On Tuesday 24th November we had the Queen’s Speech debate on the environment and climate change. Two of the Bills introduced under the Queens Speech include Flooding and Water Management and Energy. I highlighted the wealth of marine science expertise we have in Plymouth. You can read an excerpt from that speech below I drew the House's attention to the growing problem of ocean acidification.

Plymouth Marine Laboratories (PML) have done much research in this area. You can watch the excellent animation about the issue which students at Ridgeway School have produced and which I mention in the speech –

I wish to cover five issues. The first of them is about a specific aspect of climate change that is little spoken about, perhaps because it emerged on the agenda only at the 2005 conference at the Met Office in Exeter while we were holding the chairmanship of the G8: ocean acidification, or the other CO2 problem as it sometimes referred to. Secondly, I will welcome some of the measures in the Energy Bill. Thirdly, I will anticipate the long-awaited final report of the Walker review on water metering and charging. Fourthly, and alongside that, I will welcome measures in the Flood and Water Management Bill. Fifthly, I shall raise one small, but very important, issue that brings both water and energy together in a way that could lead to a reduction in water bills, fuel bills and the carbon footprint.

First, let me turn to ocean acidification-the other CO2 problem. The Secretary of State for Energy and Climate Change recently visited Plymouth. When we were walking from the railway station to the university-yes, we walked there-to attend a question-and-answer session, I said to him that I must represent one of the most environmentally literate constituencies in the country, as there are 450 marine scientists working in it and some 1,400 to 1,500 environmental students at the university. Some of these people serve on international forums and work with scientists across the globe, including, particularly, Dr. Carol Turley of the Plymouth Marine Laboratory, who has served on the United Nations intergovernmental panel on climate change and who plays a leading role in the ocean acidification reference user group.

Even before the Secretary of State arrived, I was receiving e-mails from disappointed people who could not attend the question-and-answer session asking me to make sure the Secretary of State was fully seized of the importance to climate change of the other CO2 problem of ocean acidification. He went away with a heavy load of papers. I promised to let him have a CD of an animation that the Ridgeway school at Plympton made, and which has been shown at Copenhagen international conferences. It outlines this problem, graphically setting out the consequences and the way in which the sea has acted as a buffer for 25 per cent. of the CO2 produced since the industrial revolution. A key consequence is that the seas have become more acidic as carbon dioxide absorbed in the ocean becomes carbonic acid, and the sea water acidity has increased by 30 per cent. over that period. Without the steps proposed to limit our carbon emissions, this will accelerate and by 2060 sea water acidity could have increased by 120 per cent., greater than any increase in the past 21 million years.
This matters because at the bottom of the food chain in the oceans are many tiny creatures: zoo plankton, which have tiny shells and skeletons; shellfish, which are slightly larger; and molluscs, which play a very important role in daily diets across the world, and particularly of those of some poorer communities. The very existence of these creatures is threatened, as ocean acidification dissolves their small shells and skeletons.

The air we breathe depends on a healthy ocean for the production of oxygen, and the productive layers of seas stimulate clouds that help to shade the planet. These are just a couple of a cocktail of essential processes in the ocean that will be impacted upon by carbon emissions if the climate change talks do not come to a successful conclusion. If unchecked, carbon emissions could progressively affect whole ecosystems and trigger a chain reaction through the food chain. Apparently, there remains a degree of uncertainty in some people's minds about the impacts of climate change. The chemical changes in the ocean are much more certain and predictable, however. Although they are relatively minor at present, the impact of unchecked carbon emissions will be incremental, and the acidification process adds considerable weight to the arguments for immediate and significant cuts in CO2.

If my city is one of the most climate-change and carbon-emission literate, I believe the south-west region and the United Kingdom will be among the most literate at Copenhagen. We have big responsibilities to lead, and to persuade not only that we have a problem, but that it must be tackled as a matter of urgency. It is characteristic of what happens in any period of change that there are leaders, early and late followers and laggards. If there are any late followers and laggards during the Copenhagen discussions, I hope our hon. and right hon. Friends who will be representing us there will tell them of the other CO2 problem, which is about not the sometimes too benign sounding "global warming", but the acidification of the oceans, which cover 70 per cent. of the globe. I hope they will tell them about the 80 years of long-term plankton data recording science at the second oldest marine laboratory in the world on Plymouth Hoe, which is the basis of the work of the current scientists who are leading globally in their field and of some of the eight Nobel scientists who have been based at that laboratory.