http://www.vetmed.ucdavis.edu/whc/wnv.cfm
University
of California, Davis
June 29, 2004
WEST
NILE VIRUS COULD BE SERIOUS THREAT TO SOME WILDLIFE
A report
released today by wildlife health experts at the University of California,
Davis, warns that West Nile virus could pose a serious threat to some
species, especially rare and endangered birds, and encourages officials
to broaden existing monitoring efforts to track the virus's movement
in the state.
Prepared
by a team led by Walter Boyce, director of the UC Davis Wildlife Health
Center, at the request of the California Department of Fish and Game,
the report predicts where West Nile virus poses the greatest risk to
wildlife by examining mosquito abundance in relation to bird species
that "amplify" the virus and the location of rare amphibians,
reptiles, birds and mammals.
Areas
of greatest concern are the Central Valley, coastal regions, western
Sierra Nevada, the Salton Sea and the lower Colorado River basin. However,
with the current limited knowledge of West Nile virus, it's nearly impossible
to know which species may be hardest hit.
"Some
level of mortality due to West Nile virus will occur in a substantial
number of different bird species in these areas," Boyce said. "Just
which ones we can't say with certainty. There is so much we don't know
about this pathogen. The species that concern us most are those that
have limited distribution overall or a limited population in areas with
high numbers of mosquitoes."
For example,
yellow-billed magpies are not listed as threatened or endangered. However,
their distribution is limited to the Central Valley, an area high in
mosquitoes, which puts magpies at risk. Furthermore, they may be subject
to high levels of mortality because they belong to the highly susceptible
family of birds that includes crows and jays.
The UC
Davis report includes a series of maps that vividly depict where West
Nile virus poses risks to various groupings of wildlife species. Included
in these geographic information system (GIS) maps are 27 birds such
as the brown pelican, California condor and sandhill cranes; 21 mammals
such as the kit fox, wolverine and bighorn sheep; 10 amphibians such
as the Shasta salamander, black toad and red-legged frog; and 10 reptiles
such as the desert
tortoise, barefoot gecko and giant garter snake.
The geographic
overlap of abundant and rare bird species creates a situation that may
increase the threat. Locally dense populations of crows are of particular
concern because they raise the risk of infection for other, less common
birds in the same area. Most of the dead birds found to be infected
with West Nile virus have been crows -- nearly 500 already in California
this year. Crows and related birds such as jays, magpies and ravens,
as well as house finches, house sparrows and ring-billed gulls are considered
likely amplifying hosts that are key, abundant sources of the virus.
"The ability of West Nile virus to move within a given area is
strongly influenced by the presence of hosts that serve as a source
of virus for mosquitoes," Boyce said. "We may see local 'hotspots'
of disease around areas with large numbers of susceptible hosts, such
as crow roosts."
The virus,
first detected in mosquitoes near the Salton Sea in July 2003, is expected
to move into the northern part of the state this year. Ten people and
four horses have been diagnosed with West Nile virus in California as
of June 29.
Little
is known about the impact of West Nile virus on free-ranging wildlife
populations since its introduction to North America in 1999. It has
killed individuals in more than 200 species of native and exotic birds
and 20 species of mammals. The threat to reptiles and amphibians is
not believed to be as great as for birds because the mosquito species
that feed on them rarely feed on birds.
"The
options for managing West Nile virus in California wildlife are limited,"
Boyce said. "Wildlife, especially birds, and people in over two-thirds
of the state are at risk of exposure, but the few preventive measures
that are available are primarily useful for people or domestic animals."
Mosquito
control, the cornerstone of the public health response plan, may also
be an important tool for managing West Nile virus in wildlife. The report
encourages wildlife managers to work closely with vector-control personnel
to maximize benefits for people and wildlife and to minimize negative
impacts. Pesticides used to control adult mosquitoes, for instance,
must be prescribed carefully to avoid killing other wildlife.
"Disease
surveillance and monitoring are key management actions," Boyce
says, "and they must be extended beyond collecting dead birds.
Other states haven't done this and that's one reason why the effects
of West Nile virus on wildlife are still largely unknown."
The California
Department of Fish and Game, as well as other organizations, should
take an active role in educating the public about West Nile virus in
wildlife, the report recommends. "All segments of the population
need to have access to good information whether it is hunters wondering
about the safety of game, residents who find dead birds in their yards,
or anyone wondering about the effect of vector control on wildlife."
Monitoring
efforts should focus on estimating West Nile exposure and mortality
in bird populations and other monitored wildlife. Animal species that
are already the focus of ongoing studies may provide better monitoring
opportunities than those that have no existing research personnel or
baseline information.
By the
end of July, Boyce and other researchers from the UC Davis Wildlife
Health Center will be tracking crows, jays and magpies in the Davis
area with radio transmitters as part of a study to monitor West Nile
virus. Radiotelemetry is identified specifically in the report as a
good method of determining what happens to wildlife during a disease
outbreak.
The report
emphasizes that this analysis is a necessary first step in evaluating
the impact of West Nile virus on California wildlife. However, it should
be viewed as preliminary. "There is so much we don't know -- I
am sure we are in for some surprises," Boyce said.
The UC
Davis report, "Potential Effects of West Nile Virus (WNV) on California
Wildlife," can be viewed online at http://www.wildlifehealthcenter.org.
Additional
information:
UC Davis Wildlife Health Center http://www.wildlifehealthcenter.org
UC Davis experts on West Nile virus
http://www-news.ucdavis.edu/search/news_detail.lasso?id=6590
UC Davis advice for horse owners
http://www-pubcomm.ucdavis.edu/search/news_detail.lasso?id=6300
California Fish & Game advice for hunters http://www.dfg.ca.gov/news/news03/03082.html
California Health Services West Nile Web site http://www.westnile.ca.gov
Media contact(s):
* Walter Boyce, UC Davis Wildlife Health Center, (530) 752-1401, wmboyce@ucdavis.edu
*Troy Swauger, California Department of Fish and Game Public Affairs,
(916) 654-2096
* Ken August, California Department of Health Services Public Affairs,
(916) 440-7660
* John Stumbos, UC Davis News Service, (530) 754-2261, jdstumbos@ucdavis.edu
* Sylvia Wright, UC Davis News Service, (530) 752-7704, swright@ucdavis.edu
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