Bibliographic Details
| Title: |
The BIRDIES Experiment: Measuring Beryllium Isotopes to Resolve Dynamics in the Stratosphere. |
| Authors: |
Wharton, Sonia1 (AUTHOR) hidy3@llnl.gov, Hidy, Alan J.1,2 (AUTHOR) mrepasch@unm.edu, Ehrmann, Thomas S.1,3 (AUTHOR) beydoun1@llnl.gov, Zhu, Wenbo4 (AUTHOR) wzhu12@umd.edu, Skinner, Shaun N.4 (AUTHOR) skinner1@umd.edu, Beydoun, Hassan1 (AUTHOR) gunawardena1@llnl.gov, Cameron-Smith, Philip J.1 (AUTHOR) lee1046@llnl.gov, Repasch, Marisa2,5 (AUTHOR), Gunawardena, Nipun1 (AUTHOR) maddren1@llnl.gov, Lee, Jungmin M.1 (AUTHOR), Visser, Ate6 (AUTHOR) visser3@llnl.gov, Griffin, Matthew1 (AUTHOR), Maddren, Samuel1 (AUTHOR), Oerter, Erik6 (AUTHOR) oerter1@llnl.gov |
| Source: |
Atmosphere. Dec2024, Vol. 15 Issue 12, p1502. 26p. |
| Subject Terms: |
*BERYLLIUM isotopes, *GRAVITY waves, *CHEMICAL models, *RAINFALL, *ISOTOPIC signatures |
| Abstract: |
Cosmogenic beryllium-10 and beryllium-7, and the ratio of the two (10Be/7Be), are powerful atmospheric tracers of stratosphere–troposphere exchange (STE) processes; however, measurements are sparse for altitudes well above the tropopause. We present a novel high-altitude balloon campaign aimed to measure these isotopes in the mid-stratosphere called Beryllium Isotopes for Resolving Dynamics in the Stratosphere (BIRDIES). BIRDIES targeted gravity waves produced by tropopause-overshooting convection to study their propagation and impact on STE dynamics, including the production of turbulence in the stratosphere. Two custom-designed payloads called FiSH and GASP were flown at altitudes approaching 30 km to measure in situ turbulence and beryllium isotopes (on aerosols), respectively. These were flown on nine high-altitude balloon flights over Kansas, USA, in summer 2022. The atmospheric samples were augmented with a ground-based rainfall collection targeting isotopic signatures of deep convection overshooting. Our GASP samples yielded mostly negligible amounts of both 10Be and 7Be collected in the mid-stratosphere but led to design improvements to increase aerosol capture in low-pressure environments. Observations from FiSH and the precipitation collection were more fruitful. FiSH showed the presence of turbulent velocity, temperature, and acoustic fluctuations in the stratosphere, including length scales in the infra-sonic range and inertial subrange that indicated times of elevated turbulence. The precipitation collection, and subsequent statistical analysis, showed that large spatial datasets of 10Be/7Be can be measured in individual rainfall events with minimum terrestrial contamination. While the spatial patterns in rainfall suggested some evidence for overshooting convection, inter-event temporal variability was clearly observed and predicted with good agreement using the 3D chemical transport model GEOS-CHEM. [ABSTRACT FROM AUTHOR] |
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