Impact Area Accelerator Grant Awardees
The goal of the Impact Area Accelerator Grants is to catalyze scholarship within the current university research impact areas and support active researchers to take their work to the next level. One of the main barriers to program expansion identified by faculty was the lack of time to realize larger research and scholarship objectives. This funding opportunity provides faculty stipends and research assistants to accelerate program growth and seek extramural funding needed to support that work. In 2022-2023, five proposals were selected for funding under this call.
Title: Preparing for School-Based Literacy Learning: Multilingual Family, Community, and School Partnerships for Young Learners
PI: Sally Brown (Professor of Curriculum, Foundations and Reading)
This project aims to (1) identify the strengths of multilingual families in supporting literacy development of their children, the generation of strategies to promote successful school-based literacy learning, (2) develop strategies and activities leading to successful school-based literacy learning, and (3) provide family and community support for research school success and positive learning outcomes. This proposal aligns to the Community Enrichment research impact area, leveraging cultural and linguistic resources of communities to better support student literacy learning success. The Impact Accelerator funding of this project will provide time for the preparation of a Hearst Foundation grant proposal.
Title: Understanding local adaptation to diseases in oysters to improve management and resilience
PI: John Carroll (Associate Professor, Ecology and Zoology)
This project aims to focus on drivers of disease dynamics and immune responses in oysters, a coastal keystone species that is economically and ecologically important throughout the US Atlantic and Gulf coasts. The proposed research leverages local oyster disease data within a broader geographical scope and compliments the traditional disease metrics with immunological response and gene expression data to look at evolutionary adaptations to disease-causing parasites. This project aligns with Georgia Southern University’s Coastal Resilience and Sustainability impact area by focusing on the conservation and shoreline ecology of oysters, a species that provides many ecosystem services (food resources, shoreline protection) for coastal communities. The Impact Accelerator funding of this project will provide time and supplies for novel analysis of data in preparation for multiple federal grant submissions: NSF Biological Oceanography, Ecology & Evolution of Infectious Diseases, NOAA, and the National Estuarine Research Reserve Program.
Title: The Effect of Detention and Legal Uncertainty on Immigrant Integration
PI: Matthew Flynn (Assistant Professor of International Studies and Sociology)
This project aims to identify the effects of detention and alternatives to detention on the integration of immigrants into American society through the examination of lived experiences between non-detainees and detainees. The project aligns with the Community Enrichment impact area, deepening the understanding of the experiences and needs of millions of people awaiting case adjudication after entering the United States. The project will also work with community partners to provide workshops to strengthen connections and infrastructures to support immigrant services, well-being, and quality of life. The Impact Accelerator funding of this project will provide time and support in the resubmission of an NSF Law & Science proposal as well as additional NSF RFP proposals for Accountable Institutions and Behavior and Sociology.
Title: Gut microbiome-targeted fiber supplementation to prevent accelerated cardiovascular aging induced by a high-salt diet
PI: Greg Grosicki (Assistant Professor in the Department of Health Sciences and Kinesiology)
This project aims to identify and test effective preventive strategies to counteract hypertension and cardiovascular disease, the number one cause of death globally. Specifically, the investigators will test the hypothesis that gut-microbiome targeted fiber supplementation may prevent accelerated cardiovascular aging due to high-salt consumption. This project aligns to the Holistic Fitness and Wellness impact area for innovation in health and wellness treatments, supporting the development of novel primary and secondary preventative care to enhance the efficacy of approaches to improve cardiovascular health. The Impact Accelerator funding for this project will provide time and grant writing support for the preparation of multiple grants including proposals to the National Institute of Health R15 call, the United States Department of Agriculture, and the American Heart Association.
Title: Distributed Acoustic Sensing (DAS) Technology for Intelligent in-motion Inspection and Condition Monitoring for Infrastructures
PI: Hossein Taheri (Assistant Professor in the Department of Manufacturing Engineering)
This project aims to expand novel in-motion monitoring and detection of defect occurrence, cause, and severity in railway systems through the application of Distributed Acoustic Sensing technology, an intelligent inspection and condition monitoring method for infrastructure. Presently, modes of inspection are based on discrete points, missing transmission of critical data on speed, safety, and signal noise. This project centers around the Advanced Materials and Manufacturing impact area, specifically metrology and quality assessment for infrastructure that will improve safety in rail systems. The Impact Accelerator funding of this proposal will provide time and student support for the submission of proposals to the Department of Transportation, the Georgia Department of Transportation, and Small Business Innovation Research.
Last updated: 2/15/2023