[PAOCQ] Qiang Fu (U Washington)

“Global Stratospheric Methane Loss from Satellite Observations”

Methane (CH4) is the second most important anthropogenic greenhouse gas after carbon dioxide, yet its variability and long-term increase remain poorly understood, in part because of large uncertainties in atmospheric removal processes. Stratospheric CH4 oxidation represents an important sink in the global methane budget and a major source of stratospheric water vapor, while methane–chlorine reactions further modulate catalytic ozone chemistry. Until now, estimates of stratospheric CH4 chemical loss have relied exclusively on chemistry–climate models (CCMs), resulting in substantial uncertainty. Here, I present an observationally based estimate of stratospheric methane loss (LSTR), derived from the CH4 diabatic flux across an isentropic surface fitted to the tropical tropopause using satellite observations of CH4 concentrations, temperature, and radiative heating rates. It is shown that both reanalysis and CCMs systematically underestimate stratospheric methane loss. Incorporating our observational estimate of LSTR into the bottom-up global methane budget reduces the reported imbalance for the 2000s, bringing it into close agreement with the imbalance inferred from top-down estimates. These results demonstrate the critical role of observational constraints on stratospheric methane loss in reconciling the global CH4 budget and carry important implications for understanding stratospheric water vapor and ozone chemistry.

PAOC Colloquium —

Interdisciplinary seminar series that brings together the whole PAOC (Program in Atmospheres, Oceans, and Climate) community. Seminar topics include all research concerning the physics, chemistry, and biology of the atmospheres, oceans and climate, as well as talks about societal impacts of climatic processes.

Contact: paoc-colloquium-comm@mit.edu