Goethe University Frankfurt’s new measuring device: Halogenated greenhouse gases are also emitted in Germany
Goethe University Frankfurt commences measurement of halogenated hydrocarbons on Kleiner Feldberg, a mountain near Frankfurt
image: The Taunus Observatory on the mountain Kleiner Feldberg near Frankfurt am Main houses the new "Medusa" device, which detects climate-relevant F-gases. view more
Credit: Markus Bernards for Goethe University Frankfurt
FRANKFURT. In the past, they were found in every refrigerator and aerosol until it was discovered that they had ripped a hole in the ozone layer protecting Earth’s atmosphere: chlorofluorocarbons, in short CFCs. Since 2000, the Montreal Protocol has practically abolished CFC production worldwide. Halogenated hydrocarbons without chlorine, known as F-gases, were increasingly used as a substitute – until it emerged that these gases, although they do not constitute a threat to the ozone layer, are nonetheless potent greenhouse gases, just like CFCs. Accordingly, F-gases were added to the Montreal Protocol in 2016 within the “Kigali Amendment”. In Europe, the F-Gas Regulation (517/2014) aims to ensure the reduction of emissions.
Despite their low concentrations, halogenated greenhouse gases play a significant role in climate change: They are responsible for up to nine percent of the anthropogenic greenhouse effect – one kilogram of these gases can have the same impact on the climate as ten tons of carbon dioxide. To date, however, their occurrence in the atmosphere has not been systematically monitored in Germany.
Within the ACTRIS research infrastructure, scientists from Goethe University Frankfurt have now put a measuring device called “Medusa” into operation at the Taunus Observatory on Kleiner Feldberg, a mountain near Frankfurt, which continuously measures the concentration of many trace gases relevant for the atmosphere. Their measurements of halogenated greenhouse gases are also incorporated in the international AGAGE network, which has been monitoring the occurrence of climate-relevant trace gases at stations all over the world since 1978. These are the first high-quality measurements of this kind in Germany that can also be compared with data worldwide.
Professor Andreas Engel from the Institute for Atmospheric and Environmental Sciences at Goethe University Frankfurt, who is in charge of “Medusa”, says: “Our measurements have already clearly shown that there are significant sources of F-gases in Germany. We have therefore joined forces within an EU-funded project with other researchers, primarily from Germany, Switzerland and the UK, to quantify F-gas emissions on the basis of these measurements with the help of computer models and to further narrow down their regions of origin.”
The very low concentrations, the large number of components to be measured and the high accuracies required make the measurements very complex, he says. He is convinced, however, that – because of their significance – measuring F-gases should shift from research to official air monitoring in the long term: “We need to set up a program that also integrates the systematic recording of halogenated greenhouse gases, including F-gases, into the official atmospheric measurement system. This could deliver sufficient data to identify sources and take appropriate countermeasures.”
Background:
Greenhouse gases thought dead (Forschung Frankfurt 2-2020)
https://www.forschung-frankfurt.uni-frankfurt.de/108794305.pdf
AGAGE: Advanced Global Atmospheric Gases Experiment