Could we control our climate?
Could we control our climate?

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Could we control our climate?

3.1 Industrial sulfates

This section will start from a different perspective.

It’s 1972. The latest global mean surface temperature changes are shown in Figure 6.

Figure 6 shows variation of temperature from the HadCrut Dataset. It is shown as a line graph of Temperature Anomaly relative to 1850–1879 in °C against year from 1850–1972. The graph shows a noisy pattern, but there is a decline from 1850 to 1910, an increase from 1910 to about 1940, then a small decrease from 1940–1972.
Figure 6 Global mean surface temperature changes for the period 1850–1972 (adapted from IPCC, 2013a).
  • Would you say the ‘recent’ changes in temperature since 1940 showed warming or cooling?

  • The trend is negative – in other words, ‘global cooling’.

With the benefit of hindsight, we now know that the long-term trend changed from cooling to warming. But in 1972, with climate science still a new field, it was not at all clear what was going on.

In the 1970s, some media outlets presented dramatic predictions of a new ice age (Figure 7). They were reporting – and, in some cases, exaggerating – a handful of scientific studies that examined the past three decades of GMST and suggested these may be the start of a longer global cooling period.

A collage of newspaper articles reporting predictions of global cooling in January 1970 (‘Colder Winters Held Dawn of New Ice Age’ and ‘Scientists See Ice Age In the Future’, Washington Post) and May 1975 (‘Scientists Ponder Why World’s Climate Is Changing; a Major Cooling Widely Considered to Be Inevitable’, New York Times). The collage was made by an American conservative think tank and also includes a story from May 1932 about melting ice caps (‘Next Great Deluge Forecast by Science’, New York Times).
Figure 7 A collage of newspaper articles reporting predictions of global cooling from the 1970s.

Watch the following sequence from the BBC’s ‘Climate Change: A Horizon Guide’ The Horizon Guide series collects sequences from BBC programmes over the past to illustrate how views on a particular scientific topic have evolved.

Download this video clip.Video player: s201_2016j_vid105-320x176.mp4
Skip transcript: Video 1 Sequence from the BBC’s ‘Climate Change: A Horizon Guide’, first broadcast in March 2015.

Transcript: Video 1 Sequence from the BBC’s ‘Climate Change: A Horizon Guide’, first broadcast in March 2015.

SPEAKER 1:
The weather satellite depicts a planet that grieves for its lost harvests, while the price of food keeps going up.
HELEN CZERSKI:
Climate was becoming an issue but the central message was rather different to today.
SPEAKER 2:
Will a new Ice Age claim our lands and bury our northern cities? It's buried Manhattan Island before when great glaciers half a mile thick filled the valley of New York's Hudson River.
SPEAKER 1:
Unless we learn otherwise, it will be prudent to suppose that the next Ice Age could begin to bite at any time.
HELEN CZERSKI:
Global warming, as the theory was called then, was also being studied by scientists and it was mentioned in the same program, but almost as an interesting aside.
BERT BOLIN:
And there is a lot of oil and there are vast amounts of coal that they seem to be burning it with an ever increasing rate. If we go on doing this, in about 50 years time, the climate may be a few degrees warmer than today. We just don't know. Let's therefore keep an eye on the amount of carbon dioxide in the air.
HELEN CZERSKI:
It would be global warming, not the threat of an Ice Age, that would go on to become the dominant scientific issue. It's fascinating to look back to a time when global warming wasn't the main story. Scientists are only just beginning to get to grips with the complexities of the climate system and how and when it might be changing. And that just wasn't enough information around for them to be confident about what was happening. But that was beginning to change.
In the late 1970s, the arguments for a new Ice Age began to melt away. The theory was based on emissions of the gas sulfur dioxide, then a major atmospheric pollutant. This gas was known to have a cooling effect and some scientists calculated that this could push the planet into an Ice Age. But it soon became clear that both the amount of sulfur dioxide pollution and the size of its cooling effect had been overestimated. There would be no big freeze after all.
End transcript: Video 1 Sequence from the BBC’s ‘Climate Change: A Horizon Guide’, first broadcast in March 2015.
Video 1 Sequence from the BBC’s ‘Climate Change: A Horizon Guide’, first broadcast in March 2015.
Interactive feature not available in single page view (see it in standard view).
  • Did the scientists of the time think CO2 was still having a warming effect on the planet?

