Student Research Symposium Program Portal

Please contact Dr. Works (keworks@fsu.eu) for additional help:

Submission information

Submission Number: 190

Submission ID: 9038

Submission UUID: 38b67488-d62e-4e7b-b208-c984f070912e

Submission URI: /student-research/symposium/research-symposium-program-portal

Submission Update: /student-research/symposium/research-symposium-program-portal?token=NEO8CktJoozwX_UY2hNCzMLADpIH9Lco7pzYb2-IIYI

Created: Thu, 01/29/2026 - 10:39 AM

Completed: Thu, 01/29/2026 - 10:47 AM

Changed: Thu, 01/29/2026 - 10:47 AM

Remote IP address: 146.201.10.2

Submitted by: Anonymous

Language: English

Is draft: No

Webform: Research Symposium Program Portal WF

Submitted to: Student Research Symposium Program Portal

Primary Student Contact First Name

Primary Student Contact Last Name

Pronouns

Primary Student Contact FSU Student Email

Photo of all individuals presenting this work

FSU photo ID.jpg9.86 KB

Upload requirements

One file only.
2 MB limit.

Major(s) of all individuals presenting this work

Bio of all individuals presenting this work

Poster Title

Abstract

Natural shorelines are increasingly favored over armored shorelines in Florida due to concerns about the ecological impacts of shoreline hardening. This study examined three armored and six natural shorelines at the Florida State University campus in Panama City, Florida, to evaluate whether hardened structures contribute to localized coastal erosion. Over a four-month period, slope changes, wave energy, and biodiversity indicators (including invertebrate and vegetation richness and evenness) were measured at each site using standardized field methods. The results showed that natural shorelines located adjacent to armored structures experienced elevated erosion rates. Additionally, notable differences in biodiversity and wave energy were observed between shoreline types, with armored sites exhibiting reduced biological diversity and altered wave conditions. These patterns suggest that shoreline armoring may have physical and ecological effects that extend beyond the structure itself. In particular, the study highlights how even small-scale shoreline modifications can influence sediment transport, habitat structure, and long-term ecological resilience across adjacent coastal areas. Overall, the findings provide important insight into how shoreline design influences coastal stability and ecological health. These findings reinforce the need for shoreline designs that balance human use with ecological function, particularly as coastal communities face increasing environmental pressures. Hurricanes and other natural disasters pose significant risks to coastal communities, compounding the natural processes of erosion that continue despite human intervention. By highlighting the trade offs associated with hardened versus natural shoreline approaches, this study offers valuable guidance for future restoration planning, permitting decisions, and coastal management strategies along Florida’s increasingly vulnerable coastline.

Research Mentor Name

Research Mentor's College (or High School)

Research Mentor's Department (or Subject)

Research Mentor's Email

Additional Research Mentor(s)

Co-presenter(s)

Keywords

Poster Session/Number

Work

Complete

Exploratory (the research question has been identified and design of approach is outlined)

Presentation Modality

Face to Face Poster session

Synchronous Online Presentation

Asynchronous Online Presentation

Poster PDF

Upload requirements

One file only.
100 MB limit.

Poster Thumbnail

Please take a screenshot of your poster to be a thumbnail on your Symposium Program Profile.

Upload requirements

One file only.
2 MB limit.

I will be printing my poster

CAPTCHA

What code is in the image?

Enter the characters shown in the image.

This question is for testing whether or not you are a human visitor and to prevent automated spam submissions.