on M medium followed by MS and PDA medium. The effect of cytokinins, such as 6-benzylaminopurine and furfurylaminopurine and the synthetic auxin α-naphthalene acetic acid, on seed germination was also assessed. Simultaneously, in vitro multiplication using protocorms as explants was also studied. The effect of organic growth supplements, such as banana homogenate (BH, 25, 50, 75 g l^? 1) and peptone (P, 1.0, 1.5, 2.0 g l^? 1), was tested on the de novo formation of protocorm-like bodies (PLBs), development of the maximum number of shoots and early formation of plantlets using the M medium. Among the treatments, the highest regeneration frequency (87.50 ± 0.20%) and the highest number of PLBs per explant (10.25 ± 0.50) were obtained in P (1.5 g l^? 1)-supplemented cultures, and the plantlets were formed within 18 weeks of culture. BH favoured the development of healthy plantlets, with a maximum fresh weight of 1.02 ± 0.04 g per plantlet.     

A novel dual-phase culture medium promotes germination and seedling establishment from immature embryos in South African <Emphasis Type="Italic">Disa</Emphasis> (Orchidaceae) species

In vitro germination as a conservation aid demands propagation systems that yield increasingly larger numbers of plants as rapidly as possible. However, summer-rainfall Disa species are germinated infrequently under asymbiotic conditions. Attempts to bypass impermeable testae in these species resulted in the formulation of a dual-phase protocol—with the specific aim of increasing water availability to the embryo. Dual-phase cultures were initiated using seed from green capsules and comprised a solid, charcoal-rich medium overlaid with a reduced strength, liquid medium fraction of the same type. The former served to negate the influence of leached phenols and allowed protocorms to establish polarity, whilst the latter increased water availability. The dual-phase protocol germinated nine Disa species (including D. cooperi, D. nervosa, D. pulchra and D. woodi); representing five first time reports (D. brevicornis, D. crassicornis, D. patula, D. stachyoides and D. versicolor). Furthermore, germination was comparatively rapid and percentages for most species approached their estimated germination potential (∼viability). Congruency here suggests that dual-phase conditions are amenable to germinating a number of seeds that reflects the maximum number of viable embryos—critical for conservation efforts.     

鹤顶兰种子萌发及原球茎增殖培养研究

以鹤顶兰成熟蒴果的种子为实验材料,研究影响种子非共生萌发的因素和种胚发育途径,并采用正交设计研究了原球茎增殖的影响因素。结果表明:冷藏影响种子的活力且其萌发率随冷藏时间延长而降低;0.5%NaClO溶液浸泡种子可提高萌发率,缩短初始萌发时间;种胚发育途径为种胚转绿后从种子侧面突破种皮而形成原球茎,随后分化出具根芽结构的完整植株;6-BA对原球茎增殖作用显著,原球茎增殖的最适培养基为1/2MS+3.0mg/L6-BA+1.0mg/L KT+1.0mg/L NAA,增殖倍数为6.67。     

Formation of endomycorrhizas by an achlorophyllous orchid,Erythrorchis ochobiensis, andAuricularia polytricha

To test the mycorrhizal function of heterobasidiomycetous fungi on achlorophyllous orchids and to examine the symbiotic fungal range of a myco-heterotrophic orchid,Erythrorchis ochobiensis, synthetic cultures of the orchid seed were carried out withAuricularia polytricha isolates from Japan and Mexico. After three and a half mo of incubation, 57.0–70.7% of seeds germinated but none of them showed further growth. When cultured on peat moss at 25°C, the germination rate was 8.7% in the presence of Mexican isolate and 18.0% in the presence of Japanese isolate. Some germinated seeds developed into protocorms, and several seeds incubated with the Mexican isolate developed into plantlets after 5 mo. Pelotons were observed in the cells of protocorms and roots. The results indicated that some heterobasidiomycetous fungi could form endomycorrhizas with a myco-heterotrophic orchid. The results also showed that the symbiont ofE. ochobiensis extends, at least experimentally, to Heterobasidiomycetes. The variances of germination rate and seedling growth were suggested to be affected by the difference of isolates and culture conditions.     

