专刊链接:https://www.mdpi.com/journal/agronomy/special_issues/I90R3YB587
感兴趣的老师和同学可以试试,提前邀请制投稿,申请折扣10%-50%。
Rice is a staple crop sustaining more than half of the global population, and its continuous improvement is critical in ensuring global food security. Recent advances in genomics, molecular markers, and multi-omics technologies have greatly expanded our ability to dissect complex traits and accelerate the development of improved rice varieties. These tools, together with innovative breeding strategies, provide new opportunities to enhance yield, grain quality, and resilience to biotic and abiotic stresses.
This Special Issue will focus on integrative genomics, molecular marker applications, and innovative breeding approaches in rice. We particularly encourage studies addressing genetic variation, haplotype diversity, population structure, and trait–marker associations, as well as integrative analyses combining genomics, transcriptomics, metabolomics, and advanced computational approaches.
We welcome original research articles, reviews, and short communications that report novel molecular tools, the functional validation of candidate genes, and practical applications of genomics-assisted breeding strategies for rice improvement.
水稻是全球超过一半人口赖以生存的主要农作物,其持续改良对于保障全球粮食安全至关重要。近年来,基因组学、分子标记以及多组学技术的进展极大地增强了我们解析复杂性状的能力,并加速了优良水稻品种的培育。这些工具与创新的育种策略相结合,为提高产量、改善谷物品质以及增强对生物和非生物胁迫的抵抗力提供了新的机遇。
本次特刊将聚焦于水稻的整合基因组学、分子标记应用以及创新育种方法。我们特别鼓励开展有关遗传变异、单倍型多样性、种群结构以及性状与标记关联的研究,同时也鼓励进行将基因组学、转录组学、代谢组学以及先进计算方法相结合的综合分析的研究。
我们欢迎发表原创性研究论文、综述以及简短的通讯文章,这些文章需涵盖新型分子工具的介绍、候选基因的功能验证,以及基于基因组学的育种策略在水稻改良方面的实际应用等内容。
感兴趣的老师和同学可以试试,提前邀请制投稿,申请折扣10%-50%。
Rice is a staple crop sustaining more than half of the global population, and its continuous improvement is critical in ensuring global food security. Recent advances in genomics, molecular markers, and multi-omics technologies have greatly expanded our ability to dissect complex traits and accelerate the development of improved rice varieties. These tools, together with innovative breeding strategies, provide new opportunities to enhance yield, grain quality, and resilience to biotic and abiotic stresses.
This Special Issue will focus on integrative genomics, molecular marker applications, and innovative breeding approaches in rice. We particularly encourage studies addressing genetic variation, haplotype diversity, population structure, and trait–marker associations, as well as integrative analyses combining genomics, transcriptomics, metabolomics, and advanced computational approaches.
We welcome original research articles, reviews, and short communications that report novel molecular tools, the functional validation of candidate genes, and practical applications of genomics-assisted breeding strategies for rice improvement.
水稻是全球超过一半人口赖以生存的主要农作物,其持续改良对于保障全球粮食安全至关重要。近年来,基因组学、分子标记以及多组学技术的进展极大地增强了我们解析复杂性状的能力,并加速了优良水稻品种的培育。这些工具与创新的育种策略相结合,为提高产量、改善谷物品质以及增强对生物和非生物胁迫的抵抗力提供了新的机遇。
本次特刊将聚焦于水稻的整合基因组学、分子标记应用以及创新育种方法。我们特别鼓励开展有关遗传变异、单倍型多样性、种群结构以及性状与标记关联的研究,同时也鼓励进行将基因组学、转录组学、代谢组学以及先进计算方法相结合的综合分析的研究。
我们欢迎发表原创性研究论文、综述以及简短的通讯文章,这些文章需涵盖新型分子工具的介绍、候选基因的功能验证,以及基于基因组学的育种策略在水稻改良方面的实际应用等内容。
