Biologists in Syracuse University’s College of Arts and Sciences have confirmed that reproductive isolation, a critical step in the formation of new species, can arise from diversifying sperm competition. Their findings, which have major implications for the study of biodiversity, are the subject of a groundbreaking article in the Oct. 7th issue of Current Biology (Elsevier, 2013).
Female promiscuity—something that occurs in a majority of species, including humans—results in the ejaculates from two or more males overlapping within her reproductive tract. When this happens, sperm compete for fertilization of the female’s eggs. In addition, the female has the opportunity to bias fertilization of her eggs in favor of one male’s sperm over others.
These processes, collectively known as postcopulatory sexual selection, drive a myriad of rapid, coordinated evolutionary changes in ejaculate and female reproductive tract traits. These changes have been predicted to be an important part of speciation, the process by which new biological species arise.
Until now, traits and processes that influence fertilization success have been poorly understood, due to the challenges of observing what sperm do within the female’s body and of discriminating sperm among different males. Almost nothing is known about what determines the sperm’s fate in hybrid matings where there may be an evolutionary mismatch between ejaculate and female reproductive tract traits.
Professor John Belote has overcome these challenges by genetically engineering closely related species of fruit flies with different colors of glow-in-the-dark-sperm. Working closely with Scott Pitnick, Mollie Manier, and other colleagues in SU’s Pitnick Lab, he is able to observe ejaculate-female interactions and sperm competition in hybrid matings.
“How new species arise is one of the most important questions facing biologists, and we still have a lot to learn,” says Pitnick, a professor in SU's Department of Biology, adding that the mechanisms maintaining the genetic boundary between species is difficult to pin down. “This paper [in Current Biology] is perhaps the most important one of my career. It has been six years in the making.”