Post Doctoral Scholar (Courtesy)
Center for Ocean-Atmospheric Prediction Studies
After a PhD on observations of mesoscale eddies, I came to COAPS to apply the methods I developed to high-resolution numerical simulation. My research here focuses in particular on the impact of internal gravity waves on the ocean circulation and associated eddies.
My current research projects include:
- Loop Current variability
- Internal gravity waves
- Meso- to submesoscale eddies
Researcher (Courtesy)
FSU Center for Ocean-Atmospheric Prediction Studies
Communication studies have an important role to play in every area of scientific inquiry. Furthermore, multidisciplinary and interdisciplinary research, while admittedly much easier said than done, is essential. My research explores the relationship between communication theory and practice in the applied context of science communication. This involves translating complex topics and an abundance of data into comprehensible and actionable information. My goal is to help fill critical knowledge gaps about the most effective ways to disseminate scientific knowledge/expertise (science communication) to targeted audiences.
Relevant Projects
The Deep-C (Deep Sea to Coast Connectivity in the Eastern Gulf of Mexico) Consortium was a four-year, interdisciplinary study of deep sea to coast connectivity in the northeastern Gulf of Mexico. The study, which began in 2011, investigated the environmental consequences of petroleum hydrocarbon release in the deep Gulf on living marine resources and ecosystem health. Deep-C examined the geomorphologic, hydrologic, and biogeochemical settings that influence the distribution and fate of the oil and dispersants released during the Deepwater Horizon (DwH) accident, and used the resulting data for model studies that support improved responses to possible future incidents. Deep-C included a robust communication and outreach component that provided rich opportunities for engagement with teachers, graduate and undergraduate students, K12 students, policy makers, and the general public.
The CSOMIO (Consortium for Simulation of Marine in the Ocean) project was a two-year project that worked to synthesize the technology, tools, and scientific knowledge of a group of individual investigators some of whom, since the Deepwater Horizon event, have immersed themselves in this study. The Consortium sought to fill critical gaps in our ability to numerically model the transport and fate of oil in coastal waters. The goal was to produce a comprehensive framework for simulating and understanding the role that microbes play in mitigating the impacts of oil spills. A primary deliverable of the CSOMIO was development of a “Modeling the Gulf” middle school science curriculum.
Research Scientist
Center for Ocean-Atmospheric Prediction Studies
RF1 278
(850) 644-4581 phone
(850) 644-4841 fax
My research interests include: The numerical solution of finite difference and finite volume forms of partial differential equations, and their application to the development of eddy resolving numerical ocean circulation models. Ocean model design, development and maintenance. Application of scalable supercomputers to numerical ocean modeling. Model coupling. In October 2017, I joined COAPS as a Research Scientist after 37 years working with and for the Naval Research Laboratory in support of the Navy's global ocean prediction systems. I am the lead developer of the HYbrid Coordinate Ocean Model (HYCOM). The hybrid coordinate extends the geographic range of applicability of traditional isopycnic coordinate circulation models toward shallow coastal seas and unstratified parts of the world ocean. The vertical coordinate in HYCOM is isopycnal in the open, stratified ocean, but smoothly reverts to a terrain-following coordinate in shallow coastal regions, and to pressure coordinates in the mixed layer and/or unstratified seas. It does this using the Arbitrary Lagrangian-Eulerian (ALE) method in the vertical. HYCOM pioneered the use of ALE in ocean models, and several other ocean models have since adopted this technique.
Associate Professor of Oceanography
Department of Earth, Ocean and Atmospheric Science
RF1 297
(850) 644-4581
Mike Stukel's research spans the intersection of plankton ecology and marine biogeochemistry. He has a love for all the zooplankton of the oceans and a passion for understanding how these microscopic organisms influence everything from the global climate to the local fisheries yield. Appendicularians are his favorite plankton. Unless it's ctenophores. Or salps. Perhaps phaeodarians, krill, Lingulodinium polyedrum, hyperiid amphipods, Tomopteris, or pyrosomes. It might be copepods. But he doesn't like chaetognaths.
COAPS is part of the Florida State University (FSU) College of Arts and Sciences and has 59 people working on research grants exceeding $5 million in annual expenditures. COAPS teaching faculty are also members of the FSU Department of Earth, Ocean and Atmospheric Science. COAPS scientists and students come from a wide range of disciplines, including meteorology, oceanography, statistics, and the computer and information sciences.
Subcategories
Alumni
COAPS takes interdisciplinary approach to scientific research about ocean-atmosphere interactions
The Earth’s climate is determined by the extremely complex interplay of land masses, waters and the atmosphere. Everything matters: water temperature, clouds, mountains, swamps, waves, wind and so much more. So it only makes sense that when trying to predict where our climate is headed long term — or whether it will rain on your wedding day — the chances of finding answers are much better when scientists who study all of those things work together. That’s the premise of FSU’s Center for Ocean-Atmospheric Prediction Studies — COAPS for short — which describes itself as a research center that "performs interdisciplinary research in ocean-atmosphere-land-ice interactions to increase our understanding of the physical, social and economic consequences of climate variability." Read more.
Recent Publications
Distinct seasonal climate drivers revealed in a network of tree-ring records from Labrador, Canada
(Source: Climate Dynamics)
On the Generation and Salinity Impacts of Intraseasonal Westward Jets in the Equatorial Indian Ocean
(Source: Journal of Geophysical Research: Oceans)
Time to Flatten the Curves on COVID-19 and Climate Change. Marketing Can Help
(Source: Journal of Public Policy & Marketing)
View All Publications