BalNeO : Balloon Network for stratospheric aerosol Observations
The Stratospheric aerosol layer is a key component of the climate system with global implications on surface temperature and the hydrological cycle. Being highly variable, regular observations are needed to understand its different sources. Since the era of satellite observations in the late 70’s, major and moderate volcanic eruptions affected the total Stratospheric Aerosol Optical Depth by up to a factor of 100 (Fig.1) with subsequent cooling impacts on climate. In addition, recent extreme wildfires in Canada and the Australian have impacted the stratosphere at levels never observed before. Finally, the Summer Asian Monsoon exports surface pollution into the stratosphere and represent another significant source.
In addition, Geoengineering the climate using artificial stratospheric injection of aerosols have been proposed as temporary solution to reduce the impacts of climate change. Having a network of observations of critical to detect any artificial injection and trace back its origin.
While stratospheric optical properties have been monitored for more than 4 decades with satellite observations quasi-globally (Fig.1), in situ measurements of size distributions have focused mostly on the Northern Hemisphere with less coverage over the tropical region.
The Balloon Network for stratospheric aerosol Observation (BalNeO) aims to fill this gap and provide more complete coverage of stratospheric aerosol properties using lightweight aerosol instruments. The first two stations of BalNeO includes Reims (France) and Bauru (Brazil) started balloon activity this month with a number of layers.
The first flight of this network took place on 4 June 2024 from Reims. Results from this first flight shows some very interesting features. Near the tropopause (~12km), a layer with enhanced aerosol concentration was observed and may have originated with wildfires in British Columbia which took place 10 days prior to the flight.
In addition, a thin aerosol layer near 17 km could have been transported from the tropics to Europe after the Ruang eruption at the end of April. Those unique observations will provide some insights on stratospheric aerosol variability and its impact on climate.
The Brazil Meteorological Institute launched their first tropical BalNeO flight into the Ruang volcanic plume which will gain some insights into the formation and long-range transport of volcanic aerosols after moderate volcanic activity.
BalNeO hopes to extend its activity in India and US over the next few months and become a reference network for stratospheric aerosol observations.