News Release

New study works with historically disenfranchised communities to combat sudden oak death

Peer-Reviewed Publication

American Phytopathological Society

Resistance Assessment Process

image: Locations and study trees were selected through a collaborative process to ensure that sampling would be conducted to span the range of tanoak utilization on the Hoopa and Yurok reservations. Cuttings from canopy branches were removed in the field and transported to the laboratory on ice where they were challenged with the <i>Phytophthora ramorum</i> pathogen, incubated for 2 weeks in a high-humidity environment, and assessed through high-contrast image analysis. view more 

Credit: Richard C. Cobb, Noam Ross, Katherine J. Hayden, Catherine A. Eyre, Richard S. Dodd, Susan J. Frankel, Matteo Garbelotto, and David M. Rizzo

Science often reflects the priorities of dominant industries and ignores the needs of disenfranchised communities, resulting in the perpetuation of historical injustices. One team of scientists in Northern California studying sudden oak death, which poses a threat to the longstanding cultural heritage of several indigenous tribes, sought to chip away at this cycle through a new collaboration with these communities.

Sudden oak death has killed 50 million trees since emerging in 1995 and is an impending threat to the tanoak trees in Northern California. Tanoak, an evergreen tree, is native to the western United States and prolific along the California coast. In these regions it is revered by many indigenous tribes, including the Hoopa and Yurok, who value the tree as a source of food and medicine. The tanoak also holds an important role in their religious practices.

To develop resistance measures that represented the interests and unique perspectives of these tribes, the team of scientists worked with the tribal forest managers and community members to identify proactive ways to prevent the spread of sudden oak death. Through this partnership, the scientists were able to publish a paper bringing together indigenous land management, ecology, genetics, pathology, and epidemiology.

"I mostly work on the mathematical side," said co-author Noam Ross, who created the simulations and software used in the paper, "but it's important how that can be used to understand and manage the cultural and social effects of this forest disease, which has had significant impacts in these communities."

The results of this study, published in "Promise and Pitfalls of Endemic Resistance for Cultural Resources Threatened by Phytophthora ramorum" in Phytopathology, underscore the importance of collaboration between different interest groups. "This collaborative approach holds valuable lessons for researchers and managers working to empower a broader cross section of stakeholders," says author Richard Cobb.

More details about this study can be found in Phytopathology Volume 103, Number 3, published May 8, 2019. Phytopathology is an international journal publishing articles on fundamental research that advances understanding of the nature of plant diseases, the agents that cause them, their spread, the losses they cause, and measures used to control them.


Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert system.