Genomic Insights into High-Altitude Adaptation: A Comparative Analysis of Roscoea alpina and R. purpurea in the Himalayas

Abstract: Environmental stress at high altitudes drives the development of distinct adaptive mechanisms in plants. However, studies exploring the genetic adaptive mechanisms of high-altitude plant species are scarce. In the present study, we explored the high-altitude adaptive mechanisms of plants in the Himalayas through whole-genome resequencing. We studied two widespread members of the Himalayan endemic alpine genus Roscoea (Zingiberaceae): R. alpina (a selfing species) and R. purpurea (an outcrossing species). These… Show more

“…Both genetic and phenotypic variability are fundamental in determining intrinsic factors that define species and species biogeography [22,26,30,45]. Phenotypic plasticity, especially of critical functional traits, is considered to be a vital mechanism for adapting to changing ecological environment.…”

Differentiation in Leaf Functional Traits and Driving Factors of the Allopatric Distribution of Tetraploid and Octaploid Buddleja macrostachya in the Sino-Himalayan Region

“…Both genetic and phenotypic variability are fundamental in determining intrinsic factors that define species and species biogeography [22,26,30,45]. Phenotypic plasticity, especially of critical functional traits, is considered to be a vital mechanism for adapting to changing ecological environment.…”

Differentiation in Leaf Functional Traits and Driving Factors of the Allopatric Distribution of Tetraploid and Octaploid Buddleja macrostachya in the Sino-Himalayan Region