Six years of measurements (1963)(1964)(1965)(1966)(1967)(1968) of carbon dioxide in the troposphere and the lower stratosphere are presented. The data reveal an average annual increase of the C0,-content of 0.7 + O . l ppmlyear, while during this time the annual industrial output has increased from about 1.9 ppm to 2.3 ppmlyear. Thus the increase in the atmosphere is about & of the total output. Considerations of the possible increase of vegetative assimilttim due to the higher COX-content of the atmosphere reveals that this is at most of the output, probably considerably less. The net transfer to the oceans thus is at least equal to + of the industrial output. The transfer rate across the sea surface seems effective enough not to represent an appreciable resistance and the decisive factor for determining this transfer therefore is the ocean circulation or turn over rate. The figures quoted indicate that 20-25 %, of the world oceans must have been available during the time of rapid increase of the industrial output of CO, (the last 30-50 years) to explain the rather large amount that has been withdrawn from the atmosphere. Still a continued increase of the fossil fuel combustion as forecast by OECD implies that the C0,-content of the atmosphere a t the end of the century will be between 370 pprn and 395 ppm as compared with 320 ppm, the average value for 1968. The amplitude of the seasonal variation is found to be about 6.5 ppm at 2 km and 3.5,ppm in the uppermost part of the troposphere. The phase shift of t,he seasonal variation between these two levels is 25-30 days. On the basis of these data a vertical eddy diffusivity K = 2. lo6 cm2 sec-l is derived. The amplitude of the seasonal variation in the lower stratosphere, 11-12 km, is less than 1 pprn and the phase is delayed a t least l+ month as compared with the upper troposphere.
Abstract. The 'age' of stratospheric air is a measure that characterizes the time scales of stratospheric transport. In this work we present and compare age-values as determined from measurements of CO2 and SF6 on air-samples obtained between 1987 and 1995 on six flights of our balloon-borne cryo-sampler. In the middle stratosphere for five out of six flights we find agevalues that are up to three years lower for CO2 than for SF6. This CO2-age anomaly corresponds to an excess of 4-5 ppm CO2. Evidence is presented that this excess-CO2 originates from rapid convective transport of near surface air. Additionally, we show that globally no compact relationship exists between the age of air and mixing-ratios of N20.
Experiments made with different types of infrared gasanalyzers (URAS 1, UNOR 2, UNOR 5B) show considerable deviation in the result when using various mixing ratios of N, and 0, as a "carrier gas" for COP Tellus 135
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