When Anders M酶ller stumbled across a century-old paper describing sperm-milking techniques for artificially breeding budgies, he knew he was on to something good. Although sperm harvesting鈥攚hich involves gently pressing on the muscles around a male bird鈥檚 cloaca, causing a contraction that triggers (nonconsensual) ejaculation鈥攊s practically an art among turkey and chicken farmers, it鈥檚 not a skill taught at ornithology school.
As with any other skill, practice makes perfect, so M酶ller鈥攁n evolutionary biologist and research director of the French National Center for Scientific Research鈥攂egan experimenting in the field with some very unhappy males. 鈥淚n the early years, half of his attempts led to something other than semen being produced,鈥 says Timothy Mousseau, a biologist at the University of South Carolina and M酶ller鈥檚 longtime collaborator. 鈥淭he samples were just filled with shit.鈥
Thousands of, er, massages later, M酶ller is now a pro. He recently put that skill to good use in Chernobyl, site of the world鈥檚 worst nuclear accident, in 1986. There his team has built the largest avian sperm dataset ever collected in the field. Contrary to media claims that Chernobyl鈥檚 wildlife is thriving, detailed scientific surveys show that birds and other wildlife in the area鈥檚 most contaminated tracts have suffered from mutations and population declines, and that some species have disappeared entirely. Studies have shown that men exposed to radiation from the Chernobyl catastrophe have fewer and less mobile sperm, but this is first such investigation in multiple bird species.
Over two years, the researchers used mist nets to capture 566 male birds from 46 passerine species. They sampled eight study sites in Chernobyl and the surrounding forests, with background radiation levels ranging over three orders of magnitude, from levels lower than those that occur in Central Park to ones hot enough to cause fatal cancers. M酶ller would coax out a few precious drops of sperm, release the birds, and immediately analyze the samples for sperm speed, mobility, and density using a microscope at the team's impromptu field station.
The sperm鈥檚 health and behavior, they , varied wildly between species. Their samples ranged from no sperm, to deformed or sluggish swimmers, to sperm that appeared perfectly normal. 鈥淩adiation clearly affected many of these birds, but in different ways,鈥 Mousseau says.
In highly contaminated sites, nearly 18 percent of samples contained no sperm, compared with just 3 percent in radiation-free zones. According to the authors鈥 calculations, birds trapped in the contaminated areas were almost nine times more likely to fire blank shots than those found in control sites. At one particularly hot site, samples from 44 birds, or 40 percent of those tested, didn鈥檛 have a single sperm.
Mathieu Giraudeau, an evolutionary ecologist at the University of Zurich, says the study is an important contribution to our understanding of radiation鈥檚 effects on birds, echoing most outside experts interviewed for this story*. 鈥淭he decrease of sperm quality, or even the aspermy of many birds in contaminated areas, could be a major factor explaining the decline in wild bird populations in Chernobyl,鈥 says Giraudeau, adding that more tests, conducted under controlled lab settings, are needed to verify the link.
Pierre Deviche, a professor of environmental physiology at Arizona State University, praised the paper, although he says he would have liked to have seen the authors dig into the differences between species. Do long-lived birds have more damaged sperm, for instance, or do migratory species have lower aspermy rates? 鈥淪urprisingly, the authors do not address this important issue to any significant extent,鈥 he says.
But other scientists are less convinced. One, Christelle Adam-Guillermin, head of the Laboratory of Radionuclide Ecotoxicology at IRSN in France, questions the study鈥檚 methodology. Adam-Guillermin points out that the researchers based their statistics on ambient radiation levels in the environment rather than on each bird鈥檚 absorbed dose, or the amount of radiation it鈥檚 exposed to both internally and externally.
That鈥檚 something the team has been investigating in hundreds of birds and mammals at Chernobyl and , the site in Japan where, in 2011, a local nuclear plant鈥檚 six reactors disastrously melted down. They attached miniature dosimeters the animals鈥 bodies for external readings and measured internal doses via a portal gamma spectroscopy lab. 鈥淥verall, there is a very good relationship between measured internal dose, external dose, and ambient radiation levels,鈥 Mousseau says, adding that he plans to publish those results soon.
This latest sperm study builds on the team鈥檚 showing that wild Barn Swallows鈥 sperm quality significantly decreases in contaminated areas. But the scientists鈥 work is revealing that there鈥檚 likely no single way birds respond to nuclear disasters. , for example, they reported that several species鈥攊ncluding Tree Pipits, Black Redstarts, and European Robins鈥攕eem to be adapting to Chernobyl鈥檚 radiation. Yet the team has also found that overall bird populations in contaminated areas are ; that Barn Swallows living there ; and that sex ratios .
Which organisms will adapt to what and when are complex questions that need to be teased out with further studies. Mousseau, M酶ller, and their colleagues are likely the ones who will continue tackling the challenge, building on their two decades of work鈥攁nd 60 papers鈥攁ddressing radiation鈥檚 impact on creatures ranging from spiders to fungus. After all, says Mousseau, the Fukushima meltdown has shown the world that additional nuclear accidents are possible. If and when others happen, today鈥檚 radiation investigations could better prepare us to deal with the fallout.
*Three experts declined to comment on the study. Some in the evolutionary ecology field see M酶ller as a black sheep since a in which a Danish research committee discovered that one of M酶ller鈥檚 1998 papers contained data that didn't support the conclusions. (M酶ller claims it was an inadvertent mistake, others disagree.)