The Great Mississippi Flood of 1927 was a major natural disaster in American history, resulting in extensive damage and the displacement of hundreds of thousands of people. As a response, engineers and policymakers sought to find a solution to effectively manage the river's flow during floods. They ultimately devised the Bonnet Carré Spillway system as a means of achieving this goal. The Bonnet Carré Spillway is a control structure designed to prevent flooding in New Orleans because of high Mississippi River flows during the spring freshet. Opening this structure modifies the dynamism of freshwater by diverting Mississippi River waters into Lake Pontchartrain and subsequently into the Mississippi Sound and Bight. The Bonnet Carré Spillway was opened twice in 2019 (February 27th and April 11th) with each opening lasting for more than 40 days. These two diversions significantly impacted the salinity environment of the MS Sound, resulting in catastrophic die-offs of the extant oyster population. The Mississippi Sound and Bight is a point of interest to researchers and coastal managers due to the various fisheries and recreational economic engines housed in this region. Protecting these resources from potential hazards has been a top priority for the stakeholders involved. Understanding the northern Gulf of Mexico's complex circulation pattern and exploring the dynamism and the impact of water exchange between the Mississippi Sound and Bight is an important step in predicting and mitigating future harmful impacts. For this reason, among others, a 400 m resolution, 24-layer circulation model of the Mississippi Sound and Bight was developed. This model is based on a regional application established during the GoMRI-funded CONCORDE consortium (msbCOAWST) and has most recently been applied to assess proposed additional freshwater diversion infrastructure [1]. For the study presented here, our numerical modeling application is used in conducting a twin experiment with the ai...