“This research is important because it gives us a new way of looking at the transmission of diseases, and shows us that human health is affected by the local ecology, and by landuse practices,” said Michael Bowers, program director in the National Science Foundation (NSF)’s division of environmental biology, which funded the research.
White-footed mice, for example, are more abundant in forest fragments in some parts of the country, likely because fewer predators and competitors remain there. These mice are particularly abundant in patches smaller than about five acres, which could spell trouble for people living nearby: the mice are the main carriers of Lyme disease-causing bacteria. In eastern and central United States, Lyme disease is contracted via blacklegged ticks that feed on infected mice, and then transmit the bacteria when the ticks bite people. As a result, said Keesing, Lyme disease is concentrated in areas where people live near forests with blacklegged ticks.
To find out whether forest patchiness could increase the risk of Lyme disease, Keesing and colleagues Brian Allan of Rutgers University in New Brunswick, NJ, and Richard Ostfeld of the Institute of Ecosystem Studies in Millbrook, NY, studied blacklegged ticks in 14 forest patches made up mostly of maple trees, and ranging from 1.7 to about 18 acres, in Dutchess County. Dutchess County, located in southeastern New York, is now the location with the highest number of people infected with Lyme disease in the United States.
The researchers found that smaller forest fragments had more infected ticks, which could translate to more Lyme disease. Forest patches that were smaller than three acres had an average of three times as many ticks than did larger fragments and seven times more infected ticks. As many as 80 percent of the ticks in the smallest patches were infected, the highest rate the scientists have seen. Although larval ticks hatch in an uninfected condition, they promptly seek a blood meal. In small forest patches, that meal will likely come from white-footed mice, said Keesing.
"Our results suggest that efforts to reduce the risk of Lyme disease should be directed toward decreasing fragmentation of deciduous forests of the northeastern United States into small patches, particularly in areas with a high incidence of Lyme disease," said Keesing. "The creation of forest fragments smaller than five acres should especially be avoided."
The scientists’ results were published in the February 2003 issue of the journal Conservation Biology.
NSF Program Officer: Michael Bowers, (703) 292-8481, mbowers@nsf.gov
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