Re: USGS Release: Genetics Provide Evidence for the Movement of Avian Influenza Viruses from Asia to North America via Migratory Birds (10/27/2008 11:49:09 AM)

Genetics Provide Evidence for the Movement of Avian Influenza Viruses from Asia to North America via Migratory Birds
Released: 10/27/2008 11:49:09 AM
<TABLE cellSpacing=4 cellPadding=2 border=0><TBODY><TR><TD vAlign=top width="50%">Contact Information:
U.S. Department of the Interior, U.S. Geological Survey
Office of Communication
119 National Center
Reston, VA 20192</TD><TD vAlign=top width="50%">Catherine Puckett
Phone: 352-264-3532

Dirk Derksen
Phone: 907-786-7061

John Pearce
Phone: 907-786-7094

</TD></TR></TBODY></TABLE>
<HR width="100%" SIZE=1>Editors: Please see this press release at the USGS Newsroom for downloadable, copyright-free photos: http://www.usgs.gov/newsroom/
<!--introstart-->Wild migratory birds may be more important carriers of avian influenza viruses from continent to continent than previously thought, according to new scientific research that has important implications for highly pathogenic avian influenza virus surveillance in North America.<!--introend-->
As part of a multi-pronged research effort to understand the role of migratory birds in the transfer of avian influenza viruses between Asia and North America, scientists with the U.S. Geological Survey (USGS), in collaboration with the U.S. Fish and Wildlife Service in Alaska and the University of Tokyo, have found genetic evidence for the movement of Asian forms of avian influenza to Alaska by northern pintail ducks.
In an article published this week in Molecular Ecology, USGS scientists observed that nearly half of the low pathogenic avian influenza viruses found in wild northern pintail ducks in Alaska contained at least one (of eight) gene segments that were more closely related to Asian than to North American strains of avian influenza.
It was a highly pathogenic form of the H5N1 avian influenza virus that spread across Asia to Europe and Africa over the past decade, causing the deaths of 245 people and raising concerns of a possible human pandemic. The role of migratory birds in moving the highly pathogenic virus to other geographic areas has been a subject of debate among scientists. Disagreement has focused on how likely it is for H5N1 to disperse among continents via wild birds.
"Although some previous research has led to speculation that intercontinental transfer of avian influenza viruses from Asia to North America via wild birds is rare, this study challenges that," said Chris Franson, a research wildlife biologist with the USGS National Wildlife Health Center and co-author of the study. Franson added that most of the previous studies examined bird species that are not transcontinental migrants or were from mid-latitude locales in North America, regions far removed from sources of Asian strains of avian influenza.
Scientists with the USGS, in collaboration with the U.S. Fish and Wildlife Service, state agencies, and Alaska native communities, obtained samples from more than 1,400 northern pintails from locations throughout Alaska. Samples containing viruses were then analyzed and compared to virus samples taken from other birds in North America and Eastern Asia where northern pintails are known to winter. Researchers chose northern pintails as the focus of the study because they are fairly common in North America and Asia, they are frequently infected by low pathogenic avian influenza, and they are known to migrate between North America and Asia. None of the samples were found to contain completely Asian-origin viruses and none were highly pathogenic.
"This kind of genetic analysis - using the low pathogenic strains of avian influenza virus commonly found in wild birds - can answer questions not only about the migratory movements of wild birds, but the degree of virus exchange that takes place between continents, provided the right species and geographic locations are sampled," said John Pearce, a research wildlife biologist with the USGS Alaska Science Center and co-author of the study. "Furthermore, this research validates our current surveillance sampling process for highly pathogenic avian influenza in Alaska and demonstrates that genetic analysis can be used as an effective tool to further refine surveillance plans across North America, Pearce added.
Website for USGS northern pintail avian influenza research:
http://alaska.usgs.gov/science/biology/avian_influenza/pintail_movements.html
Implications of the Research:

• Migratory bird species, including many waterfowl and shorebirds, that frequently carry low pathogenic avian influenza and migrate between continents may carry Asian strains of the virus along their migratory pathways to North America.
• USGS researchers found that nearly half of influenza viruses isolated from northern pintail ducks in Alaska contained at least one of eight virus genes that were more closely related to Asian than North American strains. None of the samples contained completely Asian-origin viruses and none were highly pathogenic forms that have caused deaths of domestic poultry and humans.
• The central location of Alaska in relation to Asian and North American migratory flyways may explain the higher frequency of Asian lineages observed in this study in comparison to more southerly locations in North America. Thus, continued surveillance for highly pathogenic viruses via sampling of wild birds in Alaska is warranted.

Future surveillance for avian influenza in wild birds should include the type of genetic analyses used in this study to better understand patterns of migratory connectivity between Asia and North America and virus ecology.
<TABLE width=565 border=0><TBODY><TR><TD style="TEXT-ALIGN: center"></TD><TD> </TD><TD style="TEXT-ALIGN: center"></TD></TR><TR><TD vAlign=top>A male Northern Pintail duck in Japan. Photo courtesy of the USGS</TD><TD> </TD><TD>Dr. Hiroyoshi Higuchi (left), Mr. Ken-ichi Tokita (right), and other cooperators from the University of Tokyo, work with USGS scientists to attach a satellite transmitter to the backs of Northern Pintail Ducks on wintering areas of Northern Honshu, Japan. Transmitters are used to evaluate their movements, migration, and areas of overlap with North American Northern Pintails. Photo courtesy of USGS</TD></TR><TR><TD style="TEXT-ALIGN: center"></TD><TD> </TD><TD style="TEXT-ALIGN: center"></TD></TR><TR><TD vAlign=top>A flock of wintering northern pintail ducks takes flight in Northern Honshu, Japan. Photo courtesy of USGS</TD><TD> </TD><TD>A flock of wintering northern pintail ducks in Northern Honshu, Japan. Photo courtesy of USGS</TD></TR><TR><TD style="TEXT-ALIGN: center"></TD><TD> </TD></TR><TR><TD vAlign=top>A resident of Iwate Prefecture feeds a wintering flock of northern pintail ducks and Whooper Swans in Northern Honshu, Japan. In spring of 2008, both of these species occurred on wetlands in Japan where the highly pathogenic H5N1 strain of avian influenza was detected and several swans died from exposure to the virus. Photo courtesy of USGS</TD><TD> </TD></TR></TBODY></TABLE>