Host-specificity of symbiotic mycorrhizal fungi for enhancing seed germination,protocorm formation and seedling development of over-collected medicinal orchid, <Emphasis Type="Italic">Dendrobium devonianum</Emphasis>

All orchids maintain an obligate relationship with mycorrhizal symbionts during seed germination. In most cases, germination-enhancing fungi have been isolated from roots of mature plants for conservation and cultivation purposes. To understand the germination biology of Dendrobium devonianum, an over-collected medicinal orchid, the seeds of D. devonianum were inoculated with a fungal strain (FDd1) isolated from naturally occurring protocorms of D. devonianum and two other germination-enhancing fungal strains (FDaI7 and FCb4) from D. aphyllum and Cymbidium mannii, respectively. The fungal strain was isolated from five protocorms of D. devonianum and identified as a species of the genus Epulorhiza. In germination trials, treatments with all of the three fungal strains showed a significant promoting effect on seed germination and protocorm formation, compared with the control treatment (no inoculation). However, FDd1 fungal strain showed the greatest effectiveness followed by FDaI7 and FCb4. For all inoculation and control treatments, seeds developed to protocorms regardless of the presence of illumination, whereas protocorms did not develop to seedlings unless illumination was provided. The results of our manipulative experiments confirmed the hypothesis that mycorrhizae associated with orchid seedlings are highly host-specific, and the degree of specificity may be life stagespecific under in vitro conditions. The specific mycorrhizal symbionts from protocorms can enhance restoration efforts and the conservation of orchids such as D. devonianum.     

带叶兜兰种子原地共生萌发及有效菌根真菌的分离与鉴定

为获得带叶兜兰(Paphiopedilum hirsutissimum)种子萌发的共生真菌,采用原地共生萌发技术获得了2株自然萌发的小幼苗,并分离和筛选出了有效的种子萌发共生菌——瘤菌根菌(Epulorhiza sp.)。为验证分离菌株对带叶兜兰种子萌发的有效性,将Phs34号菌株与带叶兜兰种子在灭菌后的原生境基质上进行室内共生萌发试验,结果表明,经过6周的培养,对照组没有观察到种子的萌发;接菌的种子胚明显膨大,突破种皮,形成原球茎,平均萌发率为(58.35±3.41)%。这表明分离得到的瘤菌根菌能促进带叶兜兰的种子萌发。     

天麻种子萌发过程中与其共生真菌石斛小菇间的相互作用*

天麻Gastrodiaelata种子与石斛小菇Mycenadendrobii的共生萌发试验表明,石斛小菇可与天麻共生,促进天麻种子发芽并形成原球茎。菌丝主要分布于原球茎的柄状细胞、外皮层细胞和内皮层细胞,在外皮层细胞中形成菌丝结,内皮层细胞中的菌丝则被消化。原球茎细胞中的菌丝均被电子透明物质和原球茎细胞质膜包围而与原球茎细胞质相隔离,菌丝进一步液泡化并最终被水解。含有衰败菌丝的原球茎细胞常被菌丝重新定殖。这一菌丝被消化及菌丝的重新定殖过程在整个原球茎发育过程中可不断重复发生。     

In vitro germination ofErythrorchis ochobiensis (Orchidaceae) in the presence ofLyophyllum shimeji, an ectomycorrhizal fungus

In vitro germination of a myco-heterotrophic orchid,Erythrorchis ochobiensis, was tested in the presence of ectomycorrhizal fungi,Lyophyllum shimeji andTricholoma fulvocastaneum. Lyophyllum shimeji stimulated the germination after incubation for 1.5 mo. Although most germinated seeds did not grow further after 3 mo, several seeds developed into small protocorms but showed amorphous profiles. Fungal mycelia were observed in the germinated seeds and protocorms, but pelotons were not detected. Since the seeds did not germinate axenically, it may be suggested that the fungus has the ability to stimulate germination.     

