Project

Using Co-Production of Knowledge to Reconstruct Coastal Food Webs

Full Title: Letting the Past Inform the Future: Using A Co-Production of Knowledge Framework to Reconstruct Deep Time Coastal Food Webs

Coastal ecosystems, crucial for fisheries and other services, are globally degraded, necessitating restoration efforts. To effectively manage these ecosystems, resource managers require comprehensive understanding beyond temporally stunted baselines, which this proposed research aims to address by constructing deep time and present-day food web models for the Indian River Lagoon (IRL) and comparing their metrics to inform recovery targets and management strategies.

Lead Investigator: Michelle Shaffer michelleshaffer8@knights.ucf.edu Dr. Michelle Gaither Associate Professor Bioloigcal Sciences Michelle.Gaither@ucf.edu Dr. Kristy Lewis Director, Gulf Impact Project Lead Assistant Professor, Department of Biology and Sustainable Coastal Systems Cluster kristy.lewis@ucf.edu

Project Team: Lewis Lab of Applied Coastal Ecology, Gaither Lab

Collaborator: University of Rhode Island Ecogeochemistry Laboratory

Award Amount: $25,000

Year Funded: 2023

Award Period: 2/1/23 – 1/31/24

Project Abstract:

Coastal ecosystems provide vital goods and services including the maintenance of fisheries but are among the most degraded ecosystems worldwide. To restore and maintain coastal ecosystems for future generations, resource managers need a detailed understanding of an ecosystem’s healthy baseline condition. However, baseline conditions used in management strategies are almost always temporally stunted (<50 years) and fail to capture ecosystem dynamics of these environments before human impact. The proposed research will combine advanced stable isotope analysis techniques and co-production of knowledge (e.g., traditional scientific and local ecological knowledge systems) with the construction of a deep time (~1,500 years ago) and a present-day food web model. These models will be the foundation of an ecological network analysis that will compare ecosystem metrics from deep time to present-day. This effort will be the first ecosystem model ever developed for the IRL. The team hypothesized that the deeper time ecosystem metrics will exhibit more resilient characteristics than the present-day system. While it is unlikely that an ecosystem can return to its ‘true historic condition’, understanding the historic ecology of a system will help us build a stronger future for our coastal ecosystems and communities by better informing recovery targets and management strategies.

Products, Datasets, and Reports

A no cost extension was granted through1/31/25. Two circumstances have impeded the progress of this study. Initially, upon receiving the fellowship in late February 2023, changes to the project protocol mandated by the IACUC delayed funds dispersal until June 4th, 2023, preventing Michelle Shaffer, the Sea Grant Fellow, from collecting or handling samples. Subsequently, Dr. Kristy Lewis, the original PI, departed for a new position at the University of Rhode Island in late July 2023, prompting the transfer of the project to a new PI associated with UCF and necessitating a re-review of the IACUC protocol, further delaying research until the end of September 2023.

News & Features

Related Links

More To Explore

Promoting Coastal Resilience, Adaptation, and Equity in Florida

This proposal outlines a collaborative effort between Florida Sea Grant (FSG) and the University of Florida’s Shimberg Center for Housing Studies to develop a statewide resiliency initiative called “Disaster Resilient Florida,” aimed at addressing coastal climate change challenges with a focus on underserved communities. The initiative will advance awareness, planning, and preparation for the impacts of coastal climate change on affordable housing in Florida, through capacity building, educational opportunities, partnership expansion, and support for marginalized communities.

Green Infrastructure Assessment for Climate Adaptation

The Indian River Lagoon (IRL) faces biodiversity threats and water quality challenges exacerbated by climate change, prompting the initiation of the Regional Resiliency Action Plan (RRAP) to address these issues through green infrastructure in Brevard and Volusia counties. The RRAP outlines objectives for prioritizing green infrastructure and promoting habitat connectivity, with ongoing efforts focusing on comprehensive land cover assessments, optimization modeling, and community engagement to support resilience planning and ecological restoration in Brevard County, aligning with Florida Sea Grant priorities and Stetson University’s mission for environmental resilience.

Enhancing Spatial Justice in Jacksonville’s Neighborhood Revitalization

The project addresses inequities in Jacksonville’s urban core by centering the needs of underserved communities and integrating community-designed spatial justice principles into infrastructure planning through participatory action research. Drawing on critical scholarship and recognizing the intersection of justice and infrastructure, particularly in the face of climate change, the project aims to understand and address root causes of spatial injustice, promoting social progress and environmental resilience through community-driven research and advocacy.

Florida Sea Grant College Program
2306 Mowry Road, Bldg. 164 | P.O. Box 110400 | Gainesville, FL 32611 | Tel: (352) 392-5870
© 2024 Florida Sea Grant. All Rights Reserved.

Report technical problems with this site to fsg@ifas.ufl.edu.