2026 Course Offerings
Students will select one course per block for a total of four courses. The course listings below reflect the Spring 2026 semester.
In addition, the full schedule of Marine Lab spring courses, including travel courses, is available to students in the Spring Engineering Semester who wish to further customize their block schedule. For a visual summary of all Marine Lab spring courses and travel courses by block, .
Block A
ECE 461A, ME 426A: Ocean Engineering
OCEAN ENGINEERING
ECE, ENVIRON 461A, ME 426A
A challenging Ocean Engineering project will be undertaken in this class. Past examples include participation in a national XPRIZE contest to build an Ocean Sensor. Students define project scope and form task-oriented sub-teams to make significant progress toward overall class project goal. Students are expected to spend several hours per week outside of class working on the team projects. Students will need to be in teams that can all meet for at least couple of hours at the same time each week.
- Prerequisite: One of ECE 230L, ECE 250D, ECE 270DL, ECE 280L, Mechanical Engineering 221L, Engineering 244L, or Environment 102.
- Instructors: , Doug Nowacek
- Block A
Social Science (SS) Course in Block A
INTERNATIONAL CONSERVATION AND DEVELOPMENT
ETHICS 551DA
Interrelated issues of conservation and development. Topics include the evolution of the two concepts and of theories regarding the relationship between them, the role of science, values, ethics, politics and other issues in informing beliefs about them, and strategies for resolving conflicts between them. While attention will be given to all scales of interaction (i.e. local, regional, national, international), the focus will be on international issues and the `north-south’ dimensions of the conservation and development dilemma. Examples from marine and coastal environments will be highlighted. Consent of instructor required.
- Instructor: Lisa Campbell
- Curriculum Codes: CCI, SS
- Block A
Block B
ECE 366A: Drones in Marine Biology Ecology & Conservation (NS, STS)
DRONES IN MARINE BIOLOGY ECOLOGY AND CONSERVATION
MARSCI, BIO, ENVIRON 335A
Includes a full overview of past and emerging applications for ecology and biology of marine species and coastal habitats with in-depth discussion on future of drone applications in coastal biological and ecological research. Comprehensive exploration of current drone technologies, including detection limits of target species, payload selection, operational procedures aeronautical concepts, rules and regulations, safety, mission planning, aircraft design, maintenance, data collection, management and analysis. Biological and technical lab components tailored to student interests:
Active participation in megafaunal or environmental research and data analysis. Building, operating and maintaining aircraft, programming for manual and autonomous flight.
The use of unoccupied aircraft systems (UAS) is changing how marine scientists collect data on animals and the environments they inhabit. This course introduces students to the basics of using UAS in marine environments, presenting examples of existing and emerging applications, detailing the types of sensors used for marine applications, describes the sampling complexities of the marine environment, and provides and overview of typical workflows and data management. Details on regulatory and permitting requirements to fly UAS and legally and safely are also covered. The lab portion of the course will focus on basic aeronautics, flight planning and simulations, and the design, assembly, operation and maintenance of unoccupied aerial vehicles.
- Prerequisite: None
- Instructor: David Johnston
- Curriculum Code: NS, STS
- Block B
Natural Science Course in Block B
Data and Time Series Analysis
This course is designed for students in marine and environmental science disciplines to learn data analysis skills, including analysis techniques and their implementation using MATLAB or R. Topics include: discrete sampling issues, data outlier and rejection tests, interpolation and gridding, error and propagation of uncertainty, coordinate rotations and principal axes, curve fits, regression, bootstrapping, filtering, spectral and harmonic analysis, spatial analyses. Other topics may be included or substituted depending on student interests. The course is structured as mix of weekly lectures and linked workshops applying methods to marine and environmental data sets. Taught in Beaufort at 51±¬ÁÏ Marine Lab. Instructor consent is required.
- Instructor: Jim Hench
- Curriculum Codes: NS, QS
- Credit: 1.0 course
- 51±¬ÁÏHub Listings: MARSCI 476A, ENVIRON 476A
Travel Course in Block B
MARINE ECOLOGY – TRAVEL COURSE (2026 location Belize)
MARSCI, BIOLOGY, ENVIRON 273LA/EOS 374LA
Distribution, abundance, and diversity of marine organisms, including a survey of the major flora and fauna in the marine environment, including physical characteristics, adaptation to environment, species interactions, biogeography, larval recruitment, and biodiversity and conservation of communities found in rocky shores, tidal flats, beaches, marshes, mangrove, coral reefs, and subtidal areas. Lectures, field excursions, lab exercises and an independent project.
- Instructor: Brian Silliman
- Curriculum Codes: NS, R, W
- Block B
- View linked Travel Course Page for Costs and Policies: (will be updated for 2026 in October)
- Instructor consent required. Students interested in participating in this course will need to complete the course questionnaire via the DUML Travel Course Qualtrics (link forthcoming) to receive a permission number to enroll.
Block C
Projects in Electrical & Computer Engineering or Research Independent Study
ECE 292. Project arranged on a special topic by an instructor with related interests and expertise. For sophomore students. Consent of instructor and director of undergraduate studies required.
