Results from the Fourth WMO Filter Radiometer Comparison for aerosol optical depth measurements Atmospheric Chemistry and Physics DOI 10.5194/acp-18-3185-2018 6 March 2018 Aerosol optical depth measured from ground-based sun photometers is the most important parameter for studying the changes in the Earth’s radiation balance due to aerosols. Representatives for various sun photometer types belonging to individual institutions or international aerosol networks gather every 5 years, for 3 weeks, in Davos, Switzerland, in order to compare their aeorosol optical depth retrievals. This work presents the results of the latest (fourth) filter radiometer intercomparison. WMO Filter Radiometer Comparison for aerosol optical depth measurements">Read more
The maintenance of elevated active chlorine levels in the Antarctic lower stratosphere through HCl null cycles Atmospheric Chemistry and Physics DOI 10.5194/acp-18-2985-2018 1 March 2018 This paper revisits the chemistry leading to strong ozone depletion in the Antarctic. We focus on the heart of the ozone layer in the lowermost stratosphere in the core of the vortex. We argue that chemical cycles (referred to as HCl null cycles) that have hitherto been largely neglected counteract the deactivation of chlorine and are therefore key to ozone depletion in the core of the Antarctic vortex. The key process to full activation of chlorine is the photolysis of formaldehyde. Read more
Long-term series and trends in surface solar radiation in Athens, Greece Atmospheric Chemistry and Physics DOI 10.5194/acp-18-2395-2018 19 February 2018 The National Observatory of Athens has been collecting solar radiation, sunshine duration, and cloud and visibility data/observations since the beginning of the 20th century. In this work we present surface solar radiation data since 1953 and reconstructed data since 1900. We have attempted to show and discuss the long-term changes in solar surface radiation over Athens, Greece, using these unique datasets. Read more
Total ozone trends from 1979 to 2016 derived from five merged observational datasets – the emergence into ozone recovery Atmospheric Chemistry and Physics DOI 10.5194/acp-18-2097-2018 14 February 2018 This paper commemorates the 30-year anniversary of the initial signing of the Montreal Protocol (MP) on substances that deplete the ozone layer. The MP is so far successful in reducing ozone-depleting substances, and total ozone decline was successfully stopped by the late 1990s. Total ozone levels have been mostly stable since then. In some regions, barely significant upward trends are observed that suggest an emergence into the expected ozone recovery phase. Read more
Evidence for a continuous decline in lower stratospheric ozone offsetting ozone layer recovery Atmospheric Chemistry and Physics DOI 10.5194/acp-18-1379-2018 6 February 2018 Using a robust analysis, with artefact-corrected ozone data, we confirm upper stratospheric ozone is recovering following the Montreal Protocol, but that lower stratospheric ozone (50° S–50° N) has continued to decrease since 1998, and the ozone layer as a whole (60° S–60° N) may be lower today than in 1998. No change in total column ozone may be due to increasing tropospheric ozone. State-of-the-art models do not reproduce lower stratospheric ozone decreases. Read more
Aerosol characteristics and particle production in the upper troposphere over the Amazon Basin Atmospheric Chemistry and Physics DOI 10.5194/acp-18-921-2018 25 January 2018 We made airborne measurements of aerosol particle concentrations and properties over the Amazon Basin. We found extremely high concentrations of very small particles in the region between 8 and 14 km altitude all across the basin, which had been recently formed by gas-to-particle conversion at these altitudes. This makes the upper troposphere a very important source region of atmospheric particles with significant implications for the Earth’s climate system. Read more
Response to marine cloud brightening in a multi-model ensemble Atmospheric Chemistry and Physics DOI 10.5194/acp-18-621-2018 19 January 2018 Marine cloud brightening (MCB) has been proposed to help limit global warming. We present here the first multi-model assessment of idealized MCB simulations from the Geoengineering Model Intercomparison Project. While all models predict a global cooling as intended, there is considerable spread between the models both in terms of radiative forcing and the climate response, largely linked to the substantial differences in the models’ representation of clouds. Read more
Agricultural ammonia emissions in China: reconciling bottom-up and top-down estimates Atmospheric Chemistry and Physics DOI 10.5194/acp-18-339-2018 12 January 2018 Substantial differences exist in current estimates of agricultural ammonia emissions in China, hindering understanding of their environmental consequences. This study applies both bottom-up and top-down methods to better quantify agricultural ammonia sources in China using observations from satellite and surface networks interpreted by a chemical transport model. Our estimate of annual Chinese anthropogenic ammonia emission is 11.7 tg (teragram) for 2008 with a strong seasonality peak in summer. Read more
Temporal variability of tidal and gravity waves during a record long 10-day continuous lidar sounding Atmospheric Chemistry and Physics DOI 10.5194/acp-18-371-2018 12 January 2018 Gravity waves (GWs) as well as solar tides are a key driving mechanism for the circulation in the Earth’s atmosphere. The temporal variation of these waves is studied using a record long 10-day continuous Rayleigh–Mie–Raman lidar sounding at midlatitudes. This data set shows a large variability of these waves on timescales of a few days and therefore provides new insights into wave intermittency phenomena, which can help to improve model simulations. Read more
First tomographic observations of gravity waves by the infrared limb imager GLORIA Atmospheric Chemistry and Physics DOI 10.5194/acp-17-14937-2017 18 December 2017 Using the infrared limb imager GLORIA, the 3-D structure of mesoscale gravity waves in the lower stratosphere was measured for the first time, allowing for a complete 3-D characterization of the waves. This enables the precise determination of the sources of the waves in the mountain regions of Iceland with backward ray tracing. Forward ray tracing shows oblique propagation, an effect generally neglected in global atmospheric models. GLORIA">Read more
