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  <title><![CDATA[PhD Defense by Luisa Fernanda Lopera Garcia]]></title>
  <body><![CDATA[<p>In partial fulfillment of the requirements for the degree of<br><br>Doctor of Philosophy in Ocean Science &amp; Engineering<br>In the<br>School of Earth and Atmospheric Sciences<br><br>Luisa Fernanda Lopera Garcia<br><br>Will defend her dissertation<br><br>CONNECTIVITY AMONG MESOPHOTIC CORAL ECOSYSTEMS IN THE NORTHERN GULF OF MEXICO AND THE ROLE OF SUBMESOSCALE CIRCULATIONS<br><br>29TH May 2026<br>2:00 pm EST<br>Ford ES&amp;T 3235 – The ocean room<br>https://gatech.zoom.us/j/92021737062<br><br>Thesis Advisor:<br>Annalisa Bracco, Ph.D<br>CMCC Foundation<br>School of Earth and Atmospheric Sciences<br>Georgia Institute of Technology<br><br>Committee Members:<br>Joseph Montoya, Ph.D.<br>School of Biological Sciences<br>Georgia Institute of Technology<br><br>Takamitsu Ito, Ph.D.<br>School of Earth and Atmospheric Sciences<br>Georgia Institute of Technology<br><br>Kevin Haas, Ph.D.<br>School of Civil and Environmental Engineering<br>Georgia Institute of Technology<br><br>Santiago Herrera, Ph.D.<br>Department of Biological Sciences<br>Lehigh University<br>ABSTRACT:<br><br>Connectivity, defined as the exchange of genetic material among geographically separated ecosystems, is a key process for maintaining biodiversity and supporting reef resilience. Understanding connectivity patterns is crucial for marine planning, particularly in the design of marine protected areas and restoration plans. This thesis investigates how ocean circulation, model resolution, and biological traits influence potential connectivity among mesophotic coral ecosystems in the northern Gulf of Mexico. Using high-resolution ocean simulations coupled with a Lagrangian particle tracking tool, this work evaluates passive and biologically informed dispersal across multiple seasons and years. Results show that connectivity among mesophotic reef environments is generally weak, even among geographically close sites, but episodic shelf-break transport can create intermittent pathways between otherwise isolated reefs. Connectivity magnitude is enhanced during winter and spring, while directionality is strongly affected by intraseasonal variability. This thesis also shows that passive-particle simulations alone can misrepresent ecological connectivity, as species-specific traits such as vertical migration and pelagic larval duration substantially modify transport pathways. Preliminary resolution-sensitivity experiments suggest that sub-kilometer simulations reveal additional weak or episodic connections, although the dominant connectivity patterns remain broadly similar to those captured at 1 km. Overall, this work demonstrates that reliable connectivity assessments require both biologically informed particle-tracking experiments and ocean models capable of representing the physical processes that shape transport in complex shelf-break environments.<br>&nbsp;</p>]]></body>
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