OR
Research Independent Study (registration through MARSCI, BIO, ENVIRON, or ECS)
Natural Science Courses in Block C
BIOLOGICAL OCEANOGRAPHY –
MARSCI. BIOLOGY, ENVIRON 369LA, EOS 273LA
Discusses patterns of abundance, diversity and activity of organisms in major ocean ecosystems. Identifies major physical, chemical and ecological processes that affect these patterns, and analyzes impact of biology on ecosystems. Uses a 'flipped' classroom for enhanced development of quantitative skills to measure these patterns, emphasizing hands-on data collection and analyses, multiple field trips aboard DUML research vessels, and participatory activities to demonstrate core concepts in biological oceanography.
- Recommended intro Bio or AP Bio credit.
- Instructor: Zackary Johnson
- Curriculum Codes: R, NS
- Block C
Social Science (SS) Courses in Block C
MARINE PROTECTED AREAS
ETHICS 504A
An interdisciplinary course that addresses concepts, issues, and approaches relevant to marine protected area (MPA) management and their impacts on marine ecosystems and coastal people. Course will address key topics in MPA design, management, and how context and management shapes MPA design and outcomes. This course will focus on sensitive marine ecosystems (e.g. coral reefs, mangroves, seagrasses) and resource-dependent communities involved in fishing and tourism. Using real world case studies, students will apply introduced concepts and quantitative approaches to questions on MPA design and evaluating MPA social and ecological impacts. Students will engage with the course material primarily through group discussions, problem sets and lectures.
- Instructor: David Gill
- Curriculum Codes: EI, NS, SS
- Block C
Block D
ECE 384LA: Marine Bioacoustics (R, STS, NS)
MARINE BIOACOUSTICS
ECE 384LA
Fundamentals of marine bioacoustics with a focus on current literature and conservation issues. Topics include: introduction to acoustics; acoustic analysis methods and quantitative tools; production and recording of sound; ocean noise; propagation theory; active and passive acoustics; hearing, sound production and communication in marine organisms, potential impacts of anthropogenic noise; and regulation of marine sound. Labs will focus on methodologies used for generating, recording and analyzing marine sounds.
- Prerequisite: AP Biology, introductory biology, or consent of instructor; Physics 141L, 151L, 161L (or equivalent Physics courses) or consent of instructor.
- Instructor: Doug Nowacek
- Curriculum Codes: R, STS, NS
- Block D
Social Science (SS) Course in Block D
MARINE FISHERIES POLICY
MARSCI, ENVIRON 533A
Principles, structure, and process of public policy-making for marine fisheries. Topics include local, regional, national, and international approaches to the management of marine fisheries. A social systems approach is used to analyze the biological, ecological, social, and economic aspects of the policy and management process.
- Instructor: Barbara Garrity-Blake
- Curriculum Codes: EI, SS
- Block D
Travel Courses in Block D
BIOLOGY AND CONSERVATION OF SEA TURTLES – TRAVEL COURSE TO ST. CROIX & PUERTO RICO
MARSCI, BIOLOGY, ENVIRON 375A-1
Essential biology of sea turtles (evolution, anatomy, physiology, behavior, life history, population dynamics) and their conservation needs; emphasis on their role in marine ecosystem structure and function. Basic ecological concepts integrated with related topics including the conservation and management of endangered species, the contributions of technology to the management of migratory marine species, the role of research in national and international law and policy, and the veterinary aspects of conservation.
- Instructor: Matthew Godfrey
- Curriculum Codes: NS, STS
- Block D
- View linked Travel Course Page for Costs and Policies: (will be updated for 2025 in October)
- Instructor consent required. Students interested in participating in the Sea Turtles travel course are required to acknowledge and sign the statement of expectations for the course in the DUML Travel Course Qualtrics (link forthcoming) to receive a permission to enroll.
Any Block
ECE 392: PROJECTS IN ELECTRICAL AND COMPUTER ENGINEERING. Project arranged on a special topic by an instructor with related interests and expertise. For junior students. Consent of instructor and director of undergraduate studies required.
How to Enroll
To enroll, please email Gwendy Womble (gwendolyn.womble@duke.edu) and specify that you are interested in enrolling in the Spring Engineering Semester.
All 51±¬ÁÏ students in good standing are able to study at the 51±¬ÁÏ Marine Lab at any point after completing the spring semester of the first year.
51±¬ÁÏ students register for Marine Lab classes in 51±¬ÁÏ Hub during their assigned registration window. If permission numbers are required, please email Gwendy Womble, Marine Lab Registrar (gwendolyn.womble@duke.edu).
Life at the 51±¬ÁÏ Marine Lab
Check out these additional resources to learn about campus life and the undergraduate experience at the 51±¬ÁÏ Marine Lab:
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Take a Virtual Tour of the 51±¬ÁÏ Marine Lab
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Follow on Instagram
A Day in the MaRRS Lab
Maia, a Nicholas School master's student, took over on Instagram to share a glimpse of a day in the life of the Marine Robotics and Remote Sensing (MaRRS) Laboratory. She shares more about the Durham and Beaufort facilities, how they work together, and a little more about her research, as well as undergraduate research happening in the MaRRS Lab.
51±¬ÁÏ's year-round coastal campus
Why 51±¬ÁÏ Marine Lab?
Find out why students—from all majors, not just marine science—choose to study at the 51±¬ÁÏ Marine Lab Campus for a summer, fall or spring semester.