Research News
White ibises may transmit diseases like salmonellosis
February 3, 2016
Find related stories on the NSF, National Institutes of Health and U.S. Department of Agriculture’s Ecology and Evolution of Infectious Diseases (EEID) program at this link.
In Native American folklore, the white ibis was the last animal to seek shelter before a hurricane, and the first to emerge after the storm. The ibis therefore symbolized the danger of an approaching storm, and also the safety after the maelstrom passed.
But now ibises may more often signal danger — at least in public parks.
People feeding white ibises in such places are turning wild birds into tame ones, scientists say. The researchers believe the practice may spread disease among ibises, and between ibises and humans.
The biologists are studying how hand-feeding is changing the health, ecology and behavior of white ibises in south Florida, where development is paving over the birds’ natural wetland habitats.
Shift in ibis behavior
White ibises usually prey on aquatic animals such as fish, snails and crayfish, but they’re becoming accustomed to bread, fast food and popcorn from people, says Sonia Hernandez, a veterinarian and ecologist at the University of Georgia (UGA).
The shift in behavior could have serious consequences not just for the ibises, says Hernandez, but also for people. It may allow pathogens transmitted through feces, like salmonella, to build up and pose risks for both birds and humans.
“We found that the strains of salmonella bacteria white ibises are infected with are the same ones people get sick from, especially in Florida,” Hernandez says. “Because white ibises fly from urban to natural environments fairly easily, they could move these strains across large distances.”
White ibis infectious disease ecology
Hernandez is working with other UGA researchers on a white ibis project funded by the National Science Foundation’s (NSF) Ecology and Evolution of Infectious Diseases (EEID) Program. Additional UGA researchers involved are Jeff Hepinstall-Cymerman, Sonia Altizer, Richard Hall and Kristen Navara.
The findings will ultimately apply to other wildlife species that live alongside humans in public parks and similar landscapes, the scientists say.
“Our interactions with wildlife can enliven our cities, but they also carry the potential for increasing disease risk to wildlife and to us,” says Sam Scheiner, an EEID program director at NSF.
“This study will provide important information on the consequences of our interactions with ibises — and serve as a model for managing urban wildlife,” says Scheiner. “The research is the most comprehensive to date on how food resources in human-dominated habitats influence wildlife responses to infectious diseases.”
Global urbanization: the risks it carries
Urbanization is expanding across the globe, with two-thirds of the world’s people expected to live in cities within the next 40 years.
Development is causing many wildlife species to decline. Some species, however, are capitalizing on new urban resources, especially food provided by humans.
Shifts in wildlife ecology in response to intentional or accidental feeding by people can alter animals’ susceptibility to infectious diseases, says Hernandez.
“Human-altered diets might change the makeup of these species’ gut bacteria and increase their susceptibility to infection,” adds Scheiner.
Easier in a park
In their NSF EEID project, the researchers are focusing on white ibises in Palm Beach County, Florida, where Hernandez has monitored the birds since 2010.
White ibises live along the Atlantic coast as far north as North Carolina and on the Gulf Coast west to Louisiana. The birds are usually nomadic and spend much of their days searching for food.
Why expend energy searching for food when humans in parks will provide it? Because it’s an easy meal. “If white ibises have a reliable food source, they often form large flocks that stay year-round in one place,” says Altizer.
Increasing numbers of ibises in urban parks facilitate contact with animals the ibises wouldn’t normally encounter, like mallard ducks, gulls and other city birds that are disease reservoirs.
Urban vs. natural areas
The researchers are comparing six urban and six natural areas in Palm Beach County. They’re placing identification bands on captured birds before releasing them, tracking movements using GPS devices, recording basic data about each ibis marked, taking blood samples and collecting feces for salmonella testing.
The scientists are focusing on salmonella because it causes one of the most significant diarrheal diseases in people and results in mortality in young wading birds such as ibises.
“Urban ibises have extremely high levels of stress hormones and weak immune systems compared with other birds,” Navara says. “Ultimately, this could affect how pathogens, including salmonella, are transmitted among individual ibises and between the birds and humans.”
To date, the biologists have found that GPS-tracked ibises at urban sites move very little compared to those at natural sites. The prevalence of salmonella in ibises at urban sites, as well as salmonella in city water and soil, is higher than that in ibises and in the environment at natural sites, says Hernandez.
Soon the scientists will have further insights to offer. Their next fieldwork is planned for Feb. 10 to March 10, 2016. They will place GPS tracking devices on as many as 50 ibises in urban parks and 50 in natural areas.
The researchers hope the project will raise awareness about how “helping” wildlife species by feeding them may have unintended consequences. The findings will also lead to improved ways people and wildlife can share habitats in cities.
The result? Less danger in human-bird disease connections — and more optimism for our co-existence with wild species.
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Cheryl Dybas,
NSF
(703) 292-7734 cdybas@nsf.gov
—
Sandi Martin,
UGA
(706) 542-2079 smartin@warnell.uga.edu
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White ibises with spoonbills, wood storks and other wading birds in Florida’s Fisheating Creek.
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White ibises are abundant in Florida; the species has become synonymous with the Everglades.
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Biologists secure a backpack-style harness for a GPS transmitter on a white ibis.
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Researchers release a white ibis outfitted with a GPS transmitter as part of the NSF EEID project.
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Scientists take blood from an ibis for stress hormones, immune function and antibodies to pathogens.
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Investigators
Richard Hall
Sonia Altizer
Kristen Navara
Sonia Hernandez
Jeffrey Hepinstall-Cymerman
Related Institutions/Organizations
University of Georgia Research Foundation Inc
Related Programs
Ecology and Evolution of Infectious Diseases
Related Awards
#1518611 Consequences of Anthropogenic Resources for the Cross-Scale Dynamics of an Enteric Pathogen in an Avian Host
Total Grants
$1,222,344
Related Websites
NSF Special Report: Ecology and Evolution of Infectious Diseases: http://www.nsf.gov/news/special_reports/ecoinf/
NSF News: To slow the spread of infectious diseases, NSF, NIH, USDA support new research: http://www.nsf.gov/news/news_summ.jsp?cntn_id=136044&org=NSF
Source: NSF News
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