热胁迫对双色高粱雄性繁殖和分蘖的影响

IF 4 2区 农林科学 Q2 FOOD SCIENCE & TECHNOLOGY
Ashley Smith, Benjamin R. Gentile, Zhanguo Xin, Dazhong Zhao
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引用次数: 2

摘要

由于全球气候变化,热胁迫对许多作物的生长发育、总体生物量和粮食产量的危害越来越大。热胁迫损害了高粱花粉发育,从而降低了双色高粱的结实率。Moench;然而,热胁迫对特定阶段花药发育和分蘖形成的影响尚不完全清楚。在花粉母细胞(PMC)和孕穗期暴露于42°C/32°C(昼/夜)的热胁迫下,会严重破坏绒毡层和花粉的发育,导致高粱籽粒产量显著下降。在PMC期经受9天或更短时间热胁迫的高粱植株花粉活力正常,但12天的热胁迫几乎使籽粒产量完全丧失,形成无活力的花粉粒。同样,高粱植株在孕穗期被热胁迫3天,产生的种子很少。进一步分析表明,异常绒毡层和花粉发育导致了这些热胁迫植物花粉的不育性。值得注意的是,除抑制株高外,在孕穗期12天的热胁迫促进了基分蘖的形成,而在孕穗期3天的热胁迫促进了顶分蘖的形成,这有助于在热胁迫条件下挽救种子产量。此外,外源生长素的施用促进了根尖分蘖的形成和每个根尖分蘖的叶数。总的来说,我们的研究结果表明,高粱在花药发育的早期和后期都容易受到热胁迫,生长素可能参与控制顶分蘖的形成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The effects of heat stress on male reproduction and tillering in Sorghum bicolor

The effects of heat stress on male reproduction and tillering in Sorghum bicolor

Due to global climate change, heat stress is increasingly harming the growth, development, overall biomass, and grain yield of numerous crops. Heat stress impairs pollen development and thus reduces seed set in Sorghum bicolor (L.) Moench; however, the effects of heat stress on anther development at specific stages and tiller formation remain incompletely understood. Here we report that exposure to heat stress [42°C/32°C (day/night)] at pollen mother cell (PMC) and booting stages profoundly disrupts tapetum and pollen development, resulting in a significant decrease in grain yield in sorghum. Sorghum plants subjected to 9 days or less of heat stress at the PMC stage exhibited normal pollen viability, but 12 days of heat stress caused almost complete loss of grain yield and the formation of nonviable pollen grains. Similarly, sorghum plants that were heat-stressed for 3 days at the booting stage produced few seeds. Further analysis revealed that aberrant tapetum and pollen development contributed to the sterility of pollen in these heat-stressed plants. Notably, in addition to inhibiting plant height, a 12-day heat stress at the PMC stage promoted the formation of basal tillers, whereas a 3-day heat stress at the booting stage stimulated the formation of apical tillers, which helped salvage seed yield under heat stress conditions. Moreover, the application of exogenous auxin promoted the formation of apical tillers and leaf numbers per apical tiller. Collectively, our findings suggest that sorghum is susceptible to heat stress during both early and late anther development, and auxin might be involved in governing the formation of apical tillers.

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来源期刊
Food and Energy Security
Food and Energy Security Energy-Renewable Energy, Sustainability and the Environment
CiteScore
9.30
自引率
4.00%
发文量
76
审稿时长
19 weeks
期刊介绍: Food and Energy Security seeks to publish high quality and high impact original research on agricultural crop and forest productivity to improve food and energy security. It actively seeks submissions from emerging countries with expanding agricultural research communities. Papers from China, other parts of Asia, India and South America are particularly welcome. The Editorial Board, headed by Editor-in-Chief Professor Martin Parry, is determined to make FES the leading publication in its sector and will be aiming for a top-ranking impact factor. Primary research articles should report hypothesis driven investigations that provide new insights into mechanisms and processes that determine productivity and properties for exploitation. Review articles are welcome but they must be critical in approach and provide particularly novel and far reaching insights. Food and Energy Security offers authors a forum for the discussion of the most important advances in this field and promotes an integrative approach of scientific disciplines. Papers must contribute substantially to the advancement of knowledge. Examples of areas covered in Food and Energy Security include: • Agronomy • Biotechnological Approaches • Breeding & Genetics • Climate Change • Quality and Composition • Food Crops and Bioenergy Feedstocks • Developmental, Physiology and Biochemistry • Functional Genomics • Molecular Biology • Pest and Disease Management • Post Harvest Biology • Soil Science • Systems Biology
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