Abstract
The two cultivated allopolyploid cottons, Gossypium hirsutum and Gossypium barbadense, represent a remarkable example of parallel independent domestication, both involving dramatic morphological transformations under selection from wild perennial plants to annualized row crops. Deep resequencing of 643 newly sampled accessions spanning the wild‐to‐domesticated continuum of both species, and their allopolyploid relatives, are combined with existing data to resolve species relationships and elucidate multiple aspects of their parallel domestication. It is confirmed that wild G. hirsutum and G. barbadense were initially domesticated in the Yucatan Peninsula and NW South America, respectively, and subsequently spread under domestication over 4000–8000 years to encompass most of the American tropics. A robust phylogenomic analysis of infraspecific relationships in each species is presented, quantify genetic diversity in both, and describe genetic bottlenecks associated with domestication and subsequent diffusion. As these species became sympatric over the last several millennia, pervasive genome‐wide bidirectional introgression occurred, often with striking asymmetries involving the two co‐resident genomes of these allopolyploids. Diversity scans revealed genomic regions and genes unknowingly targeted during domestication and additional subgenomic asymmetries. These analyses provide a comprehensive depiction of the origin, divergence, and adaptation of cotton, and serve as a rich resource for cotton improvement.
Highlights
It is confirmed that wild G. hirsutum and G. barbadense were initially domesticated in the Yucatan Peninsula and NW South America, respectively, and subsequently spread cally different civilizations, in each case extending back several thousand years
A robust phylogenomic analysis of infraspecific species are allotetraploids
For G. hirsutum and G. barbadense, accessions were selected to span the range of domestication from fully wild forms to modern elite cultivars, with over half (352 of 641) being wild or landrace, noting that the broad operational category of landrace may include multiple accessions representing feral derivatives that became established following escape from cultivation.[3,4,40]
Summary
A robust phylogenomic analysis of infraspecific species are allotetraploids As these species became sympatric over the last several millennia, pervasive genome-wide bidirectional introgression occurred, often tum L. and Gossypium barbadense L.) in the Western Hemisphere, each of which contains an A-genome and a D-genome from a polyploidization event 1–2 million years ago (MYA).[2] Today, more than 97% of the with striking asymmetries involving the two co-resident genomes of these annual fiber production worldwide comes allopolyploids. Diversity scans revealed genomic regions and genes unknowingly targeted during domestication and additional subgenomic asymmetries These analyses provide a comprehensive depiction of the origin, divergence, and adaptation of cotton, and serve as a rich resource for cotton from allotetraploid cottons One is in southern Mexico-Guatemala, the primary center of diversity, while the secondary center of diversity that developed as primitive G. hirsutum cultivars spread throughout the Caribbean
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
