In vitro propagation of Dendrobium aphyllum (Orchidaceae)—seed germination to flowering

This communication describes asymbiotic seed germination, protocorm development, micropropagation and flowering in in vitro and hardened seedlings of Dendrobium aphyllum (Roxb.) C.E.C. Fischer. Effects of four culture media viz., Murashige and Skoog (MS); Phytamax (Sigma Chemical Co. USA; PM); Mitra et al. (M) and Knudson ‘C’ (KC), 6-benzylaminopurine (BAP) and 2,4-dichlorophenoxyacetic acid (2,4-D), peptone and activated charcoal were studied on seed germination and protocorm development. Maximum germination (97 %) was recorded in PM basal medium. Peptone (2.0 gl^?1) remarkably enhanced germination percentage (100 %), vigorous growth, high survival and subsequent development of protocorms, while in activated charcoal the response was not encouraging. BAP improved germination percentage, however, 2,4-D showed noticeably low seed germination. The morphogenetic response of protocorms and nodal segments of in vitro raised seedlings varied depending on type of explants and concentrations and combinations of plant growth regulators used. Stout root system was induced in 1/2PM + 0.5 mgl^?1 IAA. Approximately 10 % of the in vitro raised plants (4–5 cm) with 3–4 leaves flowered in vitro irrespective of flowering season. The well-rooted plants showed 80 % survival under green house conditions and flowering was noticed after 5–6 months in 10 % of hardened plants.     

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.     

实验室条件下五唇兰菌根真菌专一性研究

利用从高原温带兰科植物菌根中获得的22个菌根真菌菌株, 对五唇兰(Doritis pulcherrima)进行了室内种子萌发、原球茎分化和组培苗回接试验, 从交叉回接的角度对附生兰科植物与菌根真菌的生理专一性进行了探讨。经过20周的共生培养, 只有编号为Cf1和Mm1的两个菌株使种子表现出种胚明显膨大的萌发迹象; 9个菌株能够促使原球茎较好地分化发育出根叶; 11个菌株处理苗的平均鲜重增长率高于对照组(156.25%), 其中Mm1的效果达到极显著水平(p = 0.01)。通过根切片显微观察, 在原球茎分化根和回接效果良好的处理苗的根皮层组织发现典型的菌丝团结构, 表明菌根体系已成功建立。温带地生兰菌根真菌对五唇兰种子萌发、原球茎发育和幼苗生长等3个重要生长阶段影响的试验显示, 五唇兰的种子和菌根真菌的共生萌发效果不佳, 而原球茎及幼株更容易与之建立良好的共生关系。同时, 也没有发现同一个真菌菌株能够对五唇兰的种子、原球茎和幼苗均产生促进作用。研究结果表明, 五唇兰的菌根真菌专一性因生理生长阶段的不同而存在差异。     

五唇兰种子离体培养的研究

授粉90d的五唇兰种子95%具球形胚,无菌条件下播种于培养基3个月后种子最高萌发率达到 90%。ABA和高浓度的NH4NO3抑制种子的萌发。NAA和BA促进种子的萌发,最适浓度为BA0.2mg· L 1+NAA0.5mg·L 1。400mg·L 1的谷氨酰胺可促进原球茎生长。2000mg·L 1的蛋白胨促进原球茎发 育成苗。     

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 germination and seedling development of two European orchid species,Himantoglossum jankae Somlyay,Kreutz & Óvári and Spiranthes spiralis (L.) Chevall.

New protocols for successful asymbiotic seed germination of two European orchid species, Himantoglossum jankae Somlyay, Kreutz & Óvári and Spiranthes spiralis (L.) Chevall., were established in this study. The influence of two basal media, organic supplements, illumination, and cytokinins on germination, protocorm formation, and seedling development was examined. A strong species-specific dependence on illumination conditions and nutrient medium composition was observed. Improved germination under continual darkness indicated that H. jankae had negatively photoblastic seeds, while S. spiralis seeds could germinate under both light conditions examined in this study, but slightly faster development was achieved under the 16-h photoperiod protocol. The H. jankae seeds cultured on Knudson C medium failed to germinate in any medium combination, irrespective of the organic supplement use. The highest germination rate of H. jankae was achieved on Malmgren medium supplemented with coconut water, peptone, and L-glutamine, indicating that germination of this species was amino acid–dependent. Although S. spiralis seeds germinated on all medium combinations, Knudson C basal medium (without supplements) yielded better results when compared with the Malmgren medium. The best S. spiralis seedling development was achieved on the medium supplemented with 6-(γ,γ-dimethylallylamino) purine, while the cytokinin 6-benzyladenine promoted H. jankae seedling development. With the implementation of these protocols, well-developed seedlings were acclimatized to greenhouse conditions after 7 mo in culture.

