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co2morrow

Increasing cultural awareness of society’s impact on atmospheric CO2 levels and relationships to long-term heritage conservation

CO2 is more than a chemical compound. It has become a loaded signifier for our times. Mankind's activities have increased atmospheric CO2 levels to a threshold where they threaten potentially catastrophic consequences on a global scale.  

The National Trust is a charity invested by Parliament to care for houses, collections, landscapes and coastlines representing a vast, unique part of the heritage of the UK. By providing this perpetual care, the National Trust attempts to preserve and present the special qualities of its holdings for the enjoyment of current and future generations.

 

It is therefore right that the Trust seeks to stimulate debate about our response as a society to the issues surrounding our relationship with carbon, Carbon is locked into trees and the soils of the Trust's parks, gardens and landscapes. Climate change leads to erratic and fiercer weather conditions enhancing coastal erosion and flooding risks. The species of plants and animals that can survive at our properties will change as temperatures rise. In time, CO2 will change the work of the National Trust.  

By commissioning this work from Marcos Lutyens and Alessandro Marianantoni, the Trust is seeking a creative way to engage people with the issues concerned. The work will provide an inspirational focus for debate, both as part of the Royal Academy GSK Contemporary exhibition 'eARTh: art of a changing world' and on its tour of National Trust properties and events in 2010.

Tom Freshwater

Contemporary Arts Programme Manager, National Trust

CO2morrow

It’s not so easy for artists to sit closed off in their studios while the world changes around them. Cultural fashionistas, or artists who constantly chase the shifting tides of taste seem to fade to irrelevance as social, technological and environmental concerns accelerate at breakneck speed. The techniques of mid-century masters and their successors seem not to be able to respond to issues that have become too volatile, nuanced and impending. These issues can not be   captured easily by chisel or paintbrush.

On closer inspection, one can see the roots of this change of attitude and approach in the social sculptures of Joseph Beuys or in the wry responses of Hans Haacke to social turmoil and the corporate contradictions of the day. In their wake, many contemporary artists are

seeing themselves as conduits of ideas  rather than as custodians of branded artifacts that they call their “work”. Art has become increasingly a part of the connective tissue that joins us, just as Facebook or Twitter becomes the social glue that, whether we like it or not, fills the gaps in our social communication.

In the elaboration of our project we have borrowed from the ideas of reusability and recycling as we retool and repurpose snippets of programming code  to make sense of the complexities of atmospheric data relating to environmental science. Along with social technologist artists who rely heavily on data visualization techniques, such as Usman Haque, known for his “Sky Ear”, or Mark Hansen and his “Listening Post”, we ourselves, as artists, become an invisible conduit as we hold up a mirror or lens through which we can all begin to see ourselves more clearly. The CO2morrow project ultimately

is formed in the mind of the beholder, as the flowing data pattarens on tthe surface of the sculpture transmit a sense of the changing landscape around us.

We also see a correspondence with social ecologists such as Fritz Haeg who constantly situate their work within the boundaries of the “normal”, provoking everyday people to change their habits by, for instance, converting their suburban lawns into “Edible Estates”, which are essentially vegetable gardens. Increasingly, contemporary artists are driven to incorporate the inevitable syndrome of ‘everywhere, all the time, and now’ into their work, in other words there is an immediacy of news and communication brought to us through mobile phones and the internet.

When science is allied to art, together they have the uncanny ability to pierce through our collective environmental autism as seemingly abstract scientific

knowledge and data is made accessible and understandable through art.

For this project we chose to draw on data gathered by sensors  that is calibrated in “parts per million” to extend our reach with sensitivity. Just as Kevin Warwick toyed with tying together, as he put it, “sympathetic” nervous systems by connecting his own feelings with his wife’s at a distance through a wireless implant that detected and retransmitted their sensations, we are tapping into a broader consciousness of the world around us. The exercise is far from the Utopian 70s “back to nature movement”, with its well-intentioned and yet ecologically insane Land Art works such as Spiral Jetty by Robert Smithson, but is rather linked to a dire need to inform ourselves about the impending dangers of our existence. The artist of today is like a rock climber on the north face of the Eiger that senses an impending rock fall. Perhaps we should

call this “Emergency Art”.

When wesearch for clues in nature, as was explored in depth in Howard

C Hughes’ Sensory Exotica, a world beyond human experience, we can find instances of how many sensorial faculties we are missing, and if only we had the olfactory acuity of the shark or bloodhound, or the ultrasonic perception of the moth or bat, or the ultraviolet visual range of insects, we would be so much better informed about what is going on

around us. When we are in our prime, the healthiest of us are virtually blind and deaf to our surroundings. The reality of the world that exists around us must surely be perceived with prosthetic devices, that extend our sensorial spectrum through detectors and sensors and perhaps even the art we produce should be viewed through finer sensorial equipment than that offered up by our limited and crude senses.

