The habit of strawberry flowering is the key for runner propagation, where the photoperiod is the main environmental factor - A review

Q3 Agricultural and Biological Sciences

Advances in horticultural science Pub Date : 2024-01-18 DOI:10.36253/ahsc-14381

Isam Al-madhagi

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引用次数: 0

Abstract

Despite the advancement of tissue culture in strawberry plant propagation, the degree of elite for field cultivation depends on forcing the plant to produce runners. The strawberry flower habit [everbearing (EB), seasonal berry (SB), short-day (SD), long-day (LD), and day-neutral (DN)] defines the method of encouraging the plant to generate runners, since the formation of runners is mostly influenced by genetic factors before being influenced by environmental factors. Stolon production, which occurs as a result of vying for resources under certain environmental circumstances, is the reverse of blossoming. Therefore, any stimulus that encourages stolon formation and vegetative growth limits the development of flower buds, which is necessary for elite propagation. Long photoperiod, temperature, chilling hour, or cold storage, and plant growth regulators (PGR) are cited as these variables. Temperature has a significant impact on runner development, although the long daily photoperiod (LD) remains the most crucial component in runner induction. However, when LD interacts with other factors like temperature, cold storage, and gibberellins, its efficiency is increased. Thus, based on the cultivars and the seasonal climate of the geographical location, the best approach for strawberry propagation is identified by optimising the planting date for propagation or adjusting the propagation circumstances.

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草莓开花的习性是匍匐茎繁殖的关键，而光周期是主要的环境因素 - 综述

尽管组织培养在草莓植株繁殖中取得了进步，但田间栽培的精良程度仍取决于强迫植株产生匍匐茎。草莓的花序习性[常花（EB）、季节性浆果（SB）、短日照（SD）、长日照（LD）和中性日照（DN）]决定了鼓励植株产生匍匐茎的方法，因为匍匐茎的形成在受环境因素影响之前主要受遗传因素的影响。匍匐茎的产生是在特定环境条件下争夺资源的结果，与开花正好相反。因此，任何促进匍匐茎形成和无性生长的刺激都会限制花芽的发育，而花芽的发育是精英繁殖所必需的。长光周期、温度、冷冻时间或冷藏以及植物生长调节剂（PGR）都是这些变量。温度对转轮发育有重大影响，但长光周期（LD）仍是诱导转轮的最关键因素。然而，当长光周期与温度、冷藏和赤霉素等其他因素相互作用时，其效率就会提高。因此，根据栽培品种和地理位置的季节性气候，通过优化繁殖的种植日期或调整繁殖环境，确定草莓繁殖的最佳方法。

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

Advances in horticultural science Agricultural and Biological Sciences-Horticulture

CiteScore

1.20

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： Advances in Horticultural Science aims to provide a forum for original investigations in horticulture, viticulture and oliviculture. The journal publishes fully refereed papers which cover applied and theoretical approaches to the most recent studies of all areas of horticulture - fruit growing, vegetable growing, viticulture, floriculture, medicinal plants, ornamental gardening, garden and landscape architecture, in temperate, subtropical and tropical regions. Papers on horticultural aspects of agronomic, breeding, biotechnology, entomology, irrigation and plant stress physiology, plant nutrition, plant protection, plant pathology, and pre and post harvest physiology, are also welcomed. The journal scope is the promotion of a sustainable increase of the quantity and quality of horticultural products and the transfer of the new knowledge in the field. Papers should report original research, should be methodologically sound and of relevance to the international scientific community. AHS publishes three types of manuscripts: Full-length - short note - review papers. Papers are published in English.