     

In vitro propagation and field establishment of Eulophia cullenii (Wight) Bl., a critically endangered orchid of Western Ghats, India through culture of seeds and axenic seedling-derived rhizomes

An efficient protocol has been devised for the propagation and field establishment of Eulophia cullenii (Wight) Bl., a terrestrial orchid having ornamental potentialities, and is critically endangered in Western Ghats, India. Seeds extracted from 60–90-d-old capsules germinated in ½ MS, ¼ MS, Knudson C, or Mitra liquid medium developed into 1.4–2.5-mm-diameter protocorms in 60 d. Supplementation of organic additives like coconut water, peptone, yeast extract, and casein acid hydrolysate (CH) significantly enhanced protocorm growth. Upon subculture onto agar-gelled Mitra medium fortified with 0.05% CH, 56% of protocorms regenerated into shoots through the formation of linear mini-rhizomes. The regenerated shoots grew vigorously in ½ MS, producing new rhizomes. Mature rhizomes from axenic seedlings produced maximum (13?±?1.4) shoots/whole rhizome in ½ MS fortified with 44.4 μM 6-benzylaminopurine (BAP), in 120–150 d. Horizontal and longitudinal halves of the rhizome also gave multiple shoots (6–8.5) in the presence of 44.4 μM BAP. Shoots or shoot clumps sub-cultured onto ½ MS basal medium produced roots followed by rhizomes in 60–150 d. Seedlings with mature rhizomes showed 70% establishment in the nursery and added a new rhizome at the end of one growth cycle. An average of 70.6% of the rhizomes originating from seedlings during the second growth cycle sprouted to produce new shoots, when planted in the native localities. Asymbiotic germination and cloning through rhizomes thus can provide a large number of vigorous plants of E. cullenii for ornamental exploitation as well as eco-restoration, if rhizome as storage organ is ensured in the propagule.     

菌根真菌对白及种子萌发和幼苗生根的作用

自然条件下,兰科植物需要依赖菌根真菌获得营养才能萌发。本研究对白及根和原球茎中分离的4株菌根真菌（WQ17-33、WQ17-43、JST-3和SL15-7）进行分子鉴定,并评价光照和黑暗条件下不同菌株促白及种子萌发和幼苗生根的效果。结果表明,4个菌株分别隶属于鬼伞属Coprinus、胶膜菌属Tulasnella、腊壳菌属Sebacina和Serendipita。在种子萌发前期（未形成叶子）进行暗培养较光照对菌株JST-13和SL15-7处理组原球茎阶段萌发具有显著的促进作用。不同菌株共生萌发效果不同,菌株SL15-7较其他处理原球茎和幼苗发育阶段的萌发率高。菌株JST-13和SL15-7处理组形成的幼苗较其他处理组强壮,定殖的菌丝团也较多,其幼苗生根效果也较对照组好。该研究表明白及可与多种不同类群的菌根真菌菌株形成共生关系,这些真菌在促进白及种子萌发和生根能力方面存在差异。     

Addition of fungal inoculum increases germination of orchid seeds in restored grasslands

Grasslands restored on arable land often retain high residual nutrients, modified soil biota, and lower plant species diversity. Establishment of rare plant species with complex multitrophic interactions, typical of undisturbed nutrient-poor environments, may be hindered by the absence of interacting organisms. We hypothesised that the addition of a mycorrhizal symbiont improves the seed germination of orchids that crucially depend on fungi. We focused on grasslands restored on arable land 1–15 years ago featuring residual mineral nutrients and low organic matter contents compared to semi-natural grasslands and on four orchid species differing in the level of mycorrhizal specificity: high – Anacamptis pyramidalis and Orchis mascula – and low – Platanthera bifolia and Gymnadenia conopsea. Five fungal isolates obtained from non-green underground mycorrhizal orchid seedlings (protocorms) or adults' roots were tested for orchid-fungus compatibility under conditions in vitro. Orchid seeds inserted in retrievable seed packets were subsequently co-introduced with selected fungal isolates grown either on agar or sterilized hay into the soil of nine restored grasslands and incubated for twelve months. The identity of mycorrhizal fungi in retrieved protocorms was verified by molecular methods. The isolates that supported protocorm establishment in vitro enabled also protocorm formation in situ, but success rates differed among orchid species. While mycorrhizal specialists produced most protocorms after inoculation, the mycorrhizal generalists took advantage of naturally occurring fungi and produced some protocorms both in inoculated and uninoculated treatments. We showed that the addition of mycorrhizal fungi enhanced protocorm formation regardless of the modified soil environment, especially in mycorrhizal specialist orchids. This method may help to restore populations of native orchid species in their former distribution ranges, including farming-altered habitats.     