We could envision ourselves as an extended nervous system that doesn’t just permit us to adapt, but actively allows us to change the world around us for the better. Through an accretion of social and telematic, or technologically enhanced interconnections, it’s as if we could become a seamless creature that functions like discrete and independent specialized organisms that nevertheless support each others’ existence by being linked together. The best known example of this is the curious case of the siphonophore colony, the best known of which is the Portuguese Man o’ War.

Are we to believe Ray Kurzweil’s transhumanist proposition that posits the current fading out of the human race as ubiquitous computing takes over? In his provocative book 'The Singularity is near', we ourselves may also be on the path to irrelevance as intelligent systems take our place and successfully adapt fast enough to meet the changing terrain of climatic shifts. This begs the question: "Will machines also need art to search beyond the boundaries of the obvious and save a planet we have found so hard to steward?".

In the mean time, CO2morrow hopes to provide a lens through which we can come to terms with, and maybe even combat to some degree the climate change that has become the biggest challenge of our era.

The CO2morrow sculptural form is based on innovative research by Professor Omar M. Yaghi, UCLA's Christopher S. Foote Professor of Chemistry, who has developed a super-sized molecular sponge that acts as a carbon scrubbing molecule based on "zeolites", or ZIF's for short. 

Our oversized molecule nests almost parasitically or like a stray virus on the façade of the building.  It's material make up is mostly carbon fibre, in reference to the way in which the ZIF molecule devours carbon, and reminding us of the carbon exchange as it transitions from solid to gas and back again.

The CO2morrrow project was spawned from the idea of increasing cultural awareness of society’s impact on atmospheric CO2 levels and relationships to long-term heritage conservation

In the UK, there is widespread concern within conservation circles that “Global Warming” has been provoking changes in local climate conditions.  These changes are translating into increased flooding, soil erosion on the coast as well as near riverbanks and adverse conditions such as wind-blown rain.

These factors, which many fear will only get worse over the next few years, may cause untold of maintenance and repair

costs as well as irreversible damage to many of our National Heritage sites, and in particular National Trust properties.   We have been inspired by the investigations of Sarah Staniforth,  the

Historic Properties Director of the National Trust, who has repeatedly highlighted the basic links between climate change and threats to conservation.  We believe that this project can help shed new and pressing light on issues raised by her and her colleagues.

Our project aims to raise awareness of this overarching challenge and threat that goes beyond the relatively specific concerns of traditional conservation issues.  In short, if this "bigger picture" scenario is not addressed urgently, there may be little left to conserve.

World-leading prominent figures such as Nobel Laureate Al Gore, Sir David King (former UK Chief Scientific Adviser) and James Lovelock (inventor of ‘Gaia’ theory of Earth) have described climate change as the most urgent and challenging

problem ever faced by humankind. The IPCC (Intergovernmental Panel on Climate Change) assessment reports have presented a clear, consensus opinion from the largest body of scientists ever assembled in history that climate change is directly caused by our actions, emitting greenhouse gases (GHGs) into the atmosphere. Yet progress by the world’s governments to resolve or mitigate the problem has been very slow. So slow, that scientists now discuss the need not only to reduce GHG emissions, but to actively ‘capture’ GHGs from the atmosphere and sequester them either in bedrock or under the ocean.

What can be done? Existing approaches are clearly inadequate. We believe the solution is to think ‘outside the box’ and to marry disciplines that would usually have no reason to work together. With such an approach we hope to achieve a rapid, fundamental shift in public

perception and understanding of the underlying causes of climate change. In turn, an informed, knowledgeable public will be the best route to provoke adequate, substantial action from the world’s policymakers, and thus to protect our Heritage Sites and promote general conservation and environmental principles.

Our project includes pioneering work by one of the only two research labs in the British Isles that specialises in highly sensitive CO2 sensors and mapping atmospheric pollution.  CO2 is the primary gas associated with Climate Change and its tracking is essential to understand the dynamics of our weather and its consequences for Heritage Sites.

Very precise and reliable CO2 sensors are being deployed in a handful of National Trust properties around the UK.  These sensors give accurate readings of CO2

levels over the period of the project.  The data is studied for patterns and tendencies: scientific methodology will be used to shed light on the issue of CO2 and its relationship to Heritage Conservation.

Q&A  with Dr. Andrew Manning, Environmental Team Scientist for CO2morrow

ML: What drew you to environmental science?

Dr. AM: My father is in the same field, so I've been exposed to environmental science and climate change from a very young age, and long before it was a 'hot' topic, since the early 1980's.  Initially, I tried quite hard to avoid following in my father's footsteps - my Bachelor's degree is in Chemical Engineering where about half of the graduates, ironically, end up working for oil companies! I got a summer holiday job working on analysing methane from Antarctic ice cores - bubbles of air hundreds or thousands of years old trapped deep in the ice, and was immediately hooked.  My boss at the time, Dr. Dave Lowe from New Zealand,

can take a lot of the credit for showing me how much fun environmental science can be.

The reason why I have stayed in the field is because I believe that climate change is such an important and urgent issue for humanity to address. Despite what you may think, the number of scientists actually studying climate change worldwide is very small. For example, I would contend that there is a much greater number of people whose careers are dedicated towards finding more coal, oil and natural gas than there are climate scientists.

