Event


EES Seminar Series - Dr. Ivan Mitevski

"To What Extent is Climate Sensitivity to CO2 Linear and Reversible?"

Oct 18, 2024 at - | Hayden Hall 358

Geoscience Colloquium
IM

The Department of Earth & Environmental Science

University of Pennsylvania

Invites you to attend a EES Seminar Series

Friday, October 18, 2024 - 3:00 PM

 

"To What Extent is Climate Sensitivity to CO2 Linear and Reversible?"

 

Climate sensitivity measures how much Earth's surface will warm in response to a doubling of CO2 concentrations. It is one of the most critical metrics in climate science, widely used in economic and policy assessments of future global warming. With current CO2 levels approximately 50% higher than in 1850 and, depending on technology and decisions, we are on track to more than double CO2 concentrations within the 21st century. A crucial question is whether our climate has the same sensitivity to CO2 increases from pre-industrial levels to twice those levels compared to increases from double to triple or quadruple CO2 concentrations. Most studies so far assume a linear climate response to increasing CO2. However, our findings indicate that the response is not linear: we may experience different warming rates when moving from 1x to 2xCO2 compared to 2x to 4xCO2. Moreover, if we stabilize the climate with net-negative CO2 emissions or reduce atmospheric CO2 to pre-industrial levels, we might not be able to return Earth's temperature to its pre-industrial state of 1850. We demonstrate that Earth's response to CO2 perturbations is non-linear, with significant implications for scaling responses from specific CO2 perturbation levels and utilizing evidence from past climate states.

 

Dr. Ivan Mitevski

Hess Postdoctoral Fellow

Princeton University

I am a Hess Postdoctoral Fellow at Princeton University working with Gabriel Vecchi. Prior to this, I got my PhD at Columbia University working with Lorenzo Polvani and Clara Orbe.

My research focuses on understanding how the climate system responds to a wide range of CO2 perturbations. To achieve this, I conduct experiments employing climate models with varying levels of complexity, ranging from comprehensive Earth System Models to basic idealized conceptual models. The scope of this question is quite broad, so my work includes few topics such as climate sensitivity, radiative feedbacks, forcing, and large scale dynamics.

Feel free to contact me for discussions or potential collaborations.

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