  • Yes. Professor Bert Bolin says that if we go on burning oil and coal, ‘in about 50 years’ time the climate may be a few degrees warmer than today’. But some thought the effect of sulfur dioxide pollution might be stronger, so the overall effect would be cooling.

  • Why did the predictions of long-term global cooling ‘melt away’?

  • Because ‘both the amount of sulfur dioxide pollution and the size of its cooling effect had been overestimated’.

Sulfur dioxide gas (SO2) is released when burning coal and petroleum, smelting metal and from other industrial processes (Smith et al., 2011). The gas rapidly reacts with water vapour in the atmosphere to make droplets of sulfuric acid called sulfate aerosols, or sulfates for short. (The word aerosol means small particle or droplet.) Because industrial sulfates are emitted at low levels in the atmosphere they have a lifetime of only a few days or weeks before they are rained out, but they are continually replenished.

The droplets reflect some of the Sun’s radiation, thus cooling the atmosphere. But this is not the only story, as they also have complicated indirect effects. Particles of this size can act as cloud condensation nuclei, seeding clouds by encouraging water vapour to condense, and these clouds can have a warming or cooling effect. Despite this complexity, the estimated net effect of the direct and indirect mechanisms is clear: cooling.

The IPCC estimated sulfate aerosols offset about a quarter of the estimated forcing from CO2 between 1850 and 2011 (IPCC, 2013a). The sulfate aerosol cooling effect is sometimes referred to as ‘global dimming’.

Figure 8 shows an estimate of how global sulfur dioxide emissions have changed through time. You can see the main characteristics of a long-term increase up to about 1975, and then a decrease in the last decades of the twentieth century.

Figure 8 is a line graph that plots global sulfur emissions in Gg of SO2 on the y or vertical axis, against year from 1900 to 2000 on the x or horizontal axis. The data has 12 overlapping data sets, which all show a similar pattern: a rise from 20,000 Gg in 1900 to about 50,000 Gg 1950, a steeper rise to a peak of about 140,000 Gg in 1980 and a steady decline to about 120,000 in 2000.
Figure 8 Global sulfur dioxide emissions (solid line) with 5–95% uncertainty bounds (dashed lines) (Smith et al., 2011).
  • What does this decrease in SO2 emissions mean for global temperatures?

  • It means a decrease in the cooling effect (i.e. a relative warming).

Have a look at some of the individual regional estimates in Figure 9 to investigate the regional impact of this decrease further.

Figure 9 is a line graph that plots regional sulfur emissions in Gg of SO2 on the y or vertical axis, against year from 1850 to about 2010 on the x or horizontal axis. Four lines are plotted, each representing different global regions: North America, Europe, former Soviet Union (FSU) and East Asia. Three of the curves (North America, Europe and FSU) show a similar pattern, increasing to peaks of 20,000 Gg to 40,000 Gg around 1940 then decreasing towards the present. East Asia shows, on this scale, fairly small increases from zero in 1850 up to about 1950, then steeper increases for the remainder of the period covered.
Figure 9 Global sulfur dioxide emissions by region for the four highest emitting regions (North America; Europe, FSU (former Soviet Union); and East Asia (Smith et al., 2011).
  • Comparing the graphs, which regions in Figure 9 correspond with the global decrease shown in Figure 8?

  • The same decrease is seen in the emissions for North America, Europe and (later) the former Soviet Union. It is not seen in the largest current emitter, East Asia.

The declines in SO2 emissions in North America and Europe were due to pollution regulations in the 1970s, such as the US Clean Air Act of 1970, which were brought in to avoid problems such as acid rain. So – somewhat ironically – regulation to improve air quality reduced the aerosols in the atmosphere, and so has had the side effect of increasing the net global warming effect of fossil fuel combustion.

In recent years there has been a large increase in coal combustion in China, so East Asia has overtaken the other regions: the declining trend in global SO2 emissions appears to have reversed.

CLI_1

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