What鈥檚 Got Bird Beaks in a Twist?

Thanks to a major lead, scientists are hot on the trail of a never-seen disease, which could help them crack a cold case wide open.

Colleen Handel has been wrestling with a mystery for almost 20 years, and it all started with an innocent phone call from a friend.

鈥淚t was really a serendipitous thing,鈥 saysHandel, a biologist at the . In February 1998, her friend and colleague Sandy Talbot spotted a trio of Black-capped Chickadees at her home in Anchorage鈥攁 typical backyard scene, except there was something almost cartoonish about the birds. Their beaks were deformed, overgrown, and curved like pieces of elbow macaroni. Talbot called Handel and asked if she wanted to come take a look.

Based on their conversation, Handel didn鈥檛 think the deformities were unprecedented. Beaks get distorted every now and again: A birth defect or a collision with a window can cause them to grow in a weird way. But she did think it was interesting that three different birds all had similar deformities in the same area. She planned to go over and see the odd birds, but before she could, one came to her. When she opened up the Sunday edition of the Anchorage Daily News a few weeks later, there was a photo sent in by a reader of another chickadee with a warped beak.

The image had been taken in Big Lake, about 30 miles away from Talbot鈥檚 yard. 鈥滐豢I knew that chickadees are resident species and they have very small territories to which they're very faithful,鈥 Handel says, 鈥渟o two sightings a fair distance apart but in the same general region should merit some attention.鈥

Handel and a few other researchers from the Alaska Science Center went back to Talbot鈥檚 yard to catch one of the little mutants. 鈥淲e took a pretty close look at it and saw that this was really an unusual situation, and decided we better find out if there were more of these birds,鈥 Handel says. They put the word out in the local 爆料公社 newsletter and birding listservs, asking people to report any strange beak sightings. That opened up the floodgates. 鈥淚 was blown away by people calling and reporting birds all over south-central Alaska with these abnormalities,鈥 Handel says. This time it wasn鈥檛 just chickadees, but crows, magpies, nuthatches, and other species, too.

鈥淓veryone, when they were seeing their birds in their backyards, thought 鈥榦h, well this is kind of weird, but these things happen.鈥 It wasn't until we started putting together the big picture that we realized that this was significant,鈥 says Handel.

In the 18 years since, the number of affected birds has grown, the deformities have spread, and the mystery has deepened as Handel and her collaborators have struggled to find the culprit behind the Alaskan twisted-beak trend.

The Rise of an Epidemic

A year after the mutants were first noted, Handel and other researchers at the Alaska Science Center started the to monitor birds in south-central and southeast Alaska for what they started calling 鈥渁vian keratin disorder.鈥 Citizen scientists were recruited to set up nest boxes鈥攂uilt by Anchorage high school students in woodshop classes鈥攊n yards, parks, and rural areas so that chickadees could be captured and examined. The researchers also captured crows around Anchorage and several other coastal cities. They estimated that 6.5 percent of the state鈥檚 adult Black-capped Chickadee population was affected. The disorder was even more prevalent in Northwestern Crows, hitting around 17 percent of the adults.

These numbers far exceeded the background rate, or the level of anomalies seen under normal conditions, saysCaroline Van Hemert, a biologist who鈥檚 been working on the Beak Deformities Project since 2006. In total, the researchers have documented avian keratin disorder in more than 2,500 individuals belonging to 30 different species in Alaska, making this, they say, the ever recorded among wild bird populations.

Meanwhile, reports of similar mutations in dozens of other species trickled in from other parts of Alaska, the Pacific Northwest, and well beyond. 鈥淭here have been clusters in several species of tits and rooks in the United Kingdom; there have been clusters of crows reported from India and Southeast Asia; and a number of species from South America,鈥 Handel says. 鈥淎nytime you get a cluster, it raises a red flag. Whether or not these are all caused by the same thing, we don鈥檛 know, but it puts a different, global perspective on things.鈥

The severity of the defects varies between individuals. Some birds look like they have a slight overbite or underbite. In others, the upper or lower parts of the beak can grow to double their normal length and criss cross or curve to the side. The effects aren鈥檛 merely aesthetic: Disfigured birds have difficulty feeding and preening, making it harder for them to maintain weight and keep warm during the winter. 鈥淏irds with deformities also have more compromised health overall,鈥 Van Hemert says. They鈥檙e more vulnerable to infections and illnesses like avian malaria, and have lower breeding success.