大花斑叶兰种子无菌萌发及快繁技术研究

对大花斑叶兰（Goodyera biflora）成熟种子无菌萌发、原球茎分化及根诱导进行了研究。结果表明：黑暗或弱光照培养有利于大花斑叶兰种子萌发,而较强的光照对形成健壮的原球茎有利;1/2MS＋NAA0.2mg/L培养基较为适合大花斑叶兰种子的萌发;MS＋KT1.0mg/L＋NAA0.5mg/L＋活性炭2.0g/L对原球茎增殖形成类原球茎有较好效果;1/2MS＋6-BA2.0mg/L＋NAA0.5mg/L＋2.0g/L活性炭对根诱导效果较为理想。     

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。     

紫花三叉白芨快繁技术研究

为建立白芨(Bletilla striata)高效实用的组织培养快繁体系,以紫花三叉白芨成熟未开裂的蒴果、块茎、叶片为外植体,筛选最佳外植体材料,并研究不同生长调节剂浓度培养基对原球茎萌发、丛生芽诱导以及生根影响。结果表明,白芨种子为最佳外植体材料;培养基 KC + NAA 0.5 mg·L^–1有利于白芨原球茎丛生芽诱导;培养基 MS + 6-BA 2.0 mg·L^–1+ NAA 0.2 mg·L^–1 + 10%椰汁有利于丛生芽增殖及成苗;将 2 cm 高幼苗转入生根培养基 1/2MS + NAA 0.5 mg?L^–1中,其生根效果最好,生根率达 98.67%。     

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.     

Asymbiotic seed germination of Cymbidium bicolor Lindl. (Orchidaceae) and the influence of mycorrhizal fungus on seedling development

An in vitro plant regeneration protocol was successfully established for Cymbidium bicolor an epiphytic orchid by culturing seeds from green pods. Immature seeds were germinated on four basal media viz., Murashige and Skoog (MS) medium, Knudson C (KC) orchid medium, Knudson C modified Morel (KCM) medium and Lindemann orchid (LO) medium. Seed germination and protocorm development was significantly higher in LO medium (96.6 %) followed by KCM (89 %), MS (77.5 %) and KC (62.7 %) media after 56 days. For multiple shoot induction the protocorms were transferred to B5 medium supplemented with cytokinin. Among the various cytokinins tested, BAP (4.42 μM) induced maximum (27.59) number of multiple shoots per explant. IBA was effective in inducing healthy roots. Tissue-cultured protocorms and seedlings of C. bicolor were inoculated with AC-01 fungal strain (Moniliopsis sp.) isolated from the mycorrizal roots of an epiphytic orchid Aerides crispum. Mycorrhizal fungi significantly enhanced number of roots, root length and shoot number.     

卡德丽亚兰种子非共生萌发及萌发过程中原球茎发育的细胞学研究

对卡德丽亚兰种子非共生萌发条件及萌发过程中原球茎发育进行了研究。结果表明,低离子浓度培养基(KC、RE)利于卡德丽亚兰种子萌发;适宜种类和浓度的激素(1.0mg/LBA和0.1mg/LNAA或1.0mg/LKT和0.1mg/LNAA)对种子萌发有良好的促进作用。细胞学研究表明:卡德丽亚兰种子萌发过程的本质是未分化胚细胞团通过细胞的不断分裂形成原球茎,原球茎出现极性,随之分化形成芽端分生区,最终形成实生苗。     

Proteome changes in Oncidium sphacelatum (Orchidaceae) at different trophic stages of symbiotic germination

Mutualistic symbioses between plants and fungi are a widespread phenomenon in nature. Particularly in orchids, association with symbiotic fungi is required for seed germination and seedling development. During the initial stages of symbiotic germination, before the onset of photosynthesis, orchid protocorms are fully mycoheterotrophic. The molecular mechanisms involved in orchid symbiotic germination and development are largely unknown, but it is likely that changes in plant energy metabolism and defense-related responses play a central role in these processes. We have used 2D-LC-MS/MS coupled to isobaric tagging for relative and absolute quantification to identify proteins with differential accumulation in Oncidium sphacelatum at different stages of mycorrhizal protocorm development (achlorophyllous and green protocorms) after seed inoculation with a Ceratobasidium sp. isolate. We identified and quantified 88 proteins, including proteins putatively involved in energy metabolism, cell rescue and defense, molecular signaling, and secondary metabolism. Quantitative analysis showed that the expected changes in carbon metabolism in green protocorms were accompanied by enhanced accumulation of proteins involved in the modulation of reactive oxygen species homeostasis, defense-related responses, and phytoalexins and carotenoid biosynthesis. Our results suggest profound metabolic changes in orchid protocorms during the switch from the fully mycoheterotrophic to the photosynthetic stage. Part of these changes may be also related to the obligatory nature of the interaction with the endomycorrhizal fungus.     

