Massive amount of ozone is being destroyed in the lower atmosphere over the tropical Atlantic Ocean, scientists have revealed, adding that this is much more than predicted by other climate change models.
This startling discovery was made by a team of scientists from the UK's National Centre for Atmospheric Science and Universities of York and Leeds.
It has particular significance because ozone in the lower atmosphere acts as a greenhouse gas and its destruction also leads to the removal of the third most abundant greenhouse gas; methane.
The findings come after analyzing the first year of measurements from the new Cape Verde Atmospheric Observatory, recently set up by British, German and Cape Verdean scientists on the island of Sao Vicente in the tropical Atlantic.
Alerted by these Observatory data, the scientists flew a research aircraft up into the atmosphere to make ozone measurements at different heights and more widely across the tropical Atlantic.
The results mirrored those made at the Observatory, indicating major ozone loss in this remote area.
Instruments developed at the University of Leeds, and stationed at the Observatory, detected the presence of the chemicals bromine and iodine oxide over the ocean for this region.
These chemicals, produced by sea spray and emissions from phytoplankton (microscopic plants in the ocean), attack the ozone, breaking it down. As the ozone is destroyed, a chemical is produced that attacks and destroys the greenhouse gas methane.
Up until now it has been impossible to monitor the atmosphere of this remote region over time because of its physical inaccessibility.
Including this new chemistry in climate models will provide far more accurate estimates of ozone and methane in the atmosphere and improve future climate predictions.
"This study provides a sharp reminder that to understand how the atmosphere really works, measurement and experiment are irreplaceable," said Professor John Plane from the University of Leeds.
"The production of iodine and bromine mid-ocean implies that destruction of ozone over the oceans could be global," he added.
According to Dr Lucy Carpenter, University of York and UK co-ordinator of the Observatory, "This observatory is a terrific facility that will enable us to keep an eye on the chemical balance of the atmosphere and feed this information into global climate models to greatly improve predictions for this region in the future".