Building resilient coastal forests through enhancing biocultural research and career pathways
Well-managed coastal forests, including agroforests, provide important climate adaptation benefits, including erosion control, flood mitigation, and cultural connection to place. Yet these ecosystems receive far less attention than high elevation forests or conventional agricultural systems. This project, an expansion of a previous project, responds to this gap by improving understanding of how interactions between plants, microbes, and people support restoration success and social-ecological resilience to climate change at a community agroforestry site in Heʻeia, Oʻahu. The researcher team plans to evaluate if and how companion planting with a native fern facilitates the success of coastal agroforestry restoration. Measuring soil moisture, soil carbon, relative humidity, and microbial diversity and function, they hope to establish the relative success of a culturally valuable, drought-sensitive species over time with and without co-planted ferns.
For the community, the project also includes a plan to establish a pilot climate adaptation research/management internship program for UH undergraduate students in collaboration with Kākoʻo ʻŌiwi and the Heʻeia National Estuarine Research Reserve (NERR) to support biocultural research and career pathways. In addition, they will design community and educational programming around ferns, including through lei workshops, and evaluate how this influences measures of social-ecological resilience, such as cultural connection to place.
PROJECT DETAILS
FUNDED:
FY2024
PI:
Leah Bremer
Associate Specialist and Conservation Scientist, UH Mānoa
Graduate Scholar:
Sebastian Church
Dept of NREM, UH Mānoa
Co-Is:
Tamara Ticktin
Professor of Botany, UH Mānoa
Kiana Frank
Assistant Professor of Microbiology, UH Mānoa
Zoe Hastings Silao
Postdoctoral Researcher, Water Resources Research Center