Asymbiotic germination of immature seeds,plantlet development and <Emphasis Type="Italic">ex vitro</Emphasis> establishment of plants of <Emphasis Type="Italic">Dendrobium tosaense</Emphasis> makino—A medicinally improrant orchid

Summary Shi-hu (Dendrobium spp. or Dendrobii Herba) is one of the important traditional Chinese medicines. The commercially available crude drug in the traditional medicine market is composed mainly of three species: Dendrobium tosaense, D. nobile, and D. moniliforme. An efficient method of propagation has been developed via asymbiotic germination of seeds in vitro for the medicinally important D. tosaense. Seeds from capsules of D. tosaense collected 8–14 wk after artificial pollination germinated after being cultured on full-strength or half-strength Murashige and Skoog (MS) medium devoid of plant growth regulators and with 3% sucrose. Germination of seeds varied with the medium type and seed maturity. Germinated seedlings after transfer to MS medium with 1.5% sucrose and 8% banana homogenate or potato juice or coconut water and 20 wk of incubation developed into healthy plantlets. Well-developed plantlets were transplanted to moss or moss and tree fern or tree fern as substrates in plastic trays and transferred to a greenhouse for hardening. All plants survived, attained maturity, and developed normal flower and capsule after one and a half years. This protocol of successful plant regeneration by asymbiotic seed germination should permit rapid propagation and conservation of this medicinally important Dendrobium species.     

印度梨形孢对铁皮石斛种子萌发和原球茎生长的影响

为探究印度梨形孢(Piriformospora indica)对铁皮石斛(Dendrobium officinale)种子萌发和原球茎生长的影响,在铁皮石斛种子离体培养和原球茎生长阶段分别接种印度梨形孢,对其形态发育特征和生理特性进行研究。结果表明,接种印度梨形孢的铁皮石斛种子的起始萌发时间提前,接种印度梨形孢的铁皮石斛原球茎的株高、鲜质量、干质量、叶片数、叶长、叶宽、根数、根长等都高于对照。在接种60 d的种子萌发率为68.8%,高于对照(28.6%);在接种80 d的铁皮石斛原球茎的叶绿素a、叶绿素b、总叶绿素含量显著高于对照,叶绿素a/b小于对照,净光合速率、气孔导度、蒸腾速率均高于对照,药用多糖含量显著高于对照。因此,接种印度梨形孢能促进铁皮石斛种子萌发和原球茎的生长,提高铁皮石斛的品质和产量。     

Asymbiotic and symbiotic seed germination of Eulophia alta (Orchidaceae)—preliminary evidence for the symbiotic culture advantage

Eulophia alta (Linnaeus) Fawcett & Rendle seeds collected from the Florida Panther National Wildlife Refuge (Collier County, FL; FPNWR) were used in a screen of five asymbiotic orchid seed germination media to determine their effectiveness in promoting germination and protocorm development. In addition, 10 fungal isolates collected from the roots of E. alta at sites in the FPNWR, Highlands County (FL), and Goethe State Forest (Levy County, FL; GSF), and a fungal isolate from the roots of Spiranthes brevilabris collected from GSF were screened for their effectiveness at promoting in vitro symbiotic germination of E. alta seeds. After 18 weeks asymbiotic culture, seeds sown on PhytoTechnology Orchid Seed Sowing Medium germinated to a higher percentage (87.9%) and had a higher percentage of protocorms with developing protomeristems (32.7%) than seeds cultured on Knudson C, Malmgren Modified Terrestrial Orchid Medium, ?-strength Murashige & Skoog, or Vacin & Went Modified Orchid Medium. Significantly more leaf-bearing protocorms were observed on PhytoTechnology Orchid Seed Sowing Medium (0.8%) and Vacin & Went Modified Orchid Medium (1.3%) than other media tested. Of the fungi tested, one fungal isolate (Ealt-396) promoted germination to 69.0%, two isolates promoted germination to less than 0.75% and did not support further protocorm development, and eight isolates did not support germination. Seeds co-cultured in darkness with Ealt-396 grew more rapidly than asymbiotic seedlings following germination. In addition, co-cultured (=symbiotic) seedlings continued to develop more rapidly than asymbiotic seedlings upon transfer to 16/8 h light/dark photoperiod. Symbiotic seed culture of E. alta may be a more desirable method of propagation since protocorms develop more rapidly than seeds sown on asymbiotic media. Symbiotic seedlings may be more appropriate for reintroduction to natural areas than asymbiotic seedlings since symbiotic seedlings could serve to inoculate soils with a germination promoting mycobiont.     

