水稻对弱光胁迫的响应及适应机制研究进展

Research progress on response and adaptation mechanism of rice to low light stress

  • 摘要: 水稻是我国最重要的粮食作物之一, 光照对其产量和品质形成具有重要影响。随着全球气候恶化, 阴雨寡照天气频发, 随之带来的弱光胁迫已成为影响水稻高产稳产、优质生产的重要限制因素。水稻安全稳定、可持续生产对保障我国粮食安全、满足人们对粮食的需求具有重要意义。因此, 本文对近些年的研究成果进行了总结, 综述了弱光胁迫对水稻形态特征(根茎叶、花器官)、生理特征(光合特性、花粉受精、同化物转运、淀粉合成)、生化特征(氮代谢、激素调节、光受体调节、抗氧化系统、渗透调节)、产量和品质的影响, 重点关注了水稻在弱光胁迫下的分子响应机制, 并展望了未来水稻耐荫性研究的方向和热点, 指出未来要更加深入研究水稻在遗传水平上对弱光胁迫的适应机制以及挖掘相关的耐荫基因。本研究旨在为全面了解水稻耐荫分子响应机制和选育耐荫品种提供新的思路和策略。

     

    Abstract: Rice is one of the most important food crops in China, and illumination has an important effect on its yield and quality. With the deterioration of the global climate, the low light stress brought by the frequent rainy weather has become an important limiting factor affecting the high and stable yield and high-quality production of rice. The safe, stability and sustainable production of rice is of great significance to ensure food security and satisfy people's demand for food. Therefore, this paper summarizes the research results in recent years. The effects of low light stress on morphological characteristics (roots, stems, leaves, flower organs), physiological characteristics (photosynthetic traits, pollen fertilization, transport of assimilates, starch synthesis), biochemical characteristics (nitrogen metabolism, hormone regulation, photoreceptor regulation, antioxidant system and osmotic regulation), yield and quality of rice were reviewed. This paper focused on the molecular response mechanism of rice under low light stress. This future research direction and hotspot of rice shade tolerance were prospected. It is necessary to further study the adaptation mechanism of rice to low light stress at the genetic level and explore the related shade tolerance genes in the future. The aim of this study was to provide new ideas and strategies for understanding the molecular response mechanism of shade tolerance in rice and breeding shade tolerance varieties. It provides theoretical basis and practical basis for high and stable yield of rice and ensuring national food security.

     

/

返回文章
返回