An official website of the United States government
Here's how you know
A .mil website belongs to an official U.S. Department of Defense organization in the United States.
A lock (lock ) or https:// means you’ve safely connected to the .mil website. Share sensitive information only on official, secure websites.

News from around the Fleet

NPS Student Uses Multidisciplinary Approach to Study Sea Level Rise at Navy Installation

21 May 2021

From Rebecca Hoag, Naval Postgraduate School Office of University Communications

MONTEREY, Calif. - For the large number of naval bases located on an ocean’s coast, the prospect of sea level rise (SLR) poses a real potential threat, especially since a rising sea doesn’t necessarily impact everywhere the same way. There are many variables to consider, such as the local coastal geology and geography, as well as tide fluctuations and meteorological events.

While the Naval Oceanic and Atmospheric Administration’s (NOAA) global SLR maps do well at projecting generally the fate of the coastline after a certain amount of warming, there is a need for more detail, both in space and time, to aid in planning adaptive measures.

Naval Postgraduate School (NPS) student U.S. Navy Lt. Monica Killoran is focusing her thesis around predicting what high tide will look like for Naval Base San Diego (NBSD) under different SLR scenarios.

“We want to try to capture what could happen if it gets to a specific level,” Killoran explains.

“It’s particularly interesting to try to mix the two things because connecting the dots is what helps us to understand how things are.”

Killoran is earning her master’s degree in meteorology and physical oceanography, and is also pursuing the NPS Space Systems Certificate.  Guided by Oceanography Assistant Professor Mara Orescanin and Meteorology Assistant Professor Scott Powell, the combination of topics are suited well to measuring a topic like SLR where the land and sea meet.

In a way, she mixed four of her own interests with the project … meteorology, oceanography, climate change, and the Navy. She was inspired by an NOAA presentation she watched at the 2020 ESRI Ocean, Weather, and Climate Geographic Information System (GIS) forum, where a graduate student presented work similar to her project.

Killoran is trying to create a code that can calculate SLR variability for a certain area once the user plugs in standardized SLR projection data from NOAA and NASA and local tide measurements. Both agencies get their data from altimeters, which are instruments that can measure the height of sea surface from space.

Killoran’s research is funded in part by the Naval Information Warfare Center (NIWC) Pacific, and there is a significant amount of pre-existing data available for her to use. Although still in the early phases of her work, Killoran hopes to develop a tool and methodology that other bases can easily duplicate.

“I think of the research like an hourglass,” Orescanin says. “We’re kind of in the information-gathering stage, trying to figure out how much of this has been done already in academia and industry, like how many cities and ports and harbors are planning for things like sea level rise and what steps they are pursuing to make those decisions.”

Killoran chose San Diego to be her first location because the base is closer to Monterey than other candidate installations, and the base has been collecting years worth of tide measurements. As she dives into her research question, Killoran says she is excited to be working on something that will both challenge her, and matches with her own interests.

“[Faculty] allow us to go for it if it’s what we want to do,” Killoran says. “Everybody has been so helpful, and I didn’t know there was so much information and resources available.” 

Killoran already has other Naval installations in mind that would be good places to explore sea level rise in detail, including Norfolk, Pearl Harbor and Yokosuka.

“There is, in my opinion, probably a lot of room for students to run [with this topic] down the line,” Powell says.

 

Google Translation Disclaimer

  • Google Translate, a third party service provided by Google, performs all translations directly and dynamically.
  • Commander, U.S. Navy Region Korea, cnrk.cnic.navy.mil has no control over the features, functions, or performance of the Google Translate service.
  • The automated translations should not be considered exact and should be used only as an approximation of the original English language content.
  • This service is meant solely for the assistance of limited English-speaking users of the website.
  • Commander, U.S. Navy Region Korea, cnrk.cnic.navy.mil does not warrant the accuracy, reliability, or timeliness of any information translated.
  • Some items cannot be translated, including but not limited to image buttons, drop down menus, graphics, photos, or portable document formats (pdfs).
  • Commander, U.S. Navy Region Korea, cnrk.cnic.navy.mil does not directly endorse Google Translate or imply that it is the only language translation solution available to users.
  • All site visitors may choose to use similar tools for their translation needs. Any individuals or parties that use Commander, U.S. Navy Region Korea, cnrk.cnic.navy.mil content in translated form, whether by Google Translate or by any other translation services, do so at their own risk.
  • IE users: Please note that Google Translate may not render correctly when using Internet Explorer. Users are advised to use MS Edge, Safari, Chrome, or Firefox browser to take full advantage of the Google Translate feature.
  • The official text of content on this site is the English version found on this website. If any questions arise related to the accuracy of the information contained in translated text, refer to the English version on this website, it is the official version.

Commander, U.S. Navy Region Korea   |   PSC 478 Box 1   |   FPO AP, 96212-0001
Official U.S. Navy Website