AOSC Seminar by Dr. Georgiy L. Stenchikov, 10/30/2025
AOSC Seminar
Georgiy L. Stenchikov
King Abdullah University of Science and Technology
Title
Impact of stratospheric injections from volcanoes and geoengineering: Pinatubo vs Hunga Eruption.
Abstract
Explosive volcanic eruptions offer crucial empirical insights into the effects of natural and anthropogenic stratospheric injections on Earth’s climate. The composition and early dispersion of injected materials, whether volcanic or man-made, play a key role in determining the long-term evolution of aerosol and gaseous plumes in the stratosphere.
Modern climate models have made significant strides in realistically simulating the behavior of volcanic clouds. This study used the WRF-Chem regional meteorology–chemistry model to analyze the plume evolution of the Pinatubo (1991) and Hunga (2022) eruptions. Our goal was to assess the sensitivity of plume dynamics to factors such as injection height, ash presence, initial volcanic material concentrations, and water vapor (WV) injections.
The 1991 Pinatubo eruption, the largest explosive event of the 20th century, injected an estimated 17 Mt of SO₂ and approximately 100 Mt of WV into the lower stratosphere. Despite this, uncertainties persist regarding the exact SO₂ mass and the altitude at which volcanic debris was released. Comparatively, the shallow-underwater Hunga eruption on January 15, 2022, emitted only 0.5 Mt of SO₂ but released 150 Mt of WV into the upper stratosphere. The resulting WV injection was largely retained in the stratosphere, increasing its water vapor content by 10%. While Hunga’s SO₂ injection was relatively minor compared to climate-altering events like Pinatubo, its substantial WV release raised concerns about possible shifts in stratospheric chemistry and dynamics, including potential near-surface warming.
Our findings underscore the pivotal role of the early evolution of volcanic clouds in shaping the climate impacts of eruptions. They highlight the necessity of accurately simulating or prescribing these processes within climate models. By comparing Pinatubo and Hunga, we identified new mechanisms and critical uncertainties that must be accounted for when optimizing strategies such as solar radiation management.
Bio
Dr. Georgiy Stenchikov earned his Ph.D. in 1977 from the Moscow Physical-Technical Institute, often called the “MIT of Russia.” At the USSR Academy of Sciences, he led pioneering computational studies on climate change and the consequences of nuclear war. After moving to the U.S. in 1992, he held positions at the University of Maryland and Rutgers University before joining in 2009 King Abdullah University of Science and Technology (KAUST) in Saudi Arabia as Professor and Chair of Earth Sciences and Engineering Program. He retired in 2024. Dr. Stenchikov’s work has been recognized internationally. In 1986, he received a prestigious award from the Council of Ministers of the Soviet Union for his achievements in climate impact modeling. He was a contributing author to the Nobel Prize–winning IPCC Fourth Assessment Report (2007). In 2022, the Future of Life Institute honored him for advancing the science of nuclear winter. In 2024, the Association for Computing Machinery awarded him the Gordon Bell Prize for breakthroughs in climate modeling. Most recently, in 2025, he was appointed to the UN Scientific Panel on the Consequences of Nuclear War.
Contact
If you are not subscribed to seminar announcements and need a link to this online seminar please contact aosc-helper. You can also subscribe to weekly links and announcements below.
AOSC Seminar
Pre-seminar refreshment: N/A
Seminar: 3:30-4:30pm, Room: ATL 2400(only when in-person)
Meet-the-Speaker: 4:30-5:00pm, Room: ATL 3400(only when in-person) [For AOSC Students only]
[ Subscribe to receive seminar announcements | Email aosc-deptseminar@umd.edu to give a seminar ]