Acclimation and hardening of a slow-growing woody species emblematic to western North America from in vitro plantlets

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2023-03-02 DOI:10.1002/aps3.11515

Peggy Martinez, Marcelo Serpe, Rachael Barron, Sven Buerki

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Abstract

Premise

Determining the tolerance of plant populations to climate change requires the development of biotechnological protocols producing genetically identical individuals used for genotype-by-environment experiments. Such protocols are missing for slow-growth, woody plants; to address this gap, this study uses Artemisia tridentata, a western North American keystone shrub, as model.

Methods and Results

The production of individual lines is a two-step process: in vitro propagation under aseptic conditions followed by ex vitro acclimation and hardening. Due to aseptic growth conditions, in vitro plantlets exhibit maladapted phenotypes, and this protocol focuses on presenting an approach promoting morphogenesis for slow-growth, woody species. Survival was used as the main criterion determining successful acclimation and hardening. Phenotypic changes were confirmed by inspecting leaf anatomy, and shoot water potential was used to ensure that plantlets were not water stressed.

Conclusions

Although our protocol has lower survival rates (11–41%) compared to protocols developed for herbaceous, fast-growing species, it provides a benchmark for slow-growth, woody species occurring in dry ecosystems.

Abstract Image

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驯化和硬化一种生长缓慢的木本物种象征着北美西部从离体植株

确定植物种群对气候变化的耐受性需要开发生物技术方案，生产用于环境基因型实验的基因相同的个体。对于生长缓慢的木本植物来说，这样的协议是缺失的;为了解决这一差距，本研究使用了北美西部的一种关键灌木——三叉戟蒿作为模型。方法与结果单株的生产分为两个步骤:无菌条件下的体外繁殖，然后是体外驯化和硬化。由于无菌生长条件，体外植株表现出不适应的表型，本协议的重点是提出一种促进缓慢生长的木本物种形态发生的方法。生存是决定驯化和硬化成功与否的主要标准。叶片解剖检查证实了表型变化，并利用茎部水势来确保植株不受水分胁迫。结论:虽然与草本速生物种相比，我们的方案存活率较低(11-41%)，但它为干旱生态系统中生长缓慢的木本物种提供了一个基准。

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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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464