超声对杂交蕙兰体外生长的影响

Botanica Lithuanica Pub Date : 2015-02-02 DOI:10.2478/botlit-2014-0014

J. A. Teixeira da Silva, J. Dobránszki

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引用次数: 5

摘要

超声或超声波的使用已被证明可以刺激几种植物的生长和发育。目前还没有关于声音对大花蕙兰体外生长影响的研究。利用60 Hz的声波，研究了在特谢拉蕙兰(TC)培养基上对新原球茎样体(neo-PLB)形成的响应，以及对离体植物器官发生的响应。培养60 d后，超声处理5或10 min对新plb形成的刺激显著高于不含植物生长调节剂(PGR)的TC培养基(阴性对照)和超声处理1、20或45 min以上的TC培养基(阳性对照)，但显著低于含PGR NAA和Kin的TC培养基(阳性对照)。超声波处理对植物生长相关参数没有影响。流式细胞分析显示超声处理的PLB组织内复制增加。60 Hz的超声有plb促进作用，但不如pgr有效。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Sonication (Ultrasound) Affects In Vitro Growth of Hybrid Cymbidium

Abstract The use of ultrasound or sonication has been shown to stimulate growth and development of several plant species. No study exists on the impact of sound on Cymbidium growth in vitro. Using sonication at 60 Hz for several time periods, the response on new protocorm-like body (neo-PLB) formation on Teixeira Cymbidium (TC) medium was examined, as was the response on in vitro plant organogenesis. Sonication for 5 or 10 min stimulated neo-PLB formation significantly more than plant growth regulator (PGR)-free TC medium without sonication (negative control) and more than 1, 20 or 45 min sonication, but significantly less than control TC medium containing PGRs NAA and Kin (positive control) after 60 days in culture. Sonication, when applied to PLBs, did not influence most plantlet-related growth parameters. Flow cytometric analyses registered an increase in endoreduplication in sonicated PLB tissues. Sonication at 60 Hz has a PLB-promoting effect, but is not as effective as PGRs.

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Botanica Lithuanica

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