A team of more than a dozen scientists from the U.S. Forest Service's Pacific Southwest (PSW) and Pacific Northwest research stations, universities and Region 5 Ecology Program recently released a synthesis of relevant science that will help inform forest managers as they revise plans for the national forests in the Sierra Nevada and southern Cascades of California. The three most southern national forests in the Sierra Nevada—Inyo, Sequoia and Sierra—will be among the first of the 155 national forests to update their management plans. The new planning rule requires the forests to consider the best available science and encourages a more active role for research in plan development.
At the request of Region 5 leadership and stakeholders, the team embarked on a year-long effort to summarize and integrate recent scientific advances across key topics including forest and fire ecology; soils; aquatic ecosystems; terrestrial wildlife; air quality; and social, economic and cultural components—all of which make up socioecological systems.
The synthesis distilled important findings from recent studies about how to make systems more resilient to stressors, such as changes in climate, introduced species, and risk of uncharacteristically large and severe wildfires. The authors considered the connections between the terrestrial forests and the streams, as well as how restoration of ecological processes interfaces with the social and economic concerns of communities. By examining concepts and issues that cut across science disciplines, the authors sought to help managers address relevant challenges more holistically.
Key findings from the synthesis were:
- Efforts to promote resilience of socioecological systems increasingly consider the interaction of social values and ecological processes in pursuit of long-term mutual benefits and social learning for local communities and larger social networks.
- Research indicates that strategic placement of treatments to reduce hazardous fuel accumulations and to restore fire as an ecosystem process within fire sheds can lower the risk for undesirable social and ecological outcomes associated with uncharacteristically large, severe, and dangerous fires, which include impacts to wildlife species of concern, such as the fisher and California spotted owl.
- Science generally supports active treatment in some riparian and core wildlife zones to restore fire regimes. However, adaptive management, including experimentation at large landscape scales, is needed to evaluate which areas are priorities for treatment and what levels of treatment produce beneficial or neutral impacts to wildlife species and other socioecological values over long periods.
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The full report is available at: www.fs.fed.us/psw/publications/reports/psw_sciencesynthesis2013/index.shtml