Germination responses of four native terrestrial orchids from south-west Western Australia to temperature and light treatments

We report an investigation into the impact of temperature and illumination on in vitro symbiotic and asymbiotic germination of the threatened taxon Caladenia huegelii, and three other orchid spp. namely—Caladenia latifolia, Microtis media and Pterostylis sanguinea, all species from south-west Western Australia, a recognized biodiversity hotspot. High symbiotic germination on oatmeal agar (OMA + fungal symbionts specific to each species) was recorded in three species in continuous dark incubation i.e. C. huegelii seeds (98 % germination at 25 °C), and M. media and P. sanguinea (93 and 98 % respectively at 20 °C). Highest symbiotic germination for C. latifolia (100 %) was observed at 15 and 20 °C under light treatment (12/12 h light/dark). Low temperature incubation (10 °C) significantly suppressed symbiotic germination/development of seedlings across all species. Asymbiotic media treatments assessed (OMA minus fungal symbionts, Pa₅ and ½ MS), failed to stimulate any germination with C. latifolia seeds at 20 °C in either light or dark treatments after an 8 week incubation period. Seeds of M. media sown onto ½ MS medium resulted in higher germination in all developmental stages (3–5) in dark treatment than OMA and Pa₅. Seeds of P. sanguinea sown onto ½ MS medium resulted in higher overall germination in all developmental stages (3–5) in light and dark incubation compared to OMA and Pa₅. OMA supported the highest asymbiotic germination (100 %) in both light and dark incubation with M. media (only to stage 3) but did not support germination and development with other spp. tested. Caladenia huegelii seeds reached developmental Stage 3 (i.e. germinated), but only on Pa₅ medium and only at a relatively low rate in either light (2.6 %) or dark (2.1 %). Germination was higher and development of seedlings faster overall in all test species in symbiotic compared with asymbiotic media treatments. P. sanguinea seeds demonstrated the best response (among species tested) to asymbiotic germination on ½ MS with 40–53 % of germinated seeds spread over developmental stages 3–5 in light or dark incubation (at 20 °C) respectively. Illumination had no effect on fungal symbiont growth across all species, however incubation temperature treatments (10, 15, 20 and 25 °C) affected fungal growth rate. Growth of the fungal symbionts of C. huegelii, M. media and C. latifolia demonstrated significantly lower activity at 10 °C, but the cumulative radial growth rate of the P. sanguinea fungal symbiont reached 64 cm² after only 2 weeks at all temperatures tested, including 10 °C. The study highlights differences in symbiotic and aysmbiotic germination and early protocorm development in vitro between co-occurring herbaceous terrestrial Australian orchid taxa in response to variations in basal media, temperature and light.     

Cryopreservation of in vitro‐propagated protocorms of Caladenia for terrestrial orchid conservation in Western Australia

Cryopreservation is an important tool for the ex situ preservation of endangered plants. In this article, we describe the development of a cryopreservation protocol for orchid protocorms using the terrestrial Australian species Caladenia latifolia. Protocorms of C. latifolia generated asymbiotically each month on Murashige and Skoog (MS) medium containing 10 μM N6‐benzyladenine (BAP) provided explant sources for cryopreservation. Three size classes of protocorms were used as source explant material [small (S, ≤ 1 mm); medium (M, > 1 < 4 mm); large (L, ≥ 4 mm)] in combination with five desiccation treatments, i.e. 0, 0.4, 0.6, 0.8 and 1.0 M glycerol. After 2 days on desiccation medium, protocorms were treated with two cryoprotectant solutions (PVS2 and PVS4 at 0 °C for 15, 20, 25 and 30 min) before immersion in liquid nitrogen for 1 day. Protocorms were then removed from liquid nitrogen storage, warmed rapidly (in a 40 °C waterbath) and placed on three recovery media: half‐strength MS with 0.5 μM BAP, 0.5 μM 6‐furfurylaminopurine (kinetin) or 0.5 μM 1‐phenyl‐3‐(1,2,3‐thiadiazol‐5‐yl)‐urea (TDZ). Protocorms on recovery media were incubated at 25 °C under dark conditions and potential protocorm survival was observed at 60 and 90 days using a fluorescein diacetate (FDA) test for protocorm viability. Protocorm survival was correlated significantly with explant size. Large cryopreserved protocorms had the highest potential survival rate (> 90%) relative to small (< 10%) and medium (70–80%) protocorms. Different desiccation media treatments did not affect significantly the survival percentage (74–92%). Similarly, changing the cryoprotectant solution and time of incubation at 0 °C did not affect significantly potential protocorm survival (76–96%). Potential protocorm survival on various recovery media was not significantly different among treatments (88–100% survival). The study indicates that the cryopreservation of terrestrial orchid protocorms is technically feasible and provides a new and potentially highly beneficial tool in terrestrial orchid conservation where seed may be limited (because of species rarity), or as a means of storing and later utilizing the large surpluses of protocorms generated in propagation programmes. © 2012 The Linnean Society of London, Botanical Journal of the Linnean Society, 2012, ?? , ??–??.     

In vitro culture of Chloraea gavilu Lindl., an endemic terrestrial orchid from Chile

Orchids are the second most diverse plant family, recognized for their importance as ornamental species; this has driven research development in propagation. One of the most common culture methodologies is in vitro asymbiotic germination, in which the nutritional conditions that provide orchids with a fungal partner are emulated. Although Chile possesses more than 60 terrestrial orchid species, in vitro cultivation protocols have only been developed for Chloraea crispa. In Southern Chile, Chloraea gavilu stands out due to its floral characteristics. We evaluate different explants and cultivation conditions for C. gavilu. The best germination and development results were achieved in the MM medium +0.1% yeast extract +1% sucrose +0.454 µmol l^?1 TDZ, using immature seeds of 24–30 days after pollination, which we cultivated into seedlings in order to be acclimatized and mycorrhized. In addition, induction of protocorm-like bodies was achieved from germinated seeds, using the same culture media as in the germination and development of immature C. gavilu seeds. This resulted in the successful asymbiotic germination of immature seeds, along with the micropropagation of a terrestrial, temperate orchid. We hope to use our protocol in the commercial production of Chilean orchid species as well as to propagate threatened species.     

Asymbiotic seed germination,in vitro seedling development,and greenhouse acclimatization of the threatened terrestrial orchid <Emphasis Type="Italic">Bletia purpurea</Emphasis>

Procedures for asymbiotic seed germination and seedling acclimatization were developed for Bletia purpurea, a threatened North America native terrestrial orchid. Six asymbiotic orchid seed germination media (Knudson C, PhytoTechnology Orchid Seed Sowing Medium, Malmgren Modified Terrestrial Orchid Medium, Vacin &; Went Modified Orchid Medium, ½-strengh Murashige &; Skoog, and BM-1 Terrestrial Orchid Medium) were examined for their effectiveness in promoting seed germination and protocorm development of B. purpurea in either a 0/24 h or 16/8 h L/D photoperiod. Germination occurred regardless of medium or photoperiod treatment. However, advanced seedling development (Stage 6) only occurred on Vacin &; Went Modified Orchid Medium in the 16/8 h L/D photoperiod. Further effects of photoperiod on in vitro seedling development were also examined. Shoot length, leaf width, root number and length, and fresh weight and dry weight in the 16/8 h L/D photoperiod were all significantly different when compared to the 8/16 h and 12/12 L/D photoperiods. In vitro seedlings were readily acclimatized to greenhouse conditions. Seedlings showed high survival all potting media. Seedlings acclimatized in Fafard Mix 4 potting medium developed significantly longer roots. Corm formation occurred regardless of potting media used.     

