Welcome to the Joel Kostka Laboratory web site!

The Kostka Laboratory combines cutting-edge microbiology/ molecular biology with biogeochemistry to quantify the role of microorganisms in ecosystem function. Our research is heavily field oriented and spans from coastal marine ecosystems to the terrestrial subsurface. Projects include the biogeochemical cycles of natural and contaminated environments.

Research News

New Bacterial Species Isolated that Detoxifies both Metals and Organic Contaminants in the Terrestrial Subsurface.


We are proud to announce a new paper coming out in the International Journal of Systematic and Evolutionary Microbiology, “Geobacter daltonii sp. nov., an iron(III)- and uranium(VI)-reducing bacterium isolated from the shallow subsurface exposed to mixed heavy metal and hydrocarbon contamination,” by Om Prakash, Tom Gihring, Dava Dalton, Kuki Chin, Stefan Green, Denise Akob, Greg Wanger, and Joel Kostka. This paper describes a new species of Geobacter isolated from the contaminated subsurface of a nuclear legacy waste site in Oak Ridge, Tennessee, managed by the U.S. Dept. of Energy. Read More >
daltonii_preview_2 daltonii_preview_1On the left is an atomic force microscopic image of the new species Geobacter daltonii. On the right is a core sample of uranium-contaminated subsurface sediment from the Oak Ridge Integrated Field-Scale Subsurface Research Challenge (OR-IFRC) where the new strain of bacteria was discovered..


New Papers Out on the Role of Marine Sands as the Kidneys of the Earth’s Estuaries.


Two papers have been published on the role of sedimentary microbes in marine sands as nutrient filters that protect water quality on the coast by removing or recycling nutrients. Read More >
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Above: The sandy coastline of St. George Island, Florida.

Research Highlight

New Research Initiative Seeks to Create Biofuels from Algae


Joel Kostka is leading a new research thrust termed a Systems Approach to Bioenergy Research (SABER) within the newly formed Institute for Energy Systems, Economics, and Sustainability at Florida State University. The focus of the SABER working group is to develop methods for producing biofuels from algae grown sustainably, using only green energy. Read More >
bioenergy_preview_1 bioenergy_preview_2By cultivating marine algae, such as the diatoms pictured on the right, we will be able to utilize the energy from the sun to turn greenhouse gases into fuel. We are focusing on the main stumbling blocks so far in optimizing the growth of marine algae as a biomass feedstock and the conversion of cultivated biomass into useful fuels.