BIO

Originally from Houston, Texas, I am a full-time student at Florida State University pursuing a Bachelor of Science degree in Environmental Science. Since attending FSU in 2022, I have made the Dean’s List, am involved in Dance Marathon and HerCampus, and have begun Undergraduate Research through the UROP program at FSU.
I am passionate about environmentalism, journalism, and marketing, and I am searching for opportunities to become more involved and increase my knowledge in these fields. Additionally, I am involved in my sorority, Gamma Phi Beta. I have served as the Corresponding Secretary and am currently involved in Line Dance and one of our chapter's Social Media Chairs.
I am dedicated and driven to staying on top of my academics while being involved in numerous registered student organizations on campus. I look forward to continuing my degree and working towards being an Environmental Consultant.

Habitat Characterization of a Mid-Pacific Mountain Across Depth

Abstract

The deep sea is one of the least explored ecosystems on Earth. Only about 5% of the deep ocean is examined in detail, often through deep-sea ROVs documenting the sea floor thousands of meters below the surface. Our research aims to analyze one site within the Mid-Pacific Mountains to determine the overall substrate size, composition, and species diversity at differing depths.
Our research focused on two dives, which explored parts of the east side of these underwater seamounts. A ROV collected video transects across site Mid-Pacific Mountain #3 (MPM3) at different depths. Each video transect was converted to 30-second interval screen grabs, and we annotated characteristics of habitat that are known to affect deep-sea coral and megafauna assemblages on seamounts. Singular images from different transects were observed and annotated for the approximate surface area, rugosity, and laser points. Lastly, we randomly selected 15 points from each image and identified different types of substrates and marine life found on and around these seamounts. While there is still extensive data left to annotate, this study has found that the habitat characteristics of site MPM3 can range in various places. Numerous filmed locations contain different types of substrates, rugosity, etc., indicating a diverse underwater ecosystem.
Our experiment contributed to characterizing relatively unexplored seamounts in response to depth. Analyzing these vulnerable marine ecosystems at different depths will help with future research on the deep sea, which should continue to be investigated, as our data only covers one small section of the Mid-Pacific Mountains.

Keywords: Seamounts, Ocean, Habitat, Characterization