Global invasion history of the agricultural pest butterfly Pieris rapae revealed with genomics and citizen science.
Sean F RyanEric LombaertAnne EspesetRoger VilaGerard TalaveraVlad DincăMeredith M DoellmanMark A RenshawMatthew W EngEmily A HornettYiyuan LiMichael E PfrenderDeWayne ShoemakerPublished in: Proceedings of the National Academy of Sciences of the United States of America (2019)
The small cabbage white butterfly, Pieris rapae, is a major agricultural pest of cruciferous crops and has been introduced to every continent except South America and Antarctica as a result of human activities. In an effort to reconstruct the near-global invasion history of P. rapae, we developed a citizen science project, the "Pieris Project," and successfully amassed thousands of specimens from 32 countries worldwide. We then generated and analyzed nuclear (double-digest restriction site-associated DNA fragment procedure [ddRAD]) and mitochondrial DNA sequence data for these samples to reconstruct and compare different global invasion history scenarios. Our results bolster historical accounts of the global spread and timing of P. rapae introductions. We provide molecular evidence supporting the hypothesis that the ongoing divergence of the European and Asian subspecies of P. rapae (∼1,200 y B.P.) coincides with the diversification of brassicaceous crops and the development of human trade routes such as the Silk Route (Silk Road). The further spread of P. rapae over the last ∼160 y was facilitated by human movement and trade, resulting in an almost linear series of at least 4 founding events, with each introduced population going through a severe bottleneck and serving as the source for the next introduction. Management efforts of this agricultural pest may need to consider the current existence of multiple genetically distinct populations. Finally, the international success of the Pieris Project demonstrates the power of the public to aid scientists in collections-based research addressing important questions in invasion biology, and in ecology and evolutionary biology more broadly.
Keyphrases
- electronic health record
- endothelial cells
- mitochondrial dna
- climate change
- quality improvement
- cell migration
- risk assessment
- heavy metals
- induced pluripotent stem cells
- public health
- pluripotent stem cells
- healthcare
- copy number
- mental health
- emergency department
- gene expression
- machine learning
- wound healing
- fine needle aspiration