AI Article Synopsis
- Studies on invasive species help improve management strategies while providing insights into rapid evolution in natural environments.
- The increasing availability of reference genomes enhances whole-genome resequencing studies, which can improve the accuracy of tracking invasion routes and uncover new research avenues through population genomic techniques.
- Although still limited in application, existing studies highlight the roles of balancing selection and hybridization, showcasing how genomic data can deepen understanding of invasive species' adaptations and their ability to thrive in new ecosystems.
Article Abstract
Studies of invasive species can simultaneously inform management strategies and quantify rapid evolution in the wild. The role of genomics in invasion science is increasingly recognised, and the growing availability of reference genomes for invasive species is paving the way for whole-genome resequencing studies in a wide range of systems. Here, we survey the literature to assess the application of whole-genome resequencing data in invasion biology. For some applications, such as the reconstruction of invasion routes in time and space, sequencing the whole genome of many individuals can increase the accuracy of existing methods. In other cases, population genomic approaches such as haplotype analysis can permit entirely new questions to be addressed and new technologies applied. To date whole-genome resequencing has only been used in a handful of invasive systems, but these studies have confirmed the importance of processes such as balancing selection and hybridization in allowing invasive species to reuse existing adaptations and rapidly overcome the challenges of a foreign ecosystem. The use of genomic data does not constitute a paradigm shift per se, but by leveraging new theory, tools, and technologies, population genomics can provide unprecedented insight into basic and applied aspects of invasion science.
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