Posts Tagged: wildland fire
Workshop aims to spark women's ambition to become leaders in fire management
Shortly after her son was born, Jeanne Pincha-Tulley was promoted to fire chief of a national forest. For the first six months, she brought the baby to work.
“Most of my colleagues were men between 40 and 50. I was 31,” recalled Pincha-Tulley, who was the first woman to achieve the rank of U.S. Forest Service fire chief in California. “My second son was 6 weeks old and nursing. They had no idea what to do. They absolutely freaked out.”
While great efforts are being made to recruit women into fire management, women hold only 10 percent of wildland fire positions and 7 percent of leadership roles. A new training focuses on grooming women to lead in fire management.
To encourage to women build stronger networks and pursue leadership roles in fire management, Pincha-Tulley, who retired in 2015 after 36 years with the U.S. Forest Service, will be speaking from experience on gender roles at the Women-in-Fire Prescribed Fire Training Exchange (WTREX) in Northern California. She will also serve as deputy incident commander for the event.
WHO: Participants from 12 states and four countries, including 38 women and six men, who work for federal and state agencies, non-governmental organizations, tribes and universities. Organizers include Pincha-Tulley, Lenya Quinn-Davidson, UC Cooperative Extension wildland fire advisor and director of the Northern California Prescribed Fire Council; and Amanda Stamper, The Nature Conservancy fire management officer in Oregon, among others. Guest speakers include Sarah McCaffrey, USDA Forest Service research social scientist; Johnny Stowe, forester/biologist/yoga teacher/fire manager of the South Carolina Department of Natural Resources; Gwen Sanchez, deputy fire chief for the Shasta-Trinity National Forest, and many more.
WHAT: WTREX participants will serve in qualified and trainee firefighting positions to implement prescribed burns throughout the region. They will complete pre- and post-fire monitoring, train with equipment, practice fireline leadership skills and learn about local fire ecology and fire management.
WHERE: The training will take place in Trinity and Shasta counties. Sites include open prairies, oak woodlands, mixed-conifer forests and chaparral. Field trips will be made to areas burned in recent wildfires and to prescribed fire and fuels treatment project sites.
WHEN: Oct. 19-28, beginning in Hayfork, ending in Redding. Burning and other outdoor activities will depend on the weather.
DETAILS: The 12-day hands-on prescribed fire training, modeled after prescribed fire training events that take place across the country, will include beginners to seasoned professionals. The difference is that most of the participants are women.
“I'm excited for this event because it will transcend the usual TREX emphasis on cooperative burning and learning,” Lenya Quinn-Davidson, UC Cooperative Extension wildland fire advisor, who is part of the team organizing the event. “It will explicitly recognize and reinforce the importance of female perspective and leadership in fire management, and provide a supportive environment for women and men to understand and elevate the need for diversity in fire management—not only in numbers, but also in approach.”
Based at the Tahoe National Forest, Pincha-Tulley oversaw 1.6 million acres, including fire suppression, prescribed fire and aviation operations.
As the only woman among the 17 national Incident Commanders, Pincha-Tulley looked for allies and mentors. In 2005, the year she was promoted to Type 1 Incident Commander, she led her team to Mississippi to assist in the aftermath of Hurricane Katrina. She was essentially invisible to the Air Force generals and Navy admirals until she put general stars on her uniform. A NASA director, a man, coached her, saying, “Are you going to let them take over the meeting? You're their peer, make yourself one.” He proceeded to mentor her, based on NASA's training for women in management.
“When you look for those people who can help, you begin to attract them,” Pincha-Tulley said. One of the primary goals of the Women-in-Fire Prescribed Fire Training Exchange is to connect women who work in fire, providing them with new networking and mentoring opportunities.
WTREX is co-hosted by eight primary partners as well as additional collaborators. These include the Northern California Prescribed Fire Council, the Fire Learning Network, the Cultural Fire Management Council, the Watershed Research and Training Center, the Bureau of Land Management, the USDA Forest Service, the California Fire Science Consortium, University of California Cooperative Extension, and other collaborators.
WTREX is supported by Promoting Ecosystem Resiliency through Collaboration: Landscapes, Learning and Restoration, a cooperative agreement between The Nature Conservancy, USDA Forest Service and agencies of the Department of the Interior.
Although wildland fires are a natural part of forest ecosystems, they can interefere with the planning of land-management activities and may have an array of anthropogenic factors. The article, Spatial variability in wildfire probability across the western United States from the International Journal of Wildland Fire, uses fire obsertvations to produce detailed estimates of wildfire probability, of both natural and anthropogenic factors. The International Journal of Wildland Fire publishes papers that advance basic and applied research concerning wildland fire. The Journal wishes to attract papers on a broad range of wildland fire issues that may include subjects beyond the range of papers published in recent issues. The Journal has an international perspective, since wildland fire plays a major social, economic and ecological role around the globe. The authors of the article, Spatial variability in wildfire probability across the western United States, include Marc-Andre Parisien, Susan Snetsinger, Jonathan A. Greenberg, Cara R. Nelson, Tania Schoennagel, Solomon Z. Dobrowski and Max Moritz.
Here is the article's abstract, along with figures and their descriptions:
'Despite growing knowledge of fire-environment linkages in the western USA, obtaining reliable estimates of relative wildfire likelihood remains a work in progress. The purpose of this study is to use updated fire observations during a 25-year period and a wide array of environmental variables in a statistical framework to produce high-resolution estimates of wildfire probability. Using the MaxEnt modeling technique, point-source fire observations that were sampled from area burned during the 1984-2008 time period were related to explanatory variables representing ignitions, flammable vegetation (i.e. fuels), climate and topography. Model results were used to produce spatially explicit predictions of wildfire probability. To assess the effect of humans on the spatial patterns of wildfire likelihood, we built an alternative model that excluded all variables having a strong anthropogenic imprint. Results showed that wildfire probability in the western USA is far from uniform, with different areas responding to different environmental drivers. The effect of anthropogenic factors on wildfire probability varied by region but, on the whole, humans appear to inhibit fire activity in the western USA. Our results not only provide what appear to be robust predictions of wildfire likelihood, but also enhance understanding of long-term controls on wildfire activity. In addition, our wildfire probability maps provide better information for strategic planning of land-management activities, especially where fire regime knowledge is sparse.'
Figure 1. The study area showing the 11 western USA states, elevation, road density (computed using a 1000-hacircular window), mean annual precipitation, mean annual temperature and land cover that was generalized from the National Gap Analysis.
Figure 2. Mean predicted wildfire probability (based on 25 model replicates) for the Full model (a); the Non-anthropogenic model (b); the absolute change (c); and the relative change (d) from the Full model to the Non-anthropogenic model, whereby green indicates an increase and blue represents a decrease in wildfire probability as a result of human-influenced variables.
To view the entire article, please visit the website: