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Marine Microbial Ecology

microbes

Microbes play many vital roles in the oceans through the transformation and cycling of elements such as carbon, nitrogen, and sulfur. They are fundamental components of marine food webs, and although small, their activities affect global biogeochemical cycles and help regulate our planet’s climate. Using cutting-edge technologies, faculty in the department study the diversity, structure, and function of microbial communities across the global ocean including coastal Georgia, oligotrophic gyres, hydrothermal vents, and the Southern Ocean. Cell biochemistry, physiology, and metabolism are investigated in the lab and field to determine the nature of interactions among viruses, bacteria, phytoplankton and microeukaryotes, how these microorganisms affect the cycling of carbon and energy.

Personnel

Research in the Bik Lab is intensely interdisciplinary, using high-throughput sequencing and diverse –Omics approaches to explore broad patterns in marine microbes (biodiversity and phylogeography, functional roles for microbial taxa, and the relationship between species and environmental parameters), with an emphasis on…

Activities in the Joye Research Group aim to discover, document, resolve, and understand the complex interactions that drive elemental cycling in coastal and open ocean environments across the globe. Our purpose is to elucidate feedbacks between environmental, microbiological, and biogeochemical dynamics. Our research examines the effects of…

Moran lab research focuses on how marine bacteria process and transform organic carbon and sulfur, and how interactions between bacteria and phytoplankton affect these transformations, including the formation of climate-relevant gases. Our research leverages tools from molecular microbial ecology and ecological genomics, in both laboratory…

My research group focuses on coastal ecosystem ecology. I seek to develop an integrated understanding of ecological and biogeochemical processes in order to refine the role of estuaries and wetlands in the global carbon cycle and predict the likelihood of recovery from human disturbances. My group uses innovative geochemical tracer approaches,…

Research Emphasis:

Yager's interdisciplinary research approach includes oceanography, marine microbial ecology and biogeochemistry. Her work concentrates on the interactions between climate and marine ecosystems, and includes both fieldwork and modeling. Recent projects include investigating…

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