Ecosystem Dynamics Modeling Laboratory (MEDML) at the School for Marine Science and Technology, University of Massachusetts- Dartmouth houses an active
research team with focus on coastal and estuarine circulation, frontal dynamics, bio-physical interaction, suspended sediment processes, and ecosystem
modeling. The University of Massachusetts School of Marine Science is also a graduate education center providing both M.S. and Ph.D. degreee training in
We have successfully developed an unstructured grid, Finite-Volume,
primitive equation Community Ocean Model (FVCOM) that is well suited for simulating the circulation and ecosystem dynamics from global to estuarine
scales, particularly for regions characterized by irregular complex coastlines, islands, inlets, creeks, and inter-tidal zones.
In collaboration with scientists at the Woods Hole Oceanographic Institution (WHOI), we are building an
integrated high-resolution model system that is capable of hindcasts, nowcasts, and forecasts of circulation and key ecosystem processes in
coastal oceans and estuaries. The major components of this system include: 1) a meso-scale meteorological model, 2) FVCOM, 3) a sediment model
based on the Community Sediment Transport Model, 4) a generalized lower trophic level food web model, 5) multi-stage zooplankton models, and 6)
the EPA-standard water quality model. A GUI has been developed for system operation and post-processing. In collaboration with scientists at
Massachusetts Institute of Technology (MIT), we have implemented both ensemble and reduced Kalman filters into FVCOM to build a model-based
observing and prediction coastal ocean system.
MEDML is a high-performance
computational center for ocean modeling equipped with a super performance Linux cluster. This multiprocessing computing facility has
extended the research interests of MEDML to the global ocean. A FVCOM-based high resolution Atlantic Ocean Model, with full coupling between
global and coastal systems, is being developed at MEDML.
applications for graduate study from talented students in the fields of physical oceanography, biology, and fishery science. Students will receive
solid training in both physical and ecosystem dynamics and an opportunity to participate in state of the art research in ocean sciences.