Sweetpotato, a critical food crop for millions, has finally had its genetic code fully decoded after decades of mystery. Scientists unraveled its extraordinarily complex genome of six chromosome sets, revealing a hybrid origin stitched together from multiple wild ancestors. This achievement not only sheds light on sweetpotato’s remarkable adaptability and resilience but also provides powerful tools for breeders to create higher-yielding, more nutritious, and climate-resistant varieties.
Sweetpotato, a critical food crop for millions, has finally had its genetic code fully decoded after decades of mystery. Scientists unraveled its extraordinarily complex genome of six chromosome sets, revealing a hybrid origin stitched together from multiple wild ancestors. This achievement not only sheds light on sweetpotato’s remarkable adaptability and resilience but also provides powerful tools for breeders to create higher-yielding, more nutritious, and climate-resistant varieties. Sweetpotato, a critical food crop for millions, has finally had its genetic code fully decoded after decades of mystery. Scientists unraveled its extraordinarily complex genome of six chromosome sets, revealing a hybrid origin stitched together from multiple wild ancestors. This achievement not only sheds light on sweetpotato’s remarkable adaptability and resilience but also provides powerful tools for breeders to create higher-yielding, more nutritious, and climate-resistant varieties.