College of Natural Resources, UC Berkeley

News & Events

April 8, 2004

Watch Where You Sit - Ticks Carrying Lyme Disease May Be on Logs

by Sarah Yang

Berkeley - After a long hike through some of California's forests, it may be tempting to rest on a log or lean against a tree. Wrong move, say researchers at the University of California, Berkeley, who found that such activities may increase the risk of acquiring ticks harboring the Lyme disease bacterium.

"We sat on logs for only five minutes at a time, and in 30 percent of the cases, it resulted in exposure to ticks," said Robert Lane, professor in the Division of Insect Biology at UC Berkeley's College of Natural Resources and lead investigator of the study. "It didn't matter if we sat on moss or the bare surface; the ticks were all over the log surface. The next riskiest behavior was gathering wood, followed by sitting against trees, which resulted in tick exposure 23 and 17 percent of the time, respectively."

The study, published in the current issue of the Journal of Medical Entomology, is the first quantitative analysis of human behaviors that may increase the risk of tick exposure in California's hardwood forests. The paper has come just weeks before the start of northwestern California's nymphal tick season, which begins in early spring and continues into summer.

The western black-legged tick, found primarily in the far western United States as well as in British Columbia, is the primary carrier of the corkscrew-shaped spirochete Borrelia burgdorferi, a bacterium named after its discoverer, Dr. Willy Burgdorfer. B. burgdorferi is responsible for Lyme disease, which can lead to debilitating symptoms in humans. Most human cases of Lyme disease in northwestern California appears to be transmitted by young nymphal ticks, which are notoriously difficult to detect because they are as small as poppy seeds.

Lane and study co-author Denise Steinlein, a UC Berkeley graduate student in insect biology, trekked through a hardwood forest at the UC Hopland Research and Extension Center in southeastern Mendocino County to conduct the field trials. The area, dominated by California black oak, is endemic for Lyme disease.

Jeomhee Mun, a UC Berkeley research specialist in insect biology, is another co-author of the paper.

Lane and Steinlein conducted the experiments on two back-to-back days in three consecutive weeks in 2002 between late May and mid-June. Decked out in white clothing from top to bottom, with pant legs tucked into white socks and seams sealed with duct tape, the researchers set out to learn how people might acquire nymphal ticks.

"If we're going to develop effective strategies and educational programs for the prevention of Lyme disease, it is critical that we understand how people are exposed to the ticks that transmit the bacteria in the first place," said Lane. "We intentionally looked at behaviors that people would typically engage in while spending time in the woods."

The researchers sat on logs, sat against trees, gathered wood, walked through leaves, sat still on leaf litter and sat and stirred up leaf litter for set amounts of time. Lane noted that turkey hunters can easily spend up to an hour or longer sitting with their backs against trees while trying to call in toms during the spring hunting season.

After each activity, in scenes strikingly reminiscent of primate grooming behavior, the researchers meticulously picked off and counted the ticks on their clothing and bodies. They also used an adhesive lint roller to pick up ticks that might otherwise have escaped their attention. All told, they found a total of 86 nymphal ticks on their bodies during the field trials.

"Activities that were riskiest involved considerable contact with wood," said Steinlein. "Of the six behaviors we analyzed, sitting still on leaf litter was the least riskiest behavior, resulting in tick exposure only eight percent of the time."

Why the difference between wood products and leaf litter? The clue may be in an important animal host for the larvae and nymphs of the western black-legged tick.

"The western fence lizard is an important host for the ticks, and the lizards often use logs in sunlit areas as basking sites," said Lane. "Nymphal ticks that are seeking hosts to feed upon may be going to the place where they'll have the greatest chance of finding a lizard. Humans or pets that happen to come along for a picnic lunch or a short rest on a log may be putting themselves in harm's way."

DNA tests revealed that 3 to 4 percent of the ticks the researchers found on their bodies, as well as through drag sampling leaf litter with a white flannel cloth, tested positive for B. burgdorferi and another, less prevalent human disease-causing bacterium Anaplasma phagocytophilum. Estimates from prior studies of ticks infected with B. burgdorferi in Mendocino County are higher, ranging from 5 to 10 percent on average, with some spots occasionally yielding rates of 15 percent or higher.

Tick infection rates normally are significantly higher in the northeastern and upper midwestern United States, where most cases of Lyme disease occur. Lane cautioned that the findings in this study are not intended to be applicable to forested areas in other regions of the country.

But for people frequenting areas of California where Lyme disease is endemic, the researchers recommend precautions to prevent tick exposure.

College Hosts California Condor Exhibit


by Geralyn Unterberg

The Ventana Wildnerness Society has generously loaned the College of Natural Resources their exhibit on the California Condor. It is housed in Room 260 Mulford Hall, the CNR Student Resource Center, and is open to the public between 9:00am and 4:00pm Monday and Friday. The exhibit will be on the UC Berkeley campus through June 18, 2004.

The exhibit consists of several photographic and text panels that describe the biology of the condor, the recovery program and environmental issues hindering its success, and an interactive “Grandmother Condor” chair explaining the lessons young condors need to learn to survive in the wild.

At the turn of the century, the California condor (Gymnogyps californianus) population began to plummet after decades of wanton shooting and poisoning. In 1987, the last wild condor was taken into captivity to join 26 others. Successful captive breeding has dramatically increased the population of this endangered species. As of October 2002, the total population of California condors was 202 birds; 73 of those were in the wild.

Ventana Wilderness Society is the first private non-profit in California to release condors. Beginning in January 1997, the Ventana Wilderness Society began conducting releases of condors in Big Sur. In September 2003, Ventana Wilderness Society completed construction of a new condor release site, in collaboration with Pinnacles National Monument and the U.S. Fish and Wildlife Service. Condors historically used this region in the 1970s and evidence of nesting exists for Pinnacles National Monument dating back to 1898. The Ventana Wilderness Society plans to release 20 to 30 condors.

The loan of this exhibit was made possible thanks to the following people:

* CNR Professor Sally Fairfax, Division of Society & Environment;
* Sheila Foster, Communication and Development Coordinator, Ventana Wilderness Society;
* Mark Dedon and Wendy Pulling of PG&E;
* Catalina Estrada, Lynn Huntsinger, and Monica Lin: CNR Student Affairs Office;
* Sidney Zelaya-Aragon, Amelia Binas, Lourdes Enriquez: CNR Business Office;
* Richard DeMeyere, Gene Hudson and Talmai Gaskin: Academic Facilities;
* Janice Hing and Andy Goldblatt: Risk Management, Business Services;
* Rick Standiford, CNR Associate Dean for Capital Projects & Center for Forestry; and
* Paul Ludden, CNR Dean.


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