Ocean Biogeochemistry Research Group

We use climate models and oceanographic observations to study the biogeochemistry of the ocean, including its carbon cycle. Many of our studies look at the connection between the ocean carbon cycle and the atmospheric carbon dioxide (CO2) concentration.

Photo of Nikki Lovenduski

Nikki Lovenduski
Director

Photo of Genevieve Clow

Genevieve Clow
Grad student

Katy Christensen

Katy Christensen
Postdoc

Josh Coupe

Josh Coupe
Postdoc

Photo of Samuel Mogen

Samuel Mogen
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Photo of Courtney Payne

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Postdoc

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  • , Undergraduate SMART Summer Intern, 2010
  • , Graduate Student, Ph.D., 2021
  • , Undergraduate SOARS Summer Intern, 2019
  • , Undergraduate SMART Summer Intern, 2016
  • Christopher Conrad, Graduate Student, M.S., 2014
  • , Undergraduate SOARS Summer Intern, 2021
  • Shana Egan, Undergraduate RESESS Summer Intern, 2021
  • , Graduate Student, Ph.D., 2022
  • , Research Associate, 2016-2017
  • David Feagins, Undergraduate SMART Summer Intern, 2019
  • , Graduate Student, Ph.D., 2017
  • , Undergraduate Summer Intern, 2014
  • ,ÌýUndergradÌýRESSES Summer Intern, 2023
  • , Graduate Student, Ph.D., 2024
  • , Undergraduate Honors Student, B.A., 2016
  • Brianna Green, Undergraduate RESESS Summer Intern, 2019
  • , Undergraduate SMART Summer Intern, 2020
  • Nahir Guadalupe-Díaz, Undergraduate ATOC REU Summer Intern, 2021
  • , Undergraduate ATOC REU Summer Intern, 2022
  • , Research Associate, 2017-2018
  • , Undergraduate RESESS Summer Intern, 2018
  • Lindsey Kropuenske, ÍÃ×ÓÏÈÉú´«Ã½ÎÄ»¯×÷Æ·ing Postdoctoral Researcher, 2011-2013
  • , Graduate Student, Ph.D., 2018
  • Joanna Lester, ÍÃ×ÓÏÈÉú´«Ã½ÎÄ»¯×÷Æ·ing Graduate Student, 2017
  • Andrew Margolin, Undergraduate Honors Student, B.A., 2012
  • , Undergraduate SMART Summer Intern, 2025
  • , Undergraduate RESESS Summer Intern, 2016
  • , Postdoctoral Research Associate, 2012-2016
  • , Undergraduate SOARS Summer Intern and Professional Research Associate, 2017-2018
  • , Postdoctoral Research Associate and Research Associate II, 2022-2024
  • , Graduate Student, Ph.D., 2024
  • , Undergraduate SOARS Summer Intern, 2014
  • , Undergradate SMART Summer Intern, 2022
  • , Undergraduate SMART Summer Intern, 2021
  • Katherine (Katie) Shrader,ÌýUndergraduate ATOC REU Summer Intern, 2023
  • , Undergraduate Summer Intern, 2024
  • , ÍÃ×ÓÏÈÉú´«Ã½ÎÄ»¯×÷Æ·ing Postdoctoral Researcher, 2015-2016

Contact

NikkiÌýLovenduski

Our beliefs

Illustration of what the ocean biogeochemistry group believes: science is for everyone, teamwork in clean desks, moms are superheros, and the ocean if full of surprises waiting to be discovered

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Goals

The ocean biogeochemistry research group conducts modeling and observational studies in all aspects of modern-day ocean biogeochemistry.Ìý Our goals are threefold:

  1. To understand the mechanisms that control the distributions of biogeochemical constituents in the ocean,
  2. To study the ocean biogeochemical response to climate change and climate variability,

  3. To quantify feedbacks between ocean biogeochemistry and the climate system.

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Research

Our research is primarily focused on the ocean carbon cycle, one of the most important biogeochemical cycles in the ocean.Ìý

In particular, we study the connection between the ocean carbon cycle and the atmospheric carbon dioxide (CO2) concentration.Ìý As the ocean contains 60 times more carbon than the atmosphere, it exerts a dominant control on atmospheric CO2.Ìý Biological and physical processes act together to control the distribution of carbon in the ocean, and therefore the flux of CO2Ìýbetween the ocean and the atmosphere.

We employ a variety of ocean and earth system models, and we use satellite andÌýin situÌýobservations.

Schematic illustration of the processes impacting ocean-atmosphere carbon dioxide exchange, including precipitation, wind, sunlight, sea ice, temperature, ocean circulation, sinking of organic matter, and more

Schematic illustration of the processes impacting ocean-atmosphere carbon dioxide exchange. Ìý

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Modeling

Modeling is a critical tool for the study of physical, biogeochemical, and ecological processes in the ocean.Ìý We use a variety of modeling tools in our research, ranging from simple box models to state-of-the-art coupled carbon-climate models.Ìý Such models allow us to simulate important biogeochemical quantities, and to understand what controls their distribution.

The Lagrangian transport of dissolved carbon dioxide in the Southern Ocean from a high-resolution ocean model. (credit: R. Brady)

Observations

Satellite andÌýin situÌýobservations of ocean biogeochemical quantities help us to validate our models and to quantify recent changes in ocean biogeochemistry.Ìý These observations provide information about the amount of anthropogenic carbon dioxide in the ocean, the changing acidity of the ocean, and the activity of ocean phytoplankton in the sea surface, among other things.

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Rainbow colored map of the world's oceans showing sea-to-air flux of carbon dioxide, estimated and interpolated from ship observations.

Sea-to-air flux of carbon dioxide, estimated and interpolated from ship observations. Ìý

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News

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Publications

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