Heliconius live in tropical rain forests, and are known for their long-life spans and stable populations (Martin et al., 2016). In this experiment, they have investigated a data from 59 Heliconius melpomene individual, and an additional 21 sample from 11 related species (Martin et al., 2016). Moreover, they have identified four large populations and explored the genetic variation among those species with describing various selective and neutral processes (Martin et al., 2016). By using multiple linear regression approach, they have found out that selection reduces diversity at linked neutral sites (Martin et al., 2016). Another study has been conducted to investigate natural selection driving the evolution of reproductive isolation in an Australian wildflower, Senecio lautus. Their results suggested that natural selection can create strong reproductive barriers that differentiate populations with potential to interbreed (Richards et al.,
Heliconius live in tropical rain forests, and are known for their long-life spans and stable populations (Martin et al., 2016). In this experiment, they have investigated a data from 59 Heliconius melpomene individual, and an additional 21 sample from 11 related species (Martin et al., 2016). Moreover, they have identified four large populations and explored the genetic variation among those species with describing various selective and neutral processes (Martin et al., 2016). By using multiple linear regression approach, they have found out that selection reduces diversity at linked neutral sites (Martin et al., 2016). Another study has been conducted to investigate natural selection driving the evolution of reproductive isolation in an Australian wildflower, Senecio lautus. Their results suggested that natural selection can create strong reproductive barriers that differentiate populations with potential to interbreed (Richards et al.,