体外再生植株成功驯化和硬化的策略:微繁技术的挑战与创新

IF 0.7 Q4 PLANT SCIENCES
Nishesh Sharma, Nishant Kumar, Jerin James, Sonika Kalia, Shivani Joshi
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引用次数: 2

摘要

微繁殖技术是保护和繁殖多种植物的有效途径。其成功的挑战包括外植体的选择、培养基组成、激素浓度、微生物污染、培养条件和光周期。除了这些因素之外,组织培养的准确性还取决于体外再生植物对自然环境的成功适应。组织培养衍生的植物表现出特征性变化,如营养改变、角质蜡减少、气孔无功能等。在向自然条件过渡的过程中,相当一部分微繁殖植物面临生存挑战。研究提出了循序渐进的适应过程,以实现平稳的适应。提倡离体生根以获得经济、简单和提高的生存结果。水培、光自养驯化和生物化策略也能提高移植后的存活率。本研究评估了实现体外再生植物成功驯化的多种策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Strategies for Successful Acclimatization and Hardening of In Vitro Regenerated Plants: Challenges and Innovations in Micropropagation Techniques
The micropropagation technique serves as an effective approach for conserving and propagating numerous plant species. Challenges to its success encompass explant selection, media composition, hormone concentration, microbial contamination, incubation conditions, and photoperiod. Beyond these factors, the veracity of tissue culture hinges on successful acclimatization of in vitro regenerated plants to their natural surroundings. Tissue culture-derived plants exhibit characteristic variations like altered nutrition, reduced cuticular wax, non-functional stomata, etc. During transition to natural conditions, a significant portion of micropropagated plants face survival challenges. Studies propose gradual acclimatization processes for smooth adjustment. Ex vitro rooting is advocated for economic, simple, and enhanced survival outcomes. Hydroponics, photoautotrophic acclimatization, and biotization strategies also improve post-transplantation survival. This study evaluates diverse strategies for achieving successful acclimatization of in vitro regenerated plants.
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来源期刊
Plant Science Today
Plant Science Today PLANT SCIENCES-
CiteScore
1.50
自引率
11.10%
发文量
177
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