Coastal Sciences Courses

Format of Courses

  • The courses will be offered in Spring or Fall semester
  • The courses will be offered in a dual format (classroom and online over the internet)
  • The classroom lectures will be videotaped. These videos will be available to the students via UNO's webpage
  • Course notes will be shared with the students through Moodle
  • Internet (out of town) students will need a professional engineer to proctor their examinations/ quizzes

Time Frame

The CEAS certificates can be earned in two years.  All courses will cover material independent of each other and none of the four (4) courses and prerequisite to the other courses. Therefore, depending upon work schedule and other commitments, the student can start taking the courses at any semester, or miss a semester, and take the missing course(s) when they are offered again over the two-year cycle.


To obtain the certificate, the students will have to complete the following four (4) courses with a minimum cumulative grade point average (GPA) of a B average (3.0).

Course Name Course Description

Coastal Processes - Offered Fall 2016 & Fall 2018

Thur. 5:00 p.m. to 7:45 p.m.
Classroom section:
EES 5900-601
Online section:
EES 5900-476

This course will focus on the physical processes operating in the coastal environment. Key elements of this course include wind waves - their generation and transformation processes, coastal hydrodynamics and transport processes, coastal water level fluctuations (short-term and long-term), and governing processes on beach/barrier, deltaic, wetland and estuarine environments. Introductory concepts in coastal morphodynamics will be presented through case studies that cover topics of land building, deltaic and estuarine sedimentation, marsh edge erosion, longshore transport and shoreline change, run-up and inundation over wash during storms, and inlet backbarrier interactions. The course will also emphasize on presenting modeling tools available for the study of such environments, and review observation techniques and analysis tools currently used.

Sediment Transport and Dredging - Offered Spring 2017 (ENCE 6334)

Particle size analysis, fluid-particle systems, incipient motion; suspended and total loads; bedforms; sediment measurements; physical and numerical modeling of sediment transport; transport of liquid-solid mixtures in pipes; dredging equipment; hydraulic and mechanical dredging; geotechnical properties of dredged sediments; environmental impacts of dredging; pipeline transport of dredged sediments.

Coastal Geomorphology - Offered Spring 2017 & Spring 2018

Classroom section:
EES 5550-601
Online section:
EES 5550-476

Wed. 4:30 p.m. to 7:45 p.m.

Process relationships in a variety of coastal settings, including beaches and barrier shorelines, estuaries, and tidal wetlands, rocky coasts and cliffs, coral reefs and atolls. Fundamental driving processes in a coastal environment such as climate, waves, tides, and storms will be discussed through case studies. Field measurements of coastal parameters will also be discussed

Coastal Restoration and Management - Offered Fall 2018 

Mon. 5:00 p.m. to 7:45 p.m.
Classroom section:
EES 6760-601
Online section:
EES 6760-476

Coastal problems and appropriate mitigation approaches on barrier shorelines and beaches, deltas, and estuaries. Management aspects include project implementation and a background to regulatory frameworks for coastal restoration decision-making.