Comparative longevity of Australian orchid (Orchidaceae) seeds under experimental and low temperature storage conditions

Seeds from ten terrestrial orchid species, nine from the south‐west Australian biodiversity hotspot (Caladenia arenicola, Caladenia flava, Caladenia huegelii, Diuris laxiflora, Microtis media ssp. media, Pterostylis recurva, Pterostylis sanguinea, Thelymitra crinita and Thelymitra macrophylla) and one from south‐east Australia (Diuris fragrantissima), were placed into experimental storage to assess their relative longevity and likely optimal conditions for long‐term conservation seed banking. Seeds from all species were desiccation tolerant, germinating after drying at 23% relative humidity (C. arenicola, C. huegelii, P. sanguinea and T. macrophylla) or 5% relative humidity (C. flava, D. laxiflora, M. media ssp. media, P. recurva and T. crinita) at 23 °C. From automatedly determined moisture adsorption and desorption isotherms at 23 °C, these equate to tolerance of drying to 0.03–0.06 g water g^?1 dry weight or 0.013–0.028 g water g^?1 dry weight, respectively. Results of storage experiments at a range of moisture contents and temperatures suggest conventional seed bank storage at ?18 °C after equilibration at c. 23% relative humidity (at 23 °C) may be suitable for most of the species, although there was higher germination of P. recurva seeds stored at ?80 °C and of M. media ssp. media seeds equilibrated at 75% relative humidity. However, there was considerable variation in germination of seeds sampled after different storage periods, making it difficult to identify optimal storage conditions definitively. Results of comparative longevity storage experiments at 60% relative humidity and 40 °C suggest seeds from these orchid species are short‐lived compared with non‐orchid species, and with Australian species in particular. © 2010 The Linnean Society of London, Botanical Journal of the Linnean Society, 2010, 164 , 26–41.     

Asymbiotic germination of Odontoglossum gloriosum RCHB.F (Orchidaceae) under in vitro conditions

Summary An efficient seed germination system was developed for an endemic and endangered orchid of the prairies of Bogotá, Colombia. The effects of three culture media [Murashige and Skoog (MS) salts (1962); Knudson C (KC) salts (1946); and Hydro-Coljap^? salts], activated charcoal [0 and 0.5% (w/v)], α-naphthaleneacetic acid (NAA; 0.0, 2.68 and 5.37 μM), and four light regimes (white light, darkness, red light, and far-red light) on asymbiotic germination of Odontoglossum gloriosum, were studied. The best germination percentage and germination time was obtained on agar-solidified medium supplemented with Hydro-Coljap^? salts and 2.68 μM NAA under red light with a 16-h photoperiod. The addition of activated charoal did not stimulate either germination or the development of O. gloriosum seedlings. This study describes a single medium-based protocol able to achieve more than 330 000 seedlings within 40wk, starting from a single capsule. This protocol is sufficient for both large-scale propagation and in vitro conservation of this threatened orchid.     

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.     

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 and in vitro seedling development of <Emphasis Type="Italic">Cyrtopodium punctatum</Emphasis>: a propagation protocol for an endangered Florida native orchid

Cyrtopodium punctatum Lindley is an endangered epiphytic orchid restricted in the United States to southern Florida. Due to its ornamental value, the species was extensively collected from the wild during the past 100 years. Today, only a few plants remain in protected areas. As part of a conservation plan for the species, procedures for asymbiotic seed germination were developed. Five asymbiotic orchid seed germination media (PhytoTechnology Orchid Seed Sowing Medium, Knudson C, Malmgren Modified Terrestrial Orchid Medium, Vacin &; Went Modified Orchid Medium, and ½-strengh Murashige &; Skoog) were examined for their effectiveness in promoting seed germination and protocorm development under a 16/8 h L/D photoperiod and dark (0/24 h L/D). The influence of photoperiod on growth and development was also examined. Seeds were germinated under a 16/8 h, 12/12 h, 8/16 h L/D photoperiod, at 25 ± 3°C and allowed to develop in vitro for 10 weeks. After 10 weeks, developing seedlings were transferred to Sigma Phytatrays and returned to their assigned photoperiod treatments for continued seedling development for an additional 15 weeks. Highest germination occurred in 0/24 h L/D on PhytoTechnology Orchid Seed Sowing Medium and seedlings displayed more advanced development when cultured under 16/8 h L/D photoperiod after 15 weeks in Phytatrays. Thirty-five week old seedlings potted in coconut husk growing medium exhibited 90% survival following 5 weeks acclimatization to greenhouse conditions. This asymbiotic seed germination protocol for C. punctatum will facilitate future reintroduction projects involving this endangered species.     

