Climate Change

Lord Hunt of Chesterton Excerpts
Thursday 24th January 2019

(5 years, 10 months ago)

Lords Chamber
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Lord Hunt of Chesterton Portrait Lord Hunt of Chesterton (Lab)
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My Lords, this is an important debate, which was well introduced by the noble Lord, Lord Teverson. It is, first, an opportunity to review progress in understanding scientific progress and technological developments, especially those associated with extreme and unusual processes and phenomena. Secondly, we should review and identify new and appropriate technologies and strategies for urban areas and communities around the world. I declare my interest as an emeritus science professor at UCL and co-chair of the Asian Network on Climate Science and Technology.

Parliamentarians have supported how essential it is to have a broad and integrated approach to dealing with these issues and to support the Government in that respect. It is only when we work on international programmes that we can make contributions, as the noble Earl, Lord Selborne, commented. Nearly 10 years ago, I was proud to join other UK parliamentarians in helping the growth of the Global Legislators Organisation for a Balanced Environment, which helped ensure that a large number of the countries in the world—150 or so—came together to develop policies that eventually led to the Paris Agreement in 2015.

I will use this opportunity to point out where the UK and other government agencies, as well as research and industry, could progress more rapidly using effective climate policies. I hope to explain the worrying rise in overall temperatures and how in many areas there are extremes in precipitation and other meteorological effects. To give your Lordships an example, when I was chief executive of the Met Office, I learned from our forecasters how west-to-east coherent jet streams in the northern hemisphere tended to become chaotic—I was going to say “fizzle out”—as they came over western Europe, therefore weather forecasters did not talk about the jet stream over Europe. But research that has taken place in the past five to six years in Europe and the United States now shows weather forecasters how the jet stream persists over northern Europe. This partly explains why, associated with the warming of the Arctic and the decrease in polar ice, the jet stream is now much stronger over Europe, which leads to considerable changes in the weather, as we have seen in the past few years. A number of severe winds and temperature changes have been observed.

In tropical areas, extreme precipitation has occurred more frequently over mountainous urban areas such as those in south-west China, including Hong Kong, and Kuala Lumpur in Malaysia. Rapid reconstruction methods in communities damaged by floods have been invented by engineers in some developing countries, such as Malaysia, and a number of other developing countries make use of them—whereas there is a tendency, when you have damaging floods, simply to cast away all the woodwork and buildings.

Extreme winds and rainfall associated with tropical cyclones are becoming more dangerous. Typhoon Haiyan in the Philippines had unique features: the wind was so strong that it pushed back the sea and lifted stones from the bottom that then crashed into buildings and vegetation even a few kilometres inland. In fact, the wind was so intense that the bark was stripped from the trees, which many people studying it said had never been seen before.

In my first debate in the House of Lords in 2000, noble Lords discussed their concern about the rise in coastal sea levels. Since then, there have been serious floods along the rivers associated with significant and persistent precipitation and high winds. Coastal communities in the UK and around Europe, agriculture and Governments are now having to contribute financially to raising the dykes and pumping schemes. That is a serious matter.

Other equally important and long-term risks in coastal areas have been associated with non-carbon nuclear power stations and nuclear waste-processing facilities. These are also being installed in Asia. Other risks in those areas are associated with volcanoes, earthquakes and tsunamis along coastlines, such as the Fukushima nuclear power plant breach, which UK insurance companies have been involved with. Artificially generated carbon emissions and earthquakes caused by fracking are also a factor.

People will continue to live in these dangerous areas. They will have to make use of these new methods to reduce risk. One of the most important developments in which I am involved is that of fusion energy in small, modular systems, which are now being supported by the Government and the private sector. We now expect those systems to be producing electrical energy, perhaps in the next five to 10 years—a considerably shorter time than the very large international ITER fusion project in France, which is not, I notice, being supported by the UK’s EU parliamentarians.

As recent articles in Nature and the newspapers have commented, urban areas are producing some new technologies. One of the most remarkable ones is Wuhan, where very high-level solar panels cover large areas of the city, so that the city becomes rather like a forest canopy, with a great reduction in radiation—heat—hitting the ground; it is reflected.

Finally, Members of the House of Lords who enjoy drinking wine might like to know that one problem of climate change is too much heat, which makes the wine too alcoholic. What are they now doing in France? They are putting solar collectors along the lines of the vineyards. That is very interesting.