PT  - JOURNAL ARTICLE
AU  - Didem P. Sarikaya
AU  - Samuel H. Church
AU  - Laura P. Lagomarsino
AU  - Karl N. Magnacca
AU  - Steven Montgomery
AU  - Donald K. Price
AU  - Kenneth Y. Kaneshiro
AU  - Cassandra G. Extavour
TI  - Reproductive capacity evolves in response to ecology through common developmental mechanisms in Hawai’ian &lt;em&gt;Drosophila&lt;/em&gt;
AID  - 10.1101/470898
DP  - 2018 Jan 01
TA  - bioRxiv
PG  - 470898
4099  - http://biorxiv.org/content/early/2018/11/16/470898.short
4100  - http://biorxiv.org/content/early/2018/11/16/470898.full
AB  - Lifetime reproductive capacity, or the total number of offspring that an individual can give rise to in its lifetime, is a fitness component critical to the evolutionary process. In insects, female reproductive capacity is largely determined by the number of ovarioles, the egg-producing subunits of the ovary. Recent work has provided insights into the genetic and environmental control of ovariole number in Drosophila melanogaster. However, whether regulatory mechanisms discovered under laboratory conditions also explain evolutionary variation in natural populations is an outstanding question. Here we report, for the first time, insights into the mechanisms regulating ovariole number and its evolution among Hawai’ian Drosophila, a large adaptive radiation of fruit flies in which the highest and lowest ovariole numbers of the genus have evolved within 25 million years. Using phylogenetic comparative methods, we show that ovariole number variation among Hawai’ian Drosophila is best explained by adaptation to specific oviposition substrates. Further, we show that evolution of oviposition on ephemeral egg-laying substrates is linked to changes the allometric relationship between body size and ovariole number. Finally, we provide evidence that the developmental mechanism principally responsible for controlling ovariole number in D. melanogaster also regulates ovariole number in natural populations of Hawai’ian drosophilids. By integrating ecology, organismal growth, and cell behavior during development to understand the evolution of ovariole number, this work connects the ultimate and proximate mechanisms of evolutionary change in reproductive capacity.