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The warming of the EarthA summary based on the results published in the fourth IPCC report (AR4) on the state of our climate system.
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The world climate report 2007 By coincidence, the climate experts of the world presented the fourth assessment report on our climate system just after a very warm European winter. It seemed the weather would like to give us an idea of how the future climate might be. Since then the topic has been dominating the headlines more than ever because it becomes very clear from the report: There is no time left to put off taking radical measures. |
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Most of us, whether children, teenagers or adults, are nowadays aware that the relation of nature and human culture is double edged. In this it is not only nature threatening the human life conditions, but the human way of life is more and more influencing our environment on a global scale. The fourth world climate report summarises what scientists observe and which projections they make. We illustrate in three texts the most important facts and look also at the present human influenced climate change against the background of Earth's history. |
What do we measure and what do we feel? We cannot easily conclude from the daily change of the weather if the situation in the atmosphere around us is normal or not normal. |
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2. If we include in this diagram the daily maximum values (red) and minimum values (blue) of the year 2006 we see that such a climate change of about 0.2°C per decade can hardly be experienced in the observation of the daily weather.
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What is the meaning of statistics? |
When I have a very lucky day, 15 of 60 throws may be a 6. That's certainly more than the 10 times I would have expected on average. But the next day it might be only 8 of 60. And if I do this over years, then lucky and less lucky days will even out. That's what we call a statistical distribution. However, if one of my opponents has a die and rolls a 6 2000 times from 6000 throws, then I should seriously consider whether the die is loaded. |
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This simple consideration is relevant for the key statement of the most important report on the state of our climate, which is published by experts from all over the world: climate is changing. It does not tell a lot about the climate, if there is a warm winter in France this year or a cool spring in Pakistan, or if the temperature in Cologne is 0.6°C above average in October. |
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Scientists measure the global average temperature. We have been doing this since about 1850. The result of these measurements is: 11 of the warmest years since 1850 were in the period of the last 12 years, from 1995 to 2006. In the preceding climate report in 2001 we were still unsure if this trend was stable. Today we know: the dice are loaded. Our global climate is clearly leaving the range of statistical oscillations we had so far in this rather stable interglacial period of the last 10,000 years. The climate is changing. |
The temperature trend The observed temperature trend can be illustrated with the following graph. The Earth's surface temperature has increased over the last 100 years (1906-2005) by about 0.56 – 0.92°C (best estimate: 0.74°C). |
This temperature increase is not steady, it is accelerating. If we take the measured values of the recent 50 years as a base for the increase 1956 to 2055 we would end up with an average increase of 1.3°C per 100 years. |
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We already know that global warming will accelerate even more over the next 50 years. This is because the amount of carbon dioxide in the air which contributes significantly to this warming has increased over the last 50 years and continues to increase. |
Climate sensitivity Already from the observed changes we can estimate that our world has become about 0.13°C warmer per decade and that this trend is increasing. For the next two decades climate models expect a warming of about 0.2°C per decade. (We have observed this for example in Cologne.) |
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For long term estimates the so called "climate sensitivity" has been intensively discussed. Climate sensitivity is defined as the warming of the Earth's surface which is expected for a doubling of the carbon dioxide mixing ratio in the atmosphere (from the pre-industrial value of 280 ppm to 560 ppm*). In a previous issue of this magazine we reported that there are larger uncertainties in this (ACCENT special July 2005). The research of the recent years estimates now that planet Earth would warm up in this case by about 2 – 4.5°C, and at least by 1.5°C. A value of 3°C is said to be the best estimate. |
We have to consider two things: We have already increased the mixing ratio of carbon dioxide in the atmosphere from 280 to 380 ppm, with high speed in particular over the last 50 years and we are continuing to do it unchecked. To reach a value of 560 ppm before the year 2100 is not unlikely. |
At the same time experts agree that changes in the world climate owing to a temperature increase of 2°C compared to the pre-industrial values (0.8°C are already reality) will have severe consequences but can still be handled. |
