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Quantifying Marine Carbon Dioxide Removal Through Ocean Modeling - Lecture 1

Offered By: International Centre for Theoretical Sciences via YouTube

Tags

Oceanography Courses Climate Science Courses Geophysical Fluid Dynamics Courses Carbon Sequestration Courses Turbulent Mixing Courses

Course Description

Overview

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Explore the quantification of marine carbon dioxide removal through ocean modeling in this lecture by Scott D. Bachman. Delve into the complex world of geophysical fluid dynamics, focusing on the role of oceans in climate regulation and carbon sequestration. Gain insights into advanced modeling techniques used to understand and predict oceanic carbon dioxide absorption processes. Learn about the challenges and importance of accurately representing multi-scale interactions in ocean models, from turbulent mixing to large-scale circulation patterns. Discover how this research contributes to our understanding of the global carbon cycle and its implications for climate change mitigation strategies. Part of a comprehensive program on theoretical and practical perspectives in geophysical fluid dynamics, this lecture offers valuable knowledge for climate scientists, oceanographers, and anyone interested in the intersection of ocean dynamics and climate science.

Syllabus

Quantifying Marine Carbon Dioxide Removel Through Ocean Modeling (Lecture 1) by Scott D. Bachman


Taught by

International Centre for Theoretical Sciences

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