Events

Thursday, October 18, 2018 - 11:00am
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Haller Hall (102), 24 Oxford St., Cambridge

Geobiology Seminar

Elizabeth Trembath-Reichert, NASA Postdoctoral Fellow, Department of Marine Chemistry & Geochemistry, Woods Hole Oceanographic Institution, will give a talk on "From Sediment to Basalt: Single-cell microbial metabolism and growth rates from subsurface environments."

Thus far, microorganisms appear in nearly every environment we have explored on Earth. They thrive across orders of magnitude differences in temperature, pressure, nutrient concentrations, and energy sources. In addition to their resilience and ubiquity, microbes have had a profound effect on our planet’s evolution and continue to drive the biogeochemical cycles of elements essential to life (e.g. carbon, hydrogen, oxygen, nitrogen, phosphorus, and sulfur). This is especially true in the vast, rock-powered, subsurface environments where sunlight is not an available energy source. By interrogating subsurface environments, we can improve our understanding of life both under extreme conditions and its evolution and survival on geologic timescales. To characterize the activity of subsurface microorganisms, a series of stable isotope probing (SIP) experiments coupled to single-cell targeted nanometer-scale secondary ion mass spectrometry (NanoSIMS) were conducted from subsea sedimentary (2 km below seafloor, Shimokita Peninsula) and subsea basaltic (4.5 km water depth, North Pond) environments. Through a combination of geochemical and genomic techniques, we have found that subsurface cells can maintain a range of cellular (re)generation times and metabolisms in these nutrient-limited environments. In the sedimentary system, we found active metabolism of a thermally-adapted microbial assemblage representing some of the slowest direct measurements of environmental microbial activity. In the basaltic system, we compared rates of heterotrophy and autotrophy in the aquifer fluids to better constrain the active microbial influence on carbon flux in basaltic aquifers. Together these results improve our understanding of the microbial role in water-rock reactions on Earth, with astrobiological implications for potential similar systems elsewhere.

The EHAP/Geobiology Seminar Series is jointly hosted by OEB and EPS.

Contact Name: 

Summer Smith

Research Areas: 

Harvard University
Center for the Environment

Address: 26 Oxford Street, 4th Floor, Cambridge
Email: huce@environment.harvard.edu
Phone: (617) 495-0368

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