Ocean Modeling & Bio-physical Processes

Laurent Cherubin, Ph.D.
Laurent Chérubin, Ph.D.
Associate Research Professor
772.242.2314
lcherubin@mksyz.com
CV
Website

Research overview

Dr. Chérubin is a physical oceanographer specialized in the understanding of ocean dynamics, which is the study of why the water moves the way it moves. It establishes the connection between forces that act on the ocean, such as gravity, the earth’s rotation, the wind, the moon and the heat from the sun, and the water motions. His research has focused on dynamics of motions associated with instabilities in coastal currents and eddies, using both analytical and numerical models in the quasi-geostrophic, shallow-water formalisms, and in realistic models. This research provides a deep understanding of the environmental forces that affect ocean ecosystems at multiples levels of the trophic chain. Both observational analysis and numerical modeling involving hydrodynamic (the Regional Oceanic Modeling System - ROMS) and biophysical models (Connectivity Modeling System - CMS and Ichthyop) are used to study how environmental drivers shape the oceanic ecosystems.

 


References

Baums, I., C.B. Paris, L.M. Chérubin, 2006. A bio-oceanographic filter to larval dispersal in a reef building coral. Limnol & Oceanogr., 51 (5), 1960-1989

Chérubin, L.M., R.S. Nemeth, N. Idrisi, 2010. Flow and transport characteristics from a spawning aggregation site in St. Thomas (US Virgin Islands). Submitted to Ecological Modelling

Chérubin, L.M., C. Kuchinke, and C.B. Paris, 2008. Ocean circulation and terrestrial runoff dynamics in the Mesoamerican region from spectral optimization of SeaWiFS data and a high resolution simulation. Coral Reefs, 27, 503-519. DOI: 10.1007/s00338-007-0348-1

Chérubin L.M., D.G. Dritschel and X. Carton, 2007. Baroclinic instability of boundary currents over a bottom slope in a quasigeostrophic model. J. Phys. Oceanogr., (6)37, 1661-1677

Chérubin L.M. and P. Richardson, 2007. Caribbean current variability and the influence of the Amazon and Orinoco fresh water plumes. Deep-Sea Res. I, 54, 1451-1473

Chérubin, L. M., Y. Morel, and E. P. Chassignet, 2006. Loop Current Ring shedding: formation of cyclones and interaction with topography. J. Phys. Oceanogr. 36, 569-591

Chérubin, L.M., and C.B. Paris, in prep. Consistent recruitment patterns driven by island-mass effect. To be submitted to Ecological Modelling

Criales, M. L.M. Cherubin and J. A. Browder. Tidal stream transport of Pink shrimp larvae in Florida Bay. To be submitted to PNAS

Paris, CB, and Chérubin LM, 2008. River-reef connectivity in the Meso-American region. Coral Reefs, 27, 773-781

Paris, C.B., L.M. Chérubin, and R.K. Cowen, 2007. Surfing, spinning, or diving from reef to reef: how does it change population connectivity? Mar. Ecol. Prog. Ser., 347, 285-300



Additional Information
Florida Atlantic's Harbor Branch Oceanographic Institute engages with the community through the Ocean Discovery Visitors Center and the Ocean Science Lecture Series. Harbor Branch’s research and outreach programs translate marine science in order to provide solutions that improve economies and quality of life for coastal communities.
Address
Harbor Branch Oceanographic Institute
Florida Atlantic University
5600 US 1 North
Fort Pierce, FL 34946