Labs & Groups
BCO-DMO serves investigators funded by the NSF Geosciences Directorate (GEO) Division of Ocean Sciences (OCE) Biological and Chemical Oceanography Sections and Office of Polar Programs (OPP). BCO-DMO manages and provides access to oceanographic biogeochemical, ecological, and complementary physical data and information generated through scientific research funded by these NSF programs. Contact: firstname.lastname@example.org
Principal Investigator: Matthew Charette
The main research goal of the Coastal Groundwater Geochemistry group is to better understand the impact of submarine groundwater discharge on chemical cycles in coastal ocean systems. Specifically, we are interested in the chemical cycles of naturally occurring radioisotopes (e.g. radium, radon), trace metals (e.g. barium, uranium), and nutrients (e.g. nitrate, phosphate).
WHOI and the nearby Woods Hole Research Center, in collaboration with partners worldwide, have been operating time-series observatories on 15 large rivers since 2003 with the goal of observing the changing biogeochemical signals transmitted by river systems to the coastal ocean. We maintain a growing river sediment and water archive.
The Non-traditional Isotope Research on Various Advanced Novel Applications research group focuses on understanding the patterns, processes, and mechanisms of geochemical processes taking place from the core of the Earth to the edge of the Solar System.
The Woods Hole Oceanographic Institution Nutrient Analytical Facility utilizes several state of the art methods and instruments for quantifying bio-element concentrations in environmental samples.
Scientists in the microbial biogeochemistry group at WHOI are studying microbes and microbial processes in environments as different as boiling hot deep sea hydrothermal vents and subzero arctic permafrost.
Principal Investigator: Elizabeth Kujawinski
The lab combines research in analytical chemistry, chemical oceanography, microbiology and microbial ecology to elucidate the controls on dissolved organic matter composition in aquatic systems.
OCB is a dynamic network of scientists working across disciplines such as ocean chemistry, biology, and physics to understand the ocean’s role in the global carbon cycle and how marine ecosystems and biogeochemical cycles are responding to environmental change.
Principal Investigator: Edward Sholkovitz
Collectors and sensors on buoys are a new line of research tools for the oceanic and atmospheric community. Buoys have potential to be new platforms from which to determine the temporal and spatial variations of the aerosol composition entering and leaving oceans and of the rainwater composition entering the oceans. In tandem, aerosol and rainwater sensors are being developed to provide real-time and time-series data on atmospheric concentrations and fluxes of important biogeochemical elements, iron in particular..
The U.S. launched the Joint Global Ocean Flux Study (JGOFS) in the late 1980s to study the ocean carbon cycle. An ambitious goal was set to understand the controls on the concentrations and fluxes of carbon and associated nutrients in the ocean.