Activity leaders
The initial co-chairs of HTHH are:
Yunqian Zhu
LASP & CIRES/NOAA, USA
Graham Mann
University of Leeds
Paul A. Newman
NASA Goddard, USA
Members (more to be added):
–
Activity description
This HTHH community assessment spans multiple research topics but is focused on the following three science themes:
A. Plume evolution, dispersion and large-scale transport
B. Impacts on stratospheric aerosols and the ozone layer
C. Radiative forcings from the eruption and surface climate impacts.
SPARC is establishing a new activity to examine impacts of the Hunga Tonga–Hunga Ha’apai (HTHH) eruption of January 2022. HTHH was the
most explosive volcanic eruption in the satellite era, and the water-rich plume presents an opportunity to understand the impacts on the stratosphere of a large magnitude explosive phreatomagmatic eruption. The wide range of satellite observations of the early stratospheric plume and its global dispersion will provide measurements to evaluate a range of models for their capabilities to represent stratospheric chemistry, aerosol
and dynamics, in this case where both water vapor and aerosol are influencing radiative balances and stratospheric ozone.
There are numerous HTHH eruption observational and modeling studies that have been published, preprints of submitted papers, and new research in early stages. As the dispersed volcanic cloud continues to evolve and its impacts emerge, additional papers will be published. Because of the
number and broad range of studies of the HTHH emissions and impacts, a SPARC limited-term cross-activity focused project is being organized to provide a forum for community discussions and synthesis, and to coordinate multi-model assessments. During this 3-year HTHH SPARC activity, the team will co-ordinate research activities and aim to write a special Hunga-Tonga impacts report for publication in late-2025. The report
will directly feed into the upcoming 2026 UNEP/WMO Scientific Assessment of Ozone Depletion report, providing a benchmark synthesis of the impacts from the eruption. Interested scientists in the broader research community are welcomed to be involved in this activity
Plans
The tentative 3-year HTHH activity schedule will posted and updated on the SPARC HTHH activity website:
- 2022
Nov: HTHH activity begun - 2023
Jan: Outline 1st circulated for comments
May: 1st On-line open meeting
Jun: Model simulations specified
Jun: Outline 2nd draft completed
Aug: Recruit chapter lead authors
Dec: AGU special session on HTHH (side meeting with chapter leads) - 2024
Feb: Model simulations complete, output submitted & begin analysis
Feb: Chapter authors selected by chapter leads finalized
May: Model analysis completed
Jun: In-person open meeting
Jul: Outline 3rd order draft finalized by chapter authors
Sep: 1st draft completed & sent out for external review
Nov: Reviews due, revisions begin - 2025
Feb: 2nd draft completed & reviewed by Editors and chapter Leads
May: 3rd draft completed
Jul: Writing of the Executive Summary, revisions added to 3rd draft
Sep: Final chapter submission
Dec: Report Delivered
The final HTHH SPARC Report:
Initial chapters will document the stratosphere aerosol and ozone layer impacts in 2022, and analyze Antarctic ozone hole impacts expected also in 2023 and 2024, along
with water vapor impacts via the upper atmosphere likely to continue into 2024 and 2025.
This HTHH community assessment spans multiple research topics but is focused on the following two science themes:
A) Plume evolution, dispersion and large-scale transport;
B) Impacts on and feedback from the earth system.
Potential chapters include:
- Initial plume dispersion (first week); Evolution of the volcanic cloud and its meridional dispersion;
- HTHH effects on atratospheric temperatures, dynamics, and transport;
- HTHH effects on ozone and stratospheric chemistry;
- Upper stratosphere to mesosphere effects & H2O transport in the deep Brewer-Dobson circulation branch;
- and the radiative and surface/tropospheric climate impacts of the eruption.