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Re: USGS Release: Genetics Provide Evidence for the Movement of Avian Influenza Viruses from Asia to North America via Migratory Birds (10/27/2008 11:49:09 AM)

Is "we knew it all along" waiting in the wings?

Re: USGS Release: Genetics Provide Evidence for the Movement of Avian Influenza Viruses from Asia to North America via Migratory Birds (10/27/2008 11:49:09 AM)

See posts by Dr. Niman, made starting 9-23-2006, Subject: Alaska sequences. He traces the Asian backgrounds of internal segments of H3N8 found in Mallards and pintails in Alaska.



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Re: USGS Release: Genetics Provide Evidence for the Movement of Avian Influenza Viruses from Asia to North America via Migratory Birds (10/27/2008 11:49:09 AM)

Now they need to test the Northern Wheatears that winter in Ivory Coast & Senegal, then fly through Turkey, Armenia, etc. clear to Alaska, Yukon, and the eastern Northwest Territory. Would those contains part of Egyptian sequences?

Then they could test Bluethroats, who winter in eastern Africa through India, and fly to the NW coast of Alaska. Perhaps those would match Bangladesh and India sequences.

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Re: USGS Release: Genetics Provide Evidence for the Movement of Avian Influenza Viruses from Asia to North America via Migratory Birds (10/27/2008 11:49:09 AM)

Genetic evidence for avian influenza movement from Asia to North America via wild birds [EurekAlert]
<cite cite="http://www.eurekalert.org/pub_releases/2008-10/usgs-gef102708.php">Genetic evidence for avian influenza movement from Asia to North America via wild birds</cite>

Re: U.S. Geological Survey; Genetics Provide Evidence for the Movement of Avian Influenza Viruses from Asia to North America via Migratory Birds

Hat tip Senior Moderator Scott McPherson -



Everything's eventual

Posted on Friday, October 31, 2008 at 01:29PM

Study suggests migratory wildfowl may eventually bring bird flu to North America.

A study by the U.S. Geological Survey (USGS) alongwith researchers at the U.S. Fish and Wildlife Service in Alaska and the University of Tokyo has confirmed the common transfer of avian influenza from Asia to North America via Alaska.

Migratory flyways with Asia and Alaska as their common points of intersection carry ducks back and forth among the two continents. Gene segments from Alaskan pintail ducks confirms gene segments from Asian low pathogenic avian influenza (LPAI) instead of American LPAI.

Northern pintails were selected because of their proclivity for acquiring LPAI. More than 1,400 pintails were tested and roughly half had gene segments from Asian LPAI.

"Although some previous research has led to speculation that intercontinental transfer of avian influenza viruses from Asia to North America via wild birds is rare, this study challenges that," said Chris Franson, a research wildlife biologist with the USGS National Wildlife Health Center and co-author of the study.

The complete article and links can be found at:


These findings are huge in their implication. First, it completely validates the importance of surveillance, and specifically the huge surveillance effort taking place in Alaska. The surveillance effort is so detailed and comprehensive up north that even prison inmates have been trained on how to report dead birds found on prison grounds.

It also makes a very strong case for increased surveillance everywhere and along all flyways that lead from Asia and Eurpoe into North America.
Finally, it validates all those maps and charts we use in our pandemic presentations regarding the migration of wildfowl and the eventual findings of H5N1.
Fortress America -- the nation/continent protected from foreign enemies by the massive expanse of oceans -- was a myth first debunked the morning of 9/11/01. Its second debunking will surely happen within the bellies and intestines of migrating birds coming from Siberia toward Alaska.

Re: USGS Release: Genetics Provide Evidence for the Movement of Avian Influenza Viruses from Asia to North America via Migratory Birds (10/27/2008 11:49:09 AM)

The testing done by prisoners worked out because their prison is located in/near wetlands of the Pacific flyway.

I am concerned that the testing funding may be cut, with obvious implications. The costs to fly researchers out of various remote testing sites is very high.

While the MSM reports that Alaskans get the most federal money per capita, what they don't report is that most (>half) goes to federal employees. The actual transfers to individuals is below the national average. It will be difficult to cut most of the federal money, as it goes to military (1/3 of total), parks, & obligations for native health. Federal programs for wildlife management/research may be on the chopping block.

I recently visited the Alaska Islands & Ocean Visitor Center and while I enjoyed it, I worry it's shorebird research programs could easily be eliminated. Associated agencies like Alaska Maritime National Wildlife Refuge are involved with 40 sea and migratory bird species.

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Re: USGS Release: Genetics Provide Evidence for the Movement of Avian Influenza Viruses from Asia to North America via Migratory Birds (10/27/2008 11:49:09 AM)


Our results show detection of foreign lineage gene segments to be most likely
at sample locations on the Alaska Peninsula and least likely along the
Southern Alaska Coast. Asian lineages detected at four gene segments
persisted across years, suggesting maintenance in avian hosts that
migrate to Alaska each year from Asia or in hosts that remain in Alaska
throughout the year. Alternatively, live viruses may persist in the
environment and re-infect birds in subsequent seasons. Published by Elsevier Inc.