Cryopreservation of immature seeds of Bletilla striata by vitrification

An efficient protocol was established for the cryopreservation of immature seeds of a terrestrial orchid, Bletilla striata. Immature seeds collected 2–4 months after pollination (MAP) were treated using three different cryogenic procedures: (1) direct plunging into liquid nitrogen, (2) vitrification, and (3) vitrification with preculture. When immature seeds collected 3 MAP and 4 MAP were precultured for 3 days on New Dogashima medium supplemented with 0.3 M sucrose and cryopreserved by vitrification, the survival rate after preservation, as assessed by staining with 2,3,5-triphenyltetrazolium chloride, was 92% and 81%, respectively. Immature seeds thus treated showed no decrease in germination rate relative to untreated immature seeds, and they developed into normal plantlets in vitro.     

硬叶兰种子的迁地共生萌发及有效共生真菌的分离和鉴定

兰科植物的种子原地和迁地共生萌发技术是近年发展起来的开展兰科植物种子和共生真菌研究的有效方法。该研究对兰属(Cymbidium)附生植物硬叶兰(C. mannii)开展了种子的迁地共生萌发研究, 试图获得其种子萌发的有效真菌。利用硬叶兰成年植株根部周围的树皮、苔藓、枯枝落叶、腐殖质等作为培养基质, 进行种子的共生培养。在培养133天后, 成功地获得了处于不同阶段的已萌发种子、原球茎和幼苗, 并从原球茎中分离得到一种瘤菌根菌属(Epulorhiza)真菌。用所分离到的FCb4菌株和一种从兜唇石斛(Dendrobium aphyllum)分离到的胶膜菌属(Tulasnella) FDaI7菌株和硬叶兰种子在燕麦琼脂培养基上进行共生萌发, 设置不接菌作为对照处理, 以检验FCb4菌株对硬叶兰种子萌发的有效性。经过58天的培养, 不接菌的对照处理中种子没有萌发, 接种FCb4和FDaI7菌株的处理都有很高的种子萌发率, 两种接菌处理在不同光照条件下的种子萌发率均无显著性差异。但暗培养条件下, 种子萌发形成原球茎后, 表现出生长停滞的趋势, 仅有很少的原球茎继续生长达到幼苗阶段, 说明原球茎发育后期与幼苗发育阶段需要光照。在光照条件下, 接种FCb4菌株处理中达到幼苗阶段种子的比例为(25.67 ± 9.27)%, 显著高于接种FDaI7菌株处理的(3.04 ± 2.27)% (W = 56, p = 0.026, Mann-Whitney U-test), 表明此研究中分离到的瘤菌根菌属真菌能有效地促使硬叶兰种子萌发并生长发育到幼苗阶段。     

In vitro symbiotic seed germination of South Indian endemic orchid Coelogyne nervosa

Study on the dependence of orchids on fungi for seed germination and seedling development provides a mean for understanding the role of fungi in the orchid development process. The epiphytic orchid Coelogyne nervosa endemic to south India is exploited in an unsustainable manner for its therapeutic value. So a protocol for symbiotic seed germination was established for C. nervosa. We isolated a fungus by plating mycorrhizal root discs of the terrestrial orchid Eulophia epidendreae and identified it as Epulorhiza sp., by sequencing the internal transcribed spacer (ITS) regions of the ribosomal RNA gene. Germination of C. nervosa seeds was higher when inoculated with Epulorhiza sp. Uninoculated seeds of C. nervosa ceased to develop soon after the initiation of germination, and the embryo failed to rupture the seed testa. The isolated fungal hyphae entered the germinating seeds either through the pores in-between the integuments, or through the rhizoids. After the fungal establishment (peloton formation) in embryonic cells, the embryo transformed into a protocorm and after 45 days, 66% of the germinated seeds were transformed into protocorms. Nevertheless, promeristem formation occurred only after fungal association. Sixty-three percent of the protocorms developed their first leaf by 90 days and 62% of these produced a second leaf by 120 days after fungal inoculation. All the seedlings in green leaf stage produced roots and contained fungal pelotons. Our results suggest that the Epulorhiza sp. could be successfully used in the in vitro production of C. nervosa for their reintroduction into its natural environment.     

