TY - JOUR
T1 - Genomic variation, environmental adaptation and feralization in ramie, an ancient fiber crop
AU - Wu, Zeng-Yuan
AU - Chapman, Mark A.
AU - Liu, Jie
AU - Milne, Richard I.
AU - Zhao, Ying
AU - Luo, Ya-Huang
AU - Zhu, Guang-Fu
AU - Cadotte, Marc W.
AU - Luan, Ming-Bao
AU - Fan, Peng-Zhen
AU - Monro, Alex K.
AU - Li, Zhi-Peng
AU - Corlett, Richard T.
AU - Li, De-Zhu
N1 - We thank Prof. Hong Wang, Dr. Wei Xu, and Mr. Jin-Xuan Shi for their insightful discussions, and Mr. Zhi-Ming Sun for kind help during field work. We acknowledge valuable contribution of Dr. Ting Zhang, Dr. Chun-Yuan Zhang, Dr. Dong An, and Mr. Ren-Gang Zhang for their kind assistance with software. The Royal Botanic Gardens, Kew (K) and Institute of Botany, the Chinese Academy of Sciences (PE) are thanked for providing some DNA materials. This work was facilitated by the Germplasm Bank of Wild Species, Kunming Institute of Botany, Chinese Academy of Sciences. Wuhan Frasergen Bioinformatics Co. Ltd. is thanked for valuable technical support in whole genome sequencing.
PY - 2024/5/8
Y1 - 2024/5/8
N2 - Feralization is an important evolutionary process, but the mechanisms behind it remain poorly understood. Here, we use the ancient fiber crop ramie (Boehmeria nivea (L.) Gaudich.) as a model to investigate genomic changes associated with both domestication and feralization. We first produced a chromosome-scale de novo genome assembly of feral ramie and investigated structural variations between feral and domesticated ramie genomes. Next, we gathered 915 accessions from 23 countries, comprising cultivars, major landraces, feral populations, and the wild progenitor. Based on whole-genome resequencing of these accessions, we constructed the most comprehensive ramie genomic variation map to date. Phylogenetic, demographic, and admixture signal detection analyses indicated that feral ramie is of exoferal or exo-endo origin, i.e., descended from hybridization between domesticated ramie and the wild progenitor or ancient landraces. Feral ramie has higher genetic diversity than wild or domesticated ramie, and genomic regions affected by natural selection during feralization differ from those under selection during domestication. Ecological analyses showed that feral and domesticated ramie have similar ecological niches that differ substantially from the niche of the wild progenitor, and three environmental variables are associated with habitat-specific adaptation in feral ramie. These findings advance our understanding of feralization, providing a scientific basis for the excavation of new crop germplasm resources and offering novel insights into the evolution of feralization in nature.
AB - Feralization is an important evolutionary process, but the mechanisms behind it remain poorly understood. Here, we use the ancient fiber crop ramie (Boehmeria nivea (L.) Gaudich.) as a model to investigate genomic changes associated with both domestication and feralization. We first produced a chromosome-scale de novo genome assembly of feral ramie and investigated structural variations between feral and domesticated ramie genomes. Next, we gathered 915 accessions from 23 countries, comprising cultivars, major landraces, feral populations, and the wild progenitor. Based on whole-genome resequencing of these accessions, we constructed the most comprehensive ramie genomic variation map to date. Phylogenetic, demographic, and admixture signal detection analyses indicated that feral ramie is of exoferal or exo-endo origin, i.e., descended from hybridization between domesticated ramie and the wild progenitor or ancient landraces. Feral ramie has higher genetic diversity than wild or domesticated ramie, and genomic regions affected by natural selection during feralization differ from those under selection during domestication. Ecological analyses showed that feral and domesticated ramie have similar ecological niches that differ substantially from the niche of the wild progenitor, and three environmental variables are associated with habitat-specific adaptation in feral ramie. These findings advance our understanding of feralization, providing a scientific basis for the excavation of new crop germplasm resources and offering novel insights into the evolution of feralization in nature.
UR - https://ngdc.cncb.ac.cn/bioproject/browse/PRJCA015489
UR - https://ngdc.cncb.ac.cn/bioproject/browse/PRJCA015489
U2 - 10.1016/j.xplc.2024.100942
DO - 10.1016/j.xplc.2024.100942
M3 - Article
SN - 2590-3462
JO - Plant Communications
JF - Plant Communications
M1 - 100942
ER -