Postdoctoral Research Scientist, OAE Process-Model Testbed
TLDR
Develop a 1D OAE process-model testbed within C-Star to extract parameterizations for regional ROMS-MARBL MRV tools, enabling rapid prototyping and industry collaboration.
This project addresses a fundamental bottleneck in OAE science: the mismatch between the complexity of the relevant biogeochemical processes and the computational cost of resolving them in full 3D ocean simulations. The 1D testbed eliminates that mismatch, enabling rapid parameter sweeps, systematic perturbed-parameter ensembles, and clean comparison against laboratory and field datasets. The work proceeds in close collaboration with industry partners including Ebb Carbon, Planetary, and Isometric, who will contribute empirical constraints from field and laboratory deployments.
Testbed Development and Scientific Investigation
Design and implement a one-dimensional OAE process-model testbed within C-Star, using a lightweight physical solution (idealized mixing, turbulence, lateral flows) that allows rapid model prototyping and iteration.
Develop a generalized representation of explicitly sinking particulate material within the MARBL biogeochemical model, including parameterizations of mineral dissolution (e.g., olivine, calcite), precipitation kinetics, and particle sinking velocities.
Develop and calibrate representations of particles generated in situ by electrochemical and mineral alkalinity addition, in collaboration with industry and other research partners.
Run large perturbed-parameter ensembles to systematically explore parameter space and quantitatively assess uncertainty in OAE-relevant outcomes.
Validate parameterizations against existing empirical datasets from laboratory experiments and field deployments, in close collaboration with Ebb Carbon, Planetary Technologies and other partners.
Develop and/or implement a simplified model of alkalinity cycling in seafloor sediments, characterizing the level of sediment process representation required for robust OAE simulation at regional scales.
Integration and Infrastructure
Implement all process formulations within the ROMS-MARBL framework so that validated parameterizations are immediately portable to three-dimensional C-Star configurations.
Contribute to C-Star software infrastructure, ensuring the testbed is a first-class C-Star component with proper blueprint and workplan schema, documentation, and reproducibility.
Develop tutorials and demonstrations for how to use the testbed to develop and improve OAE-related parameterizations—supporting the broader research community's ability to contribute process advances.
Scientific Communication and Collaboration
Maintain active, substantive collaboration with Ebb Carbon, Planetary Technology, Isometric, and other partners to ensure model development is grounded in practical implementation and observational reality.
Submit peer-reviewed manuscripts documenting parameterization calibration, validation, and scientific findings.
Contribute to [C]Worthy's broader scientific program, including participation in field-building, user roundtables, and community engagement.
Ph.D. in oceanography, marine chemistry, geochemistry, chemical oceanography, or a closely related field.
Strong background in ocean biogeochemistry, including carbonate chemistry, alkalinity, and marine carbon cycling.
Familiarity with marine mineral dissolution/precipitation kinetics and/or particle dynamics.
Scientific software development proficiency in Python; experience working with biogeochemical model code (Python, Fortran, or Julia).
Ability to design systematic numerical experiments, interpret results in light of observational constraints, and communicate findings clearly.
Collaborative disposition and comfort working in partnership with industry stakeholders alongside academic researchers.
Convergent Research is an organization that houses innovative non-profit research initiatives like E11 Bio and Parallel Squared Technology Institute, all focused on pioneering advancements in neuroscience and protein analysis technologies. Targeting ambitious scientific goals, Convergent Research enables rapid breakthroughs in critical areas like connectomics and supports the professional development of scientists and engineers by fostering open research opportunities.