Adapting to Climate Change: EU Agriculture and Forestry (EUC Report) Debate
Full Debate: Read Full DebateLord Cameron of Dillington
Main Page: Lord Cameron of Dillington (Crossbench - Life peer)Department Debates - View all Lord Cameron of Dillington's debates with the Department for Environment, Food and Rural Affairs
(13 years, 8 months ago)
Lords ChamberMy Lords, first, I declare an interest as a farmer, as a Lawes trustee at Rothamsted Research Station and as the new chairman of the Government’s global food security strategy board.
I was not on Sub-Committee D at the time of this report, so I come at the subject only from the evidence of my own experience, and I hope that your Lordships will forgive me if I extend my horizons slightly wider than Europe.
The Government’s chief scientist has, rightly, become famous for his “perfect storm” analogy, wherein the world has to produce at least 50 per cent more food over the next 40 years without damaging the environment, while emitting fewer greenhouse gases and using less energy and, above all, without depleting our water supplies. It is on this last issue that I should like to focus today in connection with agricultural adaptation. Indeed, the committee report highlights my point, saying:
“Effective water management lies at the heart of efforts to adapt EU agriculture to climate change”.
Although the Environment Agency gave evidence to the committee that water availability in England and Wales is going to be 15 per cent lower by 2050, it is elsewhere in the world, including southern Europe, that water problems are going to be really critical.
We actually have enough fresh water in the world to go around. We are currently using only 54 per cent of all accessible fresh water, which leaves 46 per cent untapped. However, even now, with today’s population, the reality is that a child dies as a result of poor sanitation every 20 seconds, amounting to some 1.5 million preventable deaths each year. Without serious political action, that situation can only get worse. Total world water demand is projected to rise by over 30 per cent by 2030. Many river systems, such as the Yellow River in China, the Murray-Darling in Australia, the Colorado in the US and the Indus in Pakistan, are already running dry due to excess irrigation. As we will all be aware, the Indus had terrible floods recently. However, it is the Indus delta, which is a very fertile and productive area of Pakistan, that has problems. It is being invaded by saline water and is thus becoming less productive.
Meanwhile, projections in Mediterranean countries such as Spain and Morocco indicate that declines in rainfall of up to 30 per cent might be expected in the future. Equally, the rainy seasons in Africa and India seem to be starting later and later. Perhaps because of this, Indian farmers are now taking 100 cubic kilometres more from their aquifers than are being replaced by rains. They have to drill deeper and deeper. Likewise, the water level in the aquifer under the Hebei Province of China, where much of the wheat is grown, is falling at the rate of 3 metres per annum.
As the noble Earl, Lord Selborne, has already commented, nearly 70 per cent of all water in the world consumed by man goes to produce food. Water availability becomes a critical issue when 40 per cent of the renewable resources are used for irrigation. It is at that point that difficult choices have to be made between agriculture and urban water supplies. By 2030, some southern European countries will be at or nearing this 40 per cent level, and, believe me, all politicians will choose to support the urban voter over his rural brother. Therefore, in all these countries and regions, adaptation and new practices will be needed, and I give a few examples.
The first is drip irrigation. Israel is at the forefront here, employing expensive sub-surface drip irrigation that puts the water right to the roots of the plant. There are not even pipes on the surface, and of course that is infinitely better than spray irrigation, where most of the water evaporates.
The second is recycling urban sewage. For example, faced with paying higher costs for imported water and desalination, Singapore has gone for self-sufficiency through treated sewage water. When the fifth plant opens this year, water from flushed toilets and so on will account for some 30 per cent of Singapore’s drinking water. There are other examples, such as in India, where the sewage effluent of Hyderabad is mixed with the waters of the River Musi and put into underground pipes to help to grow vegetables in Andhra Pradesh.
The third is better capture and storage. They do not have to be big reservoir schemes, as many small schemes for individual farms and communities are usually better. In southern Europe and elsewhere they will need government support either with grants or with cheap capital.
The fourth is better use of shallow aquifers. If you want to store water in a hot country, what better way is there than pumping the excess water in the rainy season down to the underground aquifer to store it so that you can use it later on? You have a ready built reservoir, free from the problems of evaporation and free from the problems of flooding people’s homes, as can happen when you build an above-ground reservoir. I realise that there are complications in doing that, but as a method it has been quite successfully used in many parts of the world.
The fifth is better use of modern farming systems, such as no-till cultivation techniques, which, again, the noble Earl, Lord Selborne, mentioned. That greatly reduces the evaporation of water from the soil and encourages better organic matter, which is very useful in developing countries as an important source of fertiliser.
Last, but not least, we need to make better use of modern plant-breeding techniques across Europe. For example, if you can silence the gene in maize which makes the plant transpire and therefore need twice as much water as it really needs in order to grow its cobs, you can help to feed more with less. Equally, plant breeders are finding varieties of rice and other staple crops that now require less water than old varieties. There is a variety of rice with the wonderful name of scuba rice which allows rice to survive underwater in floods for much longer periods than was possible in the past.
Europe simply must invest in new technology and it must not be frightened of persuading its consumers that these varieties are safe to grow and to eat. I have a view that if scientists, farmers and everyone involved in the food chain seriously focused on how to feed 9.4 billion people—our forecasted population—we will be able to feed them, providing, of course, politicians and other funders can take a long-term view.
On water, no one is denying that there will not be serious problems in some areas, which there already are, as there is some political unrest and strife in areas such as northern Kenya and the Middle East. As regards food shortages, if the nations of the world can continue to work together and trade together, water shortages will remain localised and not affect the overall supply of food. I agree that that is a big “if”, and the key phrase is “providing politicians can take a long-term view”—which, in the immortal words of Private Frazer, means: “We’re all doomed!”.