Development of a new, globally-applicable approach for quantifying reef island evolution in 3D, and analyses of Caribbean reef island evolution

Low lying coral reef islands are considered among the most vulnerable landforms to the impacts of climate change. Currently, an incomplete understanding of reef island evolution and morphology (island evolution is typically analysed in 2-dimensions), and lack of data for reef islands in the Caribbean is limiting predictions regarding how these landforms will respond to future environmental change, e.g., rising sea-level. This project will develop a standardized approach to quantify the 3D evolution of coral reef islands. We will then use this approach to (a) analyse Caribbean reef island evolution in 3D over a range of time periods (weekly, monthly, and annual); (b) identify and measure key morphological characteristics of the islands; and (c) investigate the linkages between island evolution and wave processes on the surrounding reef platforms. The project will produce the first data ever recorded for Caribbean reef islands; and a new, 3D reef island modelling technique, which will be globally applicable and will provide important insights into the capacity of reef islands to adapt to future environmental change.

Faculty Supervisor:

Evan Edinger

Student:

Partner:

Northumbria University

Discipline:

Earth science

Sector:

Environmental Science and Technology; Sustainability & the Environment; Life Sciences (not health)

University:

Memorial University of Newfoundland

Program: