TY - JOUR T1 - A resurrection experiment finds evidence of both reduced genetic diversity and potential adaptive evolution in the agricultural weed <em>Ipomoea purpurea</em> JF - bioRxiv DO - 10.1101/024950 SP - 024950 AU - Adam Kuester AU - Ariana Wilson AU - Shu-mei Chang AU - Regina S. Baucom Y1 - 2016/01/01 UR - http://biorxiv.org/content/early/2016/04/09/024950.abstract N2 - Despite the negative economic and ecological impact of weeds, relatively little is known about the evolutionary mechanisms that influence their persistence in agricultural fields. Here, we use a resurrection ecology approach and compare the genetic and phenotypic divergence of temporally sampled seed progenies of Ipomoeapurpurea, an agricultural weed that is resistant to glyphosate, the most widely used herbicide in current-day agriculture. We found striking reductions in allelic diversity between cohorts sampled nine years apart (2003 vs 2012), suggesting that populations of this species sampled from agricultural fields have experienced genetic bottleneck events that have led to lower neutral genetic diversity. Heterozygosity excess tests indicate that this bottleneck may have occurred prior to 2003. Further, a greenhouse assay of individuals sampled from the field as seed found that populations of this species, on average, exhibited modest increases in herbicide resistance over time. Our results show that populations of this noxious weed, capable of adapting to strong selection imparted by herbicide application, may lose genetic variation as a result of this or other environmental factors. We likely uncovered only modest increases in resistance between sampling cohorts due to a strong and previously identified fitness cost of resistance in this species, along with the potential that non-resistant migrants germinate from the seed bank. ER -