中国水稻遗传育种历程与展望

我国的水稻育种经历了矮化育种、杂种优势利用和绿色超级稻培育3次飞跃,其间伴随矮化育种(第一次绿色革命)、三系杂交稻培育、二系杂交稻培育、亚种间杂种优势利用、理想株型育种和绿色超级稻培育等6个重要历程。育种目标从唯产量是举到高抗、优质和高产并重,育种理念从高产优质逐步提升为“少投入,多产出,保护环境”。水稻功能基因组研究为第二次绿色革命准备了大量的有重要利用价值的基因,水稻育种正迈向设计育种的新时代。基因组选择技术和转基因技术将为培育“少打农药,少施化肥,节水抗旱,优质高产” 绿色超级稻保驾护航。本文对我国水稻遗传育种的发展历程进行了概括,指出了各种育种方法和育种技术的优缺点,系统介绍了水稻细胞质雄性不育和光温敏雄性核不育以及籼粳杂种不育的分子机制的研究进展,综述了水稻株型、穗型、粒形和养分高效利用相关的重要功能基因,阐明了产量与开花期联动的关系,凸显了我国水稻基础研究在国际上的重要地位。特别指出,近年来,我国水稻生产方式发生了或正在发生巨大变革,育种理念也要与时俱进。未来,杂交育种技术要与现代育种技术紧密结合,选育水稻品种不仅要满足市场需求,而且更要具备绿色健康的特点,同时还要适应新耕作制度和新耕作方法。

The history and prospect of rice genetic breeding in China

Rice breeding in China has experienced three major leaps of dwarf breeding, heterosis utilization and green super rice cultivation, accompanied by six important processes: dwarf breeding (the first green revolution), three-line hybrid rice cultivation, two-line hybrid rice cultivation, inter-subspecies heterosis utilization, ideal plant type breeding and green super rice cultivation. The breeding subject ranges from the unique trait of high yield to the complex traits of resistance, high quality and high yield. The breeding concept is gradually upgraded from high yield and quality to the second green revolution concept of “less investment, more output, and better environment”. Rice functional genomics achievements have prepared many genes with important utilization values for the second green revolution, and rice breeding is moving towards a new era of design breeding. The genomic selection technology and transgenic technology will help to develop the green super rice for “less pesticides, less fertilizers, water saving and drought tolerance, superior quality and high yield”. Here, we summarize the development process of rice genetics and breeding in China, point out advantages and disadvantages of various breeding methods and breeding techniques, systematically introduce the molecular mechanisms on cytoplasmic male sterility, photoperiod-sensitive male genic sterility and indica-japonica hybrid sterility, review the important functional genes related to rice plant architecture, panicle architecture, grain size and nutrient use efficiency, clarify the correlation between yield and heading date, and highlight the important position of China in the rice basic research in the world. In particular, we emphasize the fact that Chinese rice production styles have undergone or are undergoing tremendous changes in recent years, and the breeding concept must also keep pace with the changing production styles. In the future, the hybrid breeding technology should be closely integrated with modern breeding technologies to breed rice varieties that must not only meet the market demand, but also have the natural and healthy characteristics and adapt to the new farming system and methods.