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溪流生境兰花的离体繁殖,塞登费尔德——半固体、连续浸没和临时浸没系统的比较

In Vitro Propagation of Rheophytic Orchid, Seidenf.-A Comparison of Semi-Solid, Continuous Immersion and Temporary Immersion Systems.

作者信息

Kunakhonnuruk Boworn, Inthima Phithak, Kongbangkerd Anupan

机构信息

Plant Tissue Culture Research Unit, Department of Biology, Faculty of Science, Naresuan University, Phitsanulok 65000, Thailand.

出版信息

Biology (Basel). 2019 Sep 24;8(4):72. doi: 10.3390/biology8040072.

Abstract

Seidenf. is an endangered Thai rheophytic orchid that has recently shown a rapid decrease in its natural habitat, prompting an urgent need for conservation using ex situ reintroduction methods. Temporary immersion system (TIS) has been successfully applied for large-scale propagation in various plants species. Propagation efficiency of using TIS was investigated and compared with conventional semi-solid system (SSS) and liquid continuous immersion system (CIS). The highest percentage of new shoot and shoot bud formation was obtained from TIS, followed by CIS and SSS, respectively. Growth parameters as indicated by number of new shoots, shoot buds, shoot height and leaves per explant were significantly higher using TIS than with SSS and CIS. Moreover, the maximum number of new shoots and shoot buds per replication were reliably obtained from TIS higher than SSS and CIS. After acclimatization, the highest survival percentage of plantlets was observed in TIS (76.7%), with 60% surviving after eight weeks of transplantation in artificial stream. TIS was determined as the most suitable culture system for in vitro mass propagation of compared to CIS and SSS.

摘要

塞登夫氏兰是一种濒危的泰国石生兰花,其天然栖息地最近迅速减少,这促使人们迫切需要采用迁地重新引入方法进行保护。临时浸没系统(TIS)已成功应用于多种植物的大规模繁殖。研究了使用TIS的繁殖效率,并与传统的半固体系统(SSS)和液体连续浸没系统(CIS)进行了比较。新芽和芽形成的最高百分比分别来自TIS,其次是CIS和SSS。使用TIS时,每个外植体的新芽、芽、芽高和叶片数量所表明的生长参数显著高于SSS和CIS。此外,从TIS获得的每个重复中新芽和芽的最大数量可靠地高于SSS和CIS。驯化后,在TIS中观察到的植株最高存活百分比为76.7%,在人工溪流中移植八周后有60%存活。与CIS和SSS相比,TIS被确定为最适合离体大规模繁殖的培养系统。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d8d7/6956017/07fc49f70646/biology-08-00072-g001.jpg

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