High-frequency plantlet regeneration and multiple shoot induction from cultured immature seeds of Rhynchostylis retusa Blume., an exquisite orchid

Seeds of an exquisite orchid, Rhynchostylis retusa, germinated in vitro on ½ Murashige and Skoog (MS) medium supplemented with different concentrations of coconut milk (CM). Of the different concentrations of CM employed for seed germination, 15% gave optimum response. On this medium a maximum of 93% cultures produced seedlings 90 days after inoculation. Individual seedlings with a length of about 0.5 cm were subcultured on MS medium supplemented with various concentrations of 6-benzylaminopurine (BA) and α-naphthalene acetic acid (NAA), with or without activated charcoal (AC), for further growth. Seedling growth was maximum on MS medium supplemented with 6 μM BA, 0.2 μM NAA, and 1 g L^?1 AC. Here a maximum seedling length of 2.3 cm was observed after 1 month of culture. The seedlings were subcultured on MS medium supplemented with kinetin (Kn) or thidiazuron (TDZ), in the presence or absence of AC, for multiple shoot induction. A maximum multiple shoot number of 8.2 was observed on MS medium supplemented with 2 μM TDZ in the presence of AC. The shoots were rooted on ½ MS medium supplemented with 2 μM indole-3-butyric acid (IBA) and successfully transplanted to soil. Of the 45 plantlets transferred to soil 40 survived. The reproducible protocol standardized here will enable rapid propagation and conservation of this precious orchid.     

In vitro seed culture and seedling development of Calopogon tuberosus

A major obstacle to native orchid production is difficulty in seed germination. Culture media and light effects on seed germination of Calopogon tuberosus var. tuberosus, a native orchid with horticultural potential, were studied. Culture media included Knudson C, Malmgren modified terrestrial orchid, and PhytoTechnology orchid seed sowing. Effects of 8 weeks continual darkness, 8 weeks 16-h photoperiod, 2 weeks dark followed by 6 weeks 16-h photoperiod, 4 weeks dark followed by 4 weeks 16-h photoperiod, and 6 weeks dark followed by 2 weeks 16-h photoperiod were examined. Percent seed germination was highest on Knudson C after 8 weeks culture; however, seedling development was enhanced on PhytoTechnology seed sowing medium during 8 weeks culture under a 16-h photoperiod. This suggests that while KC and darkness promoted seed germination, P723 and light enhanced further seedling development. Seedlings of C. tuberosus readily acclimated to greenhouse conditions.     

Asymbiotic germination response to photoperiod and nutritional media in six populations of Calopogon tuberosus var. tuberosus (Orchidaceae): evidence for ecotypic differentiation

Background and Aims

Ecotypic differentiation has been explored in numerous plant species, but has been largely ignored in the Orchidaceae. Applying a specific germination protocol for widespread seed sources may be unreliable due to inherent physiological or genetic differences in localized populations. It is crucial to determine whether ecotypic differentiation exists for restoration and conservation programmes. Calopogon tuberosus var. tuberosus, a widespread terrestrial orchid of eastern North America, is a model species to explore ecotypic differences in germination requirements, as this species occupies diverse habitats spanning a wide geographical range.

Methods

Mature seeds were collected from south Florida, north central Florida, three locations in South Carolina, and the upper Michigan peninsula. Effects of three photoperiods (8/16, 12/12, 16/8 h L/D) were examined on asymbiotic in vitro seed germination and seedling development of C. tuberosus. Germination and early development was monitored for 8 weeks, while advanced development was monitored for an additional 8 weeks. In an additional experiment, asymbiotic seed germination and development was monitored for 8 weeks on six culture media (BM-1 terrestrial orchid medium, Knudson C, Malmgrem, half-strength MS, P723, and Vacin and Went). A tetrazolium test for embryo viability was performed.

Key Results

Short days promoted the highest germination among Florida populations, but few differences among photoperiods in other seed sources existed. Different media had little effect on the germination of Michigan and Florida populations, but germination of South Carolina seeds was higher on media with higher calcium and magnesium. Tetrazolium testing confirmed that South Carolina seeds exhibited low viability while viability was higher in Florida seeds. Seed germination and corm formation was rapid in Michigan seeds across all treatments. Michigan seedlings allocated more biomass to corms compared with other seed sources.