多花兰种子无菌萌发及离体快繁研究

以多花兰种子为材料,研究了无机盐浓度、植物生长调节剂和光照条件对多花兰种子非共生萌发的影响,在此基础上,通过研究原球茎增殖和分化、芽苗壮苗和生根的培养基配方及培养条件,建立多花兰组培快繁技术体系.结果表明:多花兰种子萌发培养基为1/6 MS十NAA0.5 mg·L-1+6-BA 2.0 mg· L-1+马铃薯泥50g·L-1+AC 1.0g·L-1,光照度为1.25μmol·m-2·s-1,萌发率63.6％;原球茎增殖继代培养基为1/4 MS+6-BA2.0 mg·L-1+NAA 0.5 mg· L1+AC 1 g·L-1+PE 200 g·L-1,繁殖倍数6.5倍/60 d,芽分化率60.2％;再生芽分化培养基为1/4 MS十6-BA2.0mg·L-1+NAA 0.2 mg· L-1+AC 1 g·L-1+PE 200g· L-1,繁殖倍数4.0倍/60 d,芽分化率85.0％;芽苗壮苗和生根培养基为1/6 MS+6-BA 3.0 mg·L-1+NAA 1.0 mg·L-1+AC 1 g·L-1+蔗糖20g·L-1 +PE 200 g·L-1和1/4 MS+6-BA 2.0 mg·L-1+NAA1.2 mg·L-1+AC1 g·L-1十蔗糖20g·L-1+PE200g· L-1,生根率达100％,生根苗移栽成活率90％.此技术可用于多花兰种苗繁育和种质资源保护.     

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.     

墨兰原球茎生长的研究

以墨兰种子胚经培养诱导萌发形成的原球茎为材料,研究其生长的最适条件。结果表明：最佳基本培养基是ＭＳ培养基;ＮＡＡ０．５ｍｇＬ＋ＢＡ１．０ｍｇＬ－１有利于生长和分化;在培养基中加入１％蔗糖和０．１％活性炭最有利于原球茎生长;ｐＨ５．０偏酸环境适合于生长;每天给予１５．５ｕｍｏｌｍ－２Ｓ－１１６ｈ的光照最佳。如将上述单因子组合在一起,其原球茎鲜重增长率比对照（ＭＳ培养基）高４６％。在不同切割方式中,掰开法鲜重增长率比纵切法或横切法都高。     

Asymbiotic seed germination and in vitro seedling development of Habenaria macroceratitis (Orchidaceae), a rare Florida terrestrial orchid

Continuing loss of native orchid habitat has lead to an increased emphasis on orchid conservation. Major obstacles in the production of native orchid seedlings for use in conservation have been: (1) development of efficient and reliable seed germination protocols and (2) an understanding of early seedling growth and development. Effects of six asymbiotic media (Modified Lucke, Murashige & Skoog, Lindemann, Vacin & Went, Malmgren Modified, Knudson C), four exogenous cytokinins (BA, Zea, Kin, 2-iP), and three photoperiods (0/24, 16/8, 24/0 h L/D) were examined on seed germination and early protocorm development of Habenaria macroceratitis, a rare native Florida terrestrial orchid. Finally, the effects of three photoperiods (8/16, 12/12, 16/8 h L/D) on in vitro seedling development were examined. Percent seed germination was highest on both LM and KC after seven weeks culture (LM = 89.1%, KC = 89.2%); however, protocorm development was enhanced on MM after both seven and 16 weeks. Both zeatin and kinetin at 1 μM enhanced seed germination (Zea = 58.1%, Kin = 47.2%). Final percent seed germination (91.7%) and protocorm development (Stage 4) was increased in the absence of light (0/24 h L/D). In␣vitro seedlings cultured under 8/16 h L/D conditions produced the highest number of tubers per seedling (1.06) with the greatest tuber (42.7 μg) and shoot (fwt = 69.5 μg) biomass and tuber diameter (3.1 mm).