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Ruling Out Suspects

After realizing how severe and widespread the problem was, the team began hunting for an explanation. Since the sightings were first concentrated in a small area, they thought an environmental contaminant might be responsible. The adult chickadees, nestlings, eggs, and local supplies of bird seed for a wide range of contaminants. While they found that deformed adult birds had certain contaminants in their blood that resulted in chromosome damage, the concentrations of those contaminants were low. Plus, none of them had ever been linked to beak or keratin problems.

Other leads the group chased and ruled out include: nutritional deficiencies, fungal, bacterial, parasitic infections, and a heap of known viruses and diseases, like psittacine beak and feather disease, avian polyomavirus, and circovirus.

鈥淚t's been a really interesting ride down some blind alleys, and we found out some really fascinating things about these birds; but at this point we still don't know what鈥檚 causing the beak abnormalities,鈥 Handel says. 鈥淲hen I first started out, I thought, 鈥榦h we'll figure this out right away.鈥 She鈥檚 now approaching 20 years of work on the disorder鈥攁ll on top of her regular research for USGS.

While the slog has been frustrating, the researchers aren鈥檛 ready to give up. 鈥淚鈥檒l go through periods when I think it鈥檚 time to move on and I feel ready to write it off. But it doesn鈥檛 take more than going out in the field and seeing these birds with these grossly overgrown beaks to know it鈥檚 not going away,鈥 Van Hemert says.

鈥淐aroline and Colleen have worked their asses off,鈥 says Bud Anderson, a biologist with the in Washington, who has been tracking similar deformities in raptors and sharing his reports with Alaskan team. 鈥淚 think that those two are two of the most dedicated biologists I know."

A Break in the Case

There were no rewarding 鈥渁 ha鈥 moments in the investigation鈥攗ntil 2010, when San Francisco-based biologistJack Dumbacher provided a tip that may prove to be a gamechanger. He introduced Handel and her crew to a cutting-edge method for DNA analysis that鈥檚 allowing them to look for viruses they didn鈥檛 even know existed.

The latest expert on the case is Maxine Zylberberg, a post-doc at the University of California, San Francisco, who previously worked with Dumbacher on avian disease research. With traditional sequencing, scientists search for specific pieces of DNA or RNA in a biological sample, she says. 鈥淚f you had a reason to suspect that a pox virus was causing a disease or if an individual was infected with a pox virus, you could target a sequence that you know is pox virus-specific and amplify it,鈥 Zylberberg says. 鈥淏ut to do that you really need to know the exact sequence you're looking for.鈥

The newer method, known as deep sequencing, doesn鈥檛 require such meticulous search parameters. Instead, it takes all the genetic material in a sample (in this case, a ground-up bird beak), breaks it down into millions of pieces, and then sequences all of those pieces at once. Zylberberg compared the sequences she found in Handel鈥檚 shipments to databases of everything else that's ever been sequenced鈥攁nimals, bacteria, viruses, etc. That's when she realized that her samples appeared to have a completely novel virus that's related to a group called the avian picornaviruses.

That virus, which has been dubbed poecivirus (after the genus that Black-capped Chickadees belong to, Poecile), is starting to look like the leading candidate behind avian keratin disorder. In published this week, Zylberberg, Handel, and other researchers screened both Black-capped Chickadees with or without deformities for poecivirus. All the bad-beaked chickadees tested positive, while less than 25 percent of the normal birds were infected. Two Northwestern Crows and two Red-breasted Nuthatches with the disorder were also confirmed to be viral.

As more proof pours in, the team will begin testing how poecivirus is causing the deformities鈥攁 vital step toward developing a treatment and preventative measures. And if it doesn鈥檛 turn out be the right culprit? 鈥淭he simplest explanation is usually the best and right one, but we're quickly running out of those straightforward answers,鈥 Handel says.

鈥淚t鈥檚 like a little Sherlock Holmes mystery,鈥 she notes, 鈥渂ut we don鈥檛 know how long this book is and how close we are to the ending. I hope we figure it out pretty quickly.鈥