Modeling the Effects of Low-Pressure Atmospheric Fronts on Sediment Transport through Mississippi Sound Barrier Island Inlets

Author

• Nicholas J. Gagliano, University of Southern MississippiFollow

Date of Award

5-2026

Degree Type

Masters Thesis

Degree Name

Master of Science (MS)

School

Ocean Science and Engineering

Committee Chair

Jerry Wiggert

Committee Chair School

Ocean Science and Engineering

Committee Member 2

Mustafa K. Cambazoglu

Committee Member 2 School

Ocean Science and Engineering

Committee Member 3

Chris Hayes

Committee Member 3 School

Ocean Science and Engineering

Abstract

Coastal sediment dynamics in the Mississippi Sound are strongly influenced by tropical cyclones and the more frequent passage of low-pressure atmospheric fronts. While hurricanes are well recognized for reshaping barrier islands and altering sediment budgets, the cumulative role of recurrent fronts remains poorly quantified. This thesis investigates the impacts of six low-pressure atmospheric fronts (2015–2017) on sediment flux through six barrier island inlets in the Mississippi Sound.

A high-resolution application of the Regional Ocean Modeling System with the Community Sediment Transport Modeling System was developed to simulate tidal circulation, wind-driven currents, and sediment dynamics. Waves were excluded from the simulations. Model runs spanned 22 days per event, capturing pre-frontal, frontal, and post-frontal conditions. Numerical output was analyzed to quantify sediment flux through the inlets and examine the impact of southerly winds on sediment dynamics.

Results show that atmospheric fronts consistently amplify tide-driven sediment flux through the inlets by a factor of two to ten. The timing, magnitude, duration, and track of each front strongly influenced the direction and volume of sediment flux. Regression analyses revealed that the effect of southerly winds on suspended sediment concentration varied considerably across inlets and events, but also highlighted that mud may be more prone to suspension when mixed with a sandy seabed, and that sand may be more prone to suspension when mixed with a muddy seabed.

These findings suggest that atmospheric fronts may govern tide-driven sediment budgets in the Mississippi Sound, emphasizing their role in barrier island geomorphology and coastal sediment management.

Copyright

Nicholas James Gagliano, 2026

Recommended Citation

Gagliano, Nicholas J., "Modeling the Effects of Low-Pressure Atmospheric Fronts on Sediment Transport through Mississippi Sound Barrier Island Inlets" (2026). Master's Theses. 1203.
https://aquila.usm.edu/masters_theses/1203