Conclusions

Rapid germination and corm formation may be a survival mechanism in response to a compressed growing season in northern populations. Ecotypic differentiation may be occurring based on seed germination and corm formation data.Key words: Asymbiotic germination, corm development, Calopogon tuberosus, ecotypic differentiation, native orchid, orchid seed germination, seedling development     

Taxonomic and functional characterisation of fungi from the Sebacina vermifera complex from common and rare orchids in the genus Caladenia

The terrestrial orchid genus Caladenia contains many species which are threatened with extinction. They have highly specific associations with Sebacina vermifera and closely related fungi, and conservation of these terrestrial orchids, in part, relies on symbiotic propagation to produce plants for reintroduction and ex situ conservation collections. However, little is known of the diversity of mycorrhizal fungi associating with natural populations. Here, restriction fragment polymorphism analysis, internal transcribed spacer and nuclear large subunit sequencing and symbiotic seed germination were used to investigate the taxonomic and functional diversity of fungal isolates from single populations of six endangered Caladenia species and one common species across the same biogeographic range. Fifty-nine fungal isolates were collected for investigation including ten isolates from the six endangered species Caladenia audasii, Caladenia amoena, Caladenia sp. aff. fragrantissima (Central Victoria), Caladenia sp. aff. patersonii, Caladenia rosella and Caladenia orientalis and 49 isolates from six populations of the common species Caladenia tentaculata. While the common species associated with three distinct S. vermifera-like taxa, the six endangered species were restricted to one of these fungal taxa. No direct relationship between the taxonomic identity of the fungi and their ability to stimulate seed germination was observed; however, the majority of the fungi isolated from the Caladenia species were capable of germinating seed in vitro, indicating their mycorrhizal status and potential for symbiotic propagation in conservation programmes.     

Ecological specialization in mycorrhizal symbiosis leads to rarity in an endangered orchid

Terrestrial orchid germination, growth and development are closely linked to the establishment and maintenance of a relationship with a mycorrhizal fungus. Mycorrhizal dependency and specificity varies considerably between orchid taxa but the degree to which this underpins rarity in orchids is unknown. In the context of examining orchid rarity, large scale in vitro and in situ germination trials complemented by DNA sequencing were used to investigate ecological specialization in the mycorrhizal interaction of the rare terrestrial orchid Caladenia huegelii. Common and widespread sympatric orchid congeners were used for comparative purposes. Germination trials revealed an absolute requirement for mycorrhisation with compatibility barriers to germination limiting C. huegelii to a highly specific and range limited, efficacious mycorrhizal fungus. DNA sequencing confirmed fidelity between orchid and fungus across the distribution range of C. huegelii and at key life history stages within its life cycle. It was also revealed that common congeners could swap or share fungal partners including the fungus associated with the rare orchid but not vice versa. Data from this study provides evidence for orchid rarity as a cause and consequence of high mycorrhizal specialization. This interaction must be taken into account in efforts to mitigate the significant extinction risk for this species from anthropogenically induced habitat change and illustrates the importance of understanding fungal specificity in orchid ecology and conservation.     

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).     

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.     

Germination of mature seeds of <Emphasis Type="Italic">Calanthe tricarinata</Emphasis> Lindl., an endangered terrestrial orchid,by asymbiotic culture <Emphasis Type="Italic">in vitro</Emphasis>

