MICROPROPAGATION OF CYMBIDIUM ALOIFOLIUM (L.) SW., A MEDICINAL ORCHID BY ARTIFICIAL SEEDS TECHNOLOGY

Journal of natural history museum Pub Date : 2015-12-19 DOI:10.3126/JNHM.V28I0.14166

S. Pradhan, Babu Lal Tiruwa, Bijay Raj Subedee, B. Pant

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引用次数: 4

Abstract

Artificial seed technology is a rapidly growing area of research in plant cell and tissue culture. Application of this technology opens an alternative route for mass scale production, efficient delivery of cloned plantlets and fulfils the increasing demand of local growers. An attempt was made to produce artificial seeds and their subsequent regeneration of a highly valuable medicinal orchid of Nepal i.e. Cymbidium aloifolium. Artificial seeds were obtained through encapsulation of protocorms in calcium alginate beads. Protocorms were encapsulated by using 3% sodium alginate and 0.2 M calcium chloride solution. Murashige and Skoog (MS) medium (1962) was used as the basal medium for in vitro germination and seedling development of artificial seed. In Cymbidium aloifolium , 20-25 days old in vitro grown protocorms were used for production of artificial seeds. Artificial seeds were inoculated on two different culture conditions of MS medium i.e. MS solid & MS liquid with four different treatments i.e. strength of 1.0, ½, ¼ and MS media supplemented with plant growth regulators viz. BAP (0.5 mg/l) and NAA (0.5 mg/l). Highest percentage of germination (100%) and plantlet conversion was found on hormone free full strength (1.0 MS) of MS liquid medium after 13-14 weeks of culture. Plantlets regenerated from artificial seeds with well developed shoot and root systems were successfully acclimatized in potting mixture of cocopeat, litter and sphagnum moss in a ratio 2:1:1. J. Nat. Hist. Mus. Vol. 28, 2014: 42-48

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大花蕙兰(cymbidium aloifolium)的微繁西南。是一种采用人工种子技术的药用兰花

人工种子技术是植物细胞和组织培养研究的一个快速发展的领域。该技术的应用为大规模生产、高效交付克隆植株开辟了另一条途径，并满足了当地种植者日益增长的需求。对尼泊尔一种非常有价值的药用兰花蕙兰(Cymbidium aloifolium)进行了人工种子的培育和再生。将原球茎包埋在海藻酸钙微球中获得人工种子。原球茎用3%海藻酸钠和0.2 M氯化钙溶液包封。以Murashige和Skoog(1962)培养基为基础培养基，进行人工种子离体萌发和幼苗发育。以大花蕙兰(Cymbidium aloifolium)为研究对象，采用20 ~ 25天的离体原球茎生产人工种子。将人工种子接种于MS培养基的两种不同培养条件下，即MS固体和MS液体，并在MS培养基中添加植物生长调节剂BAP (0.5 mg/l)和NAA (0.5 mg/l)，培养基强度分别为1.0、1 / 2和1 / 4。培养13 ~ 14周后，无激素全强度(1.0 MS) MS液体培养基的发芽率最高(100%)，植株转化率最高。人工种子再生苗的茎、根系统发育良好，在椰油、凋落物和泥炭苔藓按2:1:1的比例盆栽中驯化成功。J.纳特。亩。Vol. 28, 2014: 42-48

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Journal of natural history museum

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