Research

DISSERTATION RESEARCH: Investigating ontogenetic shifts in movement and behavior in highly mobile marine predator Carcharodon carcharias

In my dissertation, I am working to synthesize animal-borne sensors with remote sensing data to define the demographic composition, dynamics, and behavior of the juvenile white shark populations utilizing Monterey Bay National Marine Sanctuary waters. I will use long-term adult monitoring sites as a comparative aggregation through which to understand ontogenetic partitioning, overlap, and recruitment of younger members of the species.

Specifically, I am utilizing underwater imaging and aerial observation via Unoccupied Aircraft Systems (UAS) to quantify white shark swimming kinematics and morphometrics across demographics, combining underwater imaging with electronic tags to characterize demographic structure across sites, and evaluate thermal and vertical habitats. This dissertation proposal works to define and compare ontogenetic aggregations in MBNMS waters, adding critical knowledge of ontogenetic progression and recruitment in a marine apex predator population.

Considerations and tradeoffs of UAS-based coastal wetland monitoring in the Southeastern United States

Coastal wetlands of the Southeastern United States host a high abundance and diversity of critical species and provide essential ecosystem services. A rise in threats to these vulnerable habitats has led to an increased focus on research and monitoring in these areas, which is traditionally performed using manual measurements of vegetative characteristics. As these methods require substantial time and effort, they are often limited in scale and infeasible in areas of dense or impassable habitat. Unoccupied Aircraft Systems (UAS) provide an advantage over traditional ground-based methods by serving as a non-invasive alternative that expands the scale at which we can understand these ecosystems. While recent interest in UAS-based monitoring of coastal wetland habitats has grown, methods and parameters for UAS-based mapping lack standardization. This study addresses variability introduced by common UAS study techniques and forms recommendations for optimal survey designs in vegetated coastal habitats. Applying these parameters, we assess alignment of computed estimations with manually collected measurements by comparing UAS-SfM mapping products to ground-based data. This study demonstrates that, with careful consideration in study design and analysis, there exists great potential for UAS to provide accurate, large-scale estimates of common vegetative characteristics in coastal salt marshes.

https://www.frontiersin.org/articles/10.3389/frsen.2022.924969/full

Coastal shark abundance and spatial dynamics respond to small-scale environmental fluctuations of the Rachel Carson Reserve estuary in Beaufort, North Carolina

DiGiacomo, A.E.; Harrison, W.E.; Johnston, D.W.; Ridge, J.T. Elasmobranch Use of Nearshore Estuarine Habitats Responds to Fine-Scale, Intra-Seasonal Environmental Variation: Observing Coastal Shark Density in a Temperate Estuary Utilizing Unoccupied Aircraft Systems (UAS). Drones 2020, 4, 74. https://doi.org/10.3390/drones4040074

https://www.mdpi.com/2504-446X/4/4/74