Authors: Samantha Curnow, Carl Hjelmen
Mentors: Carl Hjelmen
Insitution: Utah Valley University
The genome sizes of insects vary immensely; some insects have only 100 million base pairs, while others reach nearly 18 billion base pairs. Many selective pressures can have an influence on genomes, but we still lack a clear understanding of which selective pressures cause such variation in genome size even within well-studied groups. To determine the influence of environmental factors on this variation, we investigate the relationship between genome size and the average natural environment of 152 Drosophila species. The nature of the relationship between genome size and environmental factors is investigated using phylogenetic models and linear analyses such as phylogenetic generalized least squares analysis. We collected data from peer-reviewed papers and publicly available datasets, such as karyotype.org and WorldClim, to compare the genome size of each species to the temperature, altitude, humidity, etc. of their natural environments using linear phylogenetic models. The distribution of these species was also visualized using geographic and biological analysis packages in R, such as geodata, to extract environmental data of specified regions, and phytools in combination with caper to run phylogenetic comparative analyses.