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Cooling by particles and clouds The greenhouse effect is the most important drive of global warming. However, there are other climate factors working in the opposite direction and causing a cooling. These are mainly effects which are induced by liquid and solid particles in the air (so called aerosols), and indirectly, related to the aerosols, the back-scattering effect of increasing cloudiness. |
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Thanks to intensive research in the last 6 years we know now more about these effects than at the time of the last IPCC report in 2001. However, uncertainties are still high. In any case we can say that without these cooling effects global warming would be clearly more intensive than we observe now. If particles prevent more solar energy from reaching the ground this is in many cases also an effect caused by humans. In other words: air pollution or smog. Such a supporter against the greenhouse effect is neither intended nor healthy. |
What is radiative forcing? The disturbances which influence our climate system (e.g. increased concentrations of greenhouse gases or increased cloudiness) have an impact on the radiation budget in the system of Earth's surface and lower atmosphere (troposphere). |
The energy flow per time measured in the unit Watt (W = J/s) for each square metre of the Earth is called radiative forcing (RF). If this parameter RF (W / m2) is positive, the respective climate factor (for example carbon dioxide and other greenhouse gases) contributes to a warming of our planet. If it is negative, the climate factor (for example aerosols) contributes to a cooling. In the graph on the right we see two columns with climate factors. The left column shows factors which have a warming impact, the right one factors with a cooling impact. We see the dominant role of the greenhouse gases carbon dioxide, methane (CH4), dinitrogen monoxide (N2O) and organic halogen compounds (in particular CFCs). The greenhouse gas ozone plays a double role, since on the one hand ozone increases next to the ground, on the other hand the stratospheric ozone in the ozone layer is depleted. |
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We see that the cooling effects of particles in the air and additional cloud formation cause a strong cooling. But they do not compensate for the global warming. However, in particular for these cooling factors we are rather insecure about their dimension. Therefore a wide uncertainty range is given. We express this in the graph below. This uncertainty is so large, that in the most extreme case we could assume, that global warming is outweighed by the cooling effects. But this is not in agreement with our observations. |
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The responsibility of the humans The present observations cannot be explained from natural processes without human interaction. In a discussion which was still up to date 10 years ago the question was asked: Is mankind responsible for this global warming or is it due to natural oscillations in the world climate or changing solar irradiation? Experts have been in most cases very careful in answering this question due to limited knowledge. Today, in 2007, the statement is: The understanding of anthropogenic warming and cooling influences on climate has improved since the Third Assessment Report (TAR), leading to very high confidence that the globally averaged net effect of human activities since 1750 has been one of warming. |
11. A map of the World Resources Institute (WRI) shows the size of the countries and continents proportional to their contribution to global warming in 2002. © WRI
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Estimations for the future We expect from the "world climate report" not only a statement about the status quo but also an outlook to the future. Based on many different climate models the experts estimate that in the decade 2090 – 2099 it will be 1.1 – 6.4°C warmer on the Earth's surface on average globally than in the reference time 1980 – 1999. (Please consider, that between 1900 and the reference time 1980 - 1999 a warming of 0.5°C already took place.) |
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This estimation for the future covers a very wide range of temperatures. This is for two reasons. First, not all climate models work in the same way. They are based on different assumptions, mathematical processes and included feedbacks. None of the models can simulate the climate system in its full complexity. Therefore, simplifications are necessary, which lead to uncertainties. (See also the ACCENT edition on climate modelling.) |
For our future climate there is a big difference if we change to renewable energies quickly or slowly, or if the world's population peaks in 2050 or continues to grow, if the developing countries progress slowly or quickly in their technological level and if the nations aim primarily at local solutions or converge in a world with fast interaction. The following table gives an overview of the factors on which the scenarios are based: |
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The abbreviations can be roughly described as follows: Family A = economy basically not influenced by sustainability |
In none of the scenarios restrictions based on global environmental agreements are counted in, such as foreseen by the Kyoto protocol or the climate convention of the United Nations UNFCCC. We see that the limitation of global warming to a bearable level ( below 2°C ) is only possible in a converging world with fast technological progress, decreasing birth rates in developing countries and a change to renewable energies. In this it is beneficial if the economy aims at sustainable development. |
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