Co-designing AI-Driven Fire Preparedness Assessment Tools to Meet Community Needs in the Wildland-Urban Interface
Lead PI:
Brett Dickson
Abstract

Wildland fires have increased in number and area across the western US as a result of hotter, drier climates and higher fuel loads. In addition to the environmental factors contributing to increased wildfire risk, rapid growth in the US wildland-urban interface (WUI) has raised the risk of loss of lives and homes. A key aspect of promoting socio-ecological resilience in the WUI is incentivizing actions that limit the destructiveness of eventual fires. Creating defensible space by reducing vegetation (fuel load) to prevent or slow fire spread to and from structures is a widely supported strategy for reducing the risk of loss to wildfire; however, novel analytical methods are required to quantify fuel loads, and thus wildfire risk, at the spatial scales relevant to mitigation planning. Wildfire hazard mitigation is greatly needed in communities throughout the WUI in the American West, but resources for mitigation are limited. Wildland fire risk intersects with social vulnerability, where residents with higher social vulnerability are less likely to be able to afford expensive fuels reduction treatments or engage with wildfire mitigation programs. It is critical not only to ensure that fire-prone communities have the scientific information needed to mitigate fire threat, but also that development, delivery, and application of this information is tailored to the unique social needs of each community. Perceptions of fire risk, attitudes toward fire preparedness, and vulnerability to wildfire impacts vary within and among WUI communities, driven by socioeconomic status, place dependency, experience with fire, and other factors.

This project proposes technological advances in mapping forest structure at fine spatial scales (<30 m) employing artificial intelligence (AI) approaches can be used to estimate fire risk at the spatial scales relevant for mitigation planning. The fuels information will be integrated into tools and applications which will be designed to address the information needs of communities, co-developed with communities, piloted in communities, and evaluated by communities. The project proposes to scope and pilot co-development of AI-based fire preparedness assessment tools in communities in Nevada County, CA. Ultimately, the co-development of these tools will inform the deployment, evaluation, and application of fire preparedness assessment tools to community planning and policy and scaled up to a broader range of communities in diverse western U.S. geographies.

Brett Dickson
Brett (he/him) is the founder, CEO, and Chief Scientist of CSP. He is a conservation biologist, landscape and wildlife ecologist, ecological modeler, and fierce advocate for strong inference. Brett brings over 25 years of conservation and entrepreneurial experience to CSP as well as a wealth of leadership and corporate experience from a previous career in industrial design and product development. He enjoys linking his diverse professional background to the variety of science and innovation initiatives at CSP. Born and raised in the mountains of California, Brett was hooked early by the need to appreciate and conserve species and their habitats in the face of a rapidly changing environment. Building from his passion for wild places, he is determined to push the boundaries of conservation science to help solve some of the world’s biggest problems. In the process, he hopes CSP will put a dent in the universe. An honorary lifetime member of the Society for Conservation Biology (SCB), Brett is a former David H. Smith Conservation Research Fellow, a former SCB North America board member, and currently sits on the editorial board for the journal Conservation Biology. As a Professor Emeritus with the School of Earth and Sustainability at Northern Arizona University, he still works to advance applied research and train his graduate students to be true leaders in the field of conservation science. Brett also serves as an adjunct faculty member with the Department of Geography at the University of Nevada, Reno, and as an affiliate faculty member at the University of California – Davis.
Performance Period: 10/01/2020 - 09/30/2024
Institution: Conservation Science Partners, Inc.
Award Number: 1952719