The effects of culture conditions on the asymbiotic germination of mature seeds of Calanthe tricarinata Lindl., an endangered terrestrial cool-climate orchid, were examined. Specifically, conditions such as illumination, temperature, and the addition of plant growth regulators to the medium were studied. Mature seeds were harvested from plants that had been collected in Toyama Prefecture, Japan, and maintained at the Botanic Gardens of Toyama. Solidified “New Dogashima” medium was used as the basal medium, and it was supplemented with 6-benzyladenopurine (BA) or α-naphthalene acetic acid (NAA). White light at 40 μmol m⁻² s⁻¹, with a 16-h photoperiod, inhibited the germination of seeds by 53–80%, as compared to dark controls in genotypes examined. The optimal temperature for the germination of seeds in darkness was 20°C and the germination frequency reached 60%, whereas it was only 28% at 25°C. While both NAA and BA stimulated germination, BA was more effective than NAA. After storage for 18 mo at 5°C, seeds incubated on medium that contained 0.2 mg l⁻¹ BA germinated at a frequency of 36%, which was twice that of seeds grown without any plant growth regulators. The frequency of subsequent germination decreased during storage of seeds at 5°C for approximately 2 yr, dropping from 61% to 13%. The protocorms obtained in this study were developed to plantlets readily after transferring to fresh 1/2 MS medium without any plant growth regulators. They were successfully acclimatized in green house after two to three subcultures in vitro. The significant role of a reproducible protocol for the germination of mature seeds is discussed in terms of the ex situ conservation of endangered orchid species.     

In vitro propagation of <Emphasis Type="Italic">Epipactis flava</Emphasis> Seidenf., an endangered rheophytic orchid: a first study on factors affecting asymbiotic seed germination,seedling development and greenhouse acclimatization

Epipactis flava Seidenf., is an endangered Thai rheophytic orchid that has decreased rapidly throughout its natural habitat and urgently requires conservation using in vitro techniques. Effect of pollination types (self- and cross-pollination) and seed from different capsule ages (2, 4, 6 and 8 weeks after pollination) on asymbiotic seed germination efficiency was performed on semi-solid VW medium supplemented with 150 mL/L coconut water and 50 g/L potato extract. Highest germination rate was 79.2% with definite rate of protocorm developmental stage 5 at 24.0% using seeds from 6 week old cross-pollination capsules. Anatomical investigation revealed young seed has been formed at 6 weeks old capsules. Identical seeds were then cultured on semi-solid and liquid systems of five different media including modified-VW, MS, BM, MM and KC for 2 months. Results showed that semi-solid and liquid VW medium promoted the highest seed germination rates at 70.2% and 70.4%, respectively, with the highest definite rate of protocorm developmental stage 5 at 54% found on semi-solid BM medium. In vitro seedlings were transferred to culture on both semi-solid and liquid VW and MS media for 2 months. Higher growth parameters, as indicated by shoot number and fresh weight, were obtained on liquid MS medium. Clumps of plantlets containing 5–8 shoots were acclimatized and transplanted into different potting media for 3 months. Survival percentages in all tested substrates were recorded at nearly 100% with no significant differences, while 63–68% of the living plantlets produced new shoots.     

Optimising sporulation and virulence in Drechslera avenacea

Studies were conducted on agar media to optimise sporulation of Drechslera avenacea, a fungal pathogen being evaluated as a biological control agent for Avena species (wild oats). Conidium production was affected by nutrition, pH, temperature and light conditions. Of the agar media tested, Czapek Dox agar (CZA) and half-strength oatmeal agar (½OMA) were the only media where sporulation occurred at all temperatures tested under a 12-h light:12-h dark photoperiod (L/D). The optimum temperature for conidium production was 20°C on ½OMA, whereas there was no optimum temperature on CZA. Under a 12-h near-ultraviolet (NUV):12-h dark photoperiod (NUV/D), similar numbers of conidia were produced on CZA at 6.66, 14.56, and 22.78 W m^?2, whereas on ½OMA conidium production was the highest at 14.56 W m^?2. When NUV/D and L/D conditions were compared, similar numbers of conidia where produced on CZA, whereas ½OMA conidium production was superior under the NUV/D photoperiod. Considerable variation in sporulation and degree of virulence of D. avenacea was detected among isolates from different geographic areas. The most virulent conidia were obtained on ½OMA at 20°C incubated under continuous illumination NUV light. Therefore, the most suitable conditions for conidium production of D. avenacea were growth for 1 week on ½OMA at 20°C under continuous NUV at an intensity of 14.56 W m^?2. Under these conditions, 1.1×10⁵ conidia mL^?1 were produced which is the highest sporulation yet reported for any Drechslera spp., which are traditionally poor sporulators.     

兰科杓兰属（Cypripedium）植物种子非共生萌发研究进展

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