Agrobacterium-mediated transformation of Phalaenopsis by targeting protocorms at an early stage after germination

A transformation procedure for phalaenopsis orchid established by using immature protocorms for Agrobacterium infection was aimed at the introduction of target genes into individuals with divergent genetic backgrounds. Protocorms obtained after 21 days of culture on liquid New Dogashima medium were inoculated with Agrobacterium strain EHA101(pIG121Hm) harboring both -glucuronidase (GUS) and hygromycin resistance genes. Subculture of the protocorms on acetosyringone-containing medium 2 days before Agrobacterium inoculation gave the highest transformation efficiencies (1.3–1.9%) based on the frequency of hygromycin-resistant plants produced. Surviving protocorms obtained 2 months after Agrobacterium infection on selection medium containing 20 mg l^–1 hygromycin were cut transversely into two pieces before transferring to recovery medium without hygromycin. Protocorm-like bodies (PLBs) proliferated from pieces of protocorms during a 1-month culture on recovery medium followed by transfer to selection medium. Hygromycin-resistant phalaenopsis plants that regenerated after the re-selection culture of PLBs showed histochemical blue staining due to GUS. Transgene integration of the hygromycin-resistant plants was confirmed by Southern blot analysis. A total of 88 transgenic plants, each derived from an independent protocorm, was obtained from ca. 12,500 mature seeds 6 months after infection with Agrobacterium. Due to the convenient protocol for Agrobacterium infection and rapid production of transgenic plants, the present procedure could be utilized to assess expression of transgenes under different genetic backgrounds, and for the molecular breeding of phalaenopsis.     

In vitro propagation and mass scale multiplication of a critically endangered epiphytic orchid, Gastrochilus calceolaris (Buch.-Ham ex J.E.Sm.) D.Don. using immature seeds

In vitro asymbiotic seed germination potential of its immature seeds (36 weeks after pollination) of G. calceolaris was successfully tested on three different agar gelled nutrient media i.e. Murashige and Skoog (MS), Mitra et al. (M) and potato dextrose agar (PDA). Seeds germinated within 15.75+/-0.75 to 35.75+/-0.75 days in the three different media. The protocorms developed therefrom subsequently differentiated into first leaf and root primordia, and complete seedlings were obtained within 111.25+/-1.25 to 141.25+/-1.25 days on MS and M media. The protocorms, though failed to differentiate further on basal PDA medium, despite repeated subculturings, incorporation of peptone (P; 1 gl(-1)), yeast extract (YE; 2 gl(-1)) and coconut water (CW; 20%) in the medium proved beneficial in inducing differentiation, in these germinating entities. Additional use of growth additives (P/YE/CW), in general, favoured better germination, protocorm formation and seedling development. The optimal nutritional combination during seed germination, protocorm growth and multiplication and seedling development was found to be CW (10%) enriched MS medium.     

The Effect of Seed Cryopreservation on the Development of Protocorms by the Hybrid Orchid Bratonia

The aim of this work was to study the influence of storage in liquid nitrogen on the viability of seeds of the hybrid orchid Bratonia and further development of its protocorms in vitro. Seeds were frozen in ampoules by direct immersion in liquid nitrogen and stored in the cryobank for a month. The germination rates of cryopreserved and control (nonfrozen) seeds did not differ and remained as high as 100%. The protocorms derived were cultured on the agar-solidified Murashige and Skoog nutrient medium (MS), half-strength MS and Knop media and also in Morel liquid medium. During the first 45 days of culturing, protocorms derived from cryopreserved seeds grew faster than control protocorms on the MS and half-strength MS media but, at longer culturing (496 days), the size of control protocorms was significantly larger. After 639 days of culturing, there was no difference in the amount of perished, budding, and newly formed protocorms obtained from cryopreserved and control seeds, except half-strength MS medium where the number of budding protocorms in the case of cryopreserved seeds was a little greater than in the control treatment. After seed cryopreservation, the frequency of budding and newly formed protocorms was greater on the agarized MS and in liquid Morel media. Cryopreservation had little effect on the subsequent growth of protocorms in vitro. The preferable nutrient media for culturing the protocorms have been suggested.