ML: Which kind of CO2 sensing projects have you done?

Dr. AM: My work specialises in making veryhigh precision, "background"

measurements of atmospheric CO2.  Other kinds of CO2 measurements which I am not involved in directly include measurements in seawater and low precision measurements where people want to measure directly the fluxes from a small area, for example inside a forest, or from soil samples, etc. The background, atmospheric measurements are the most challenging from a technical point of view, because we are pushing the sensor equipment beyond their intended specifications for accuracy and precision. It requires a lot of custom design changes to the commercial equipment and incredible attention to fine detail. Just using an o-ring or gasket of the wrong type of rubber could negate the results of an entire experiment or field campaign.

I have been involved in CO2 measurement project at the following locations:  Baring Head, New Zealand;

Colorado, USA; California, USA; American Samoa; Mace Head, Ireland; Bialystok, Poland; Ochsenkopf, Germany; Siberia, Russia; Northern Territories, Canada; Shetland Islands, UK; Tasmania, Australia; and Norfolk, UK.

As scientists, we're not paid very much compared to others with an equivalent amount of education, such as doctors, lawyers, accountants, but one of the perks we have is travelling to some quite exotic locations for our work.

ML: Which have been the most challenging sensing projects?

Dr. AM: Siberia, hands-down. This project was phenomenally challenging for several reasons:  the station didn't exist prior to our work, so we had to deal with not only the science, but the logistics of setting up

a new station. I never thought I would need to know about diesel power generators and figuring out the specifications for how many we needed to run our station, nor having to worry about building a house for the scientists on-site - how many bedrooms could we afford and so on.  The station was so basic in the beginning that we had to do everything: chop wood for warmth and cooking, travel 5 km to get water for drinking and washing, wash our clothes by hand, bake our own bread, everything. No running water, no bath, shower, or toilet.  For a week or so, this would be considered fun but for 6 weeks and on top of 12-14 hours per day working on the science, it was pretty tough.

The journey from London to the Station, took 5 days, involving snowmobiles, helicopters, and planes which looked like they should have been retired a couple of

decades earlier. Winter temperatures are about -40°C, but summers are actually worse because of the mosquitoes.  I come from New Zealand where there are no mosquitoes, so it was quite a shock!  As for the science, the automated, continuous system we were building was the most sophisticated and complex that I have ever built. It also didn't help that most of the higher level managers of the project didn't really know what they were doing, putting all the onus on us scientists at the next level - this made the project extremely stressful. Finally, we had several run-in's with the FSB, formerly known as the KGB, which were extremely unpleasant - but I'm not able to go into any more details.

ML: What is your interest in the co2morrow project?

Dr. AM: First of all, isn't it a great title?

There are 2 important aspects which have attracted me to this project: first, the project directly addresses the issue of educating and informing the public about climate change, specifically, what causes climate change. Scientists are notorious for being poor communicators. Ask us what you think is a yes/no question, and you'll never get a yes/no answer. Every answer by a scientist needs to be qualified with exceptions and uncertainties.  This results in Joe Public either getting confused because the scientist quickly starts talking over his head and using arcane terminology, or frustrated because of not getting an answer to what he thought was a simple yes/no question.  I've often listened to my scientist colleagues talking to a non-scientist - they don't even realise that they are using terminology that is extremely specific to their field

There are 2 ways to try to address this problem: train scientists to be better at communicating their work - our funding agencies have started forcing us to do this, which is a good thing. And second, have scientists work together with non-scientists on some projects - this method is likely to see more immediate results and it's what CO2morrow is all about.

The second aspect which attracted me to CO2morrow is that it is based in the UK and making CO2 measurements on UK soil. Within the climate science community, the UK has a notoriously bad reputation for not making any measurements of CO2 - astonishing, when you consider that CO2 is by far the dominant cause of all climate change, and surprising when you consider that the UK likes to think of itself as a leader in climate

change policy (especially during the Tony Blair years). But we only started measuring CO2 in 2004.  Russia, China, Poland, Indonesia, have all been measuring far longer than us. New Zealand and Australia have both been measuring for over 30 years! Let me add that the main reason why we don't understand climate change as well as we would like, is because of not having enough measurements. As just one example: one of the biggest unknowns in terms of CO2 absorption by the oceans is in the South Atlantic Ocean.  Why? Because the UK practically owns all of the South Atlantic - almost all islands there are UK territories, and the UK doesn't make greenhouse gas measurements!

The Australians, Germans and Americans have been covering for us. For over 20 years they have been making measurements on our soil to cover for our

absence. The Australians, funded by their government, have been collecting air samples in Shetland Islands since 1992, shipping them back to Australia, and analysing the air in their laboratory, all because we didn't think it was important!

Finally, we are starting to see a change. We now have measurements just outside of Edinburgh and on the coast in Norfolk, although both are about to run out of funding!. We also have UK funding support to start making measurements in the South Atlantic now. Then there is the CO2morrow project. Although, so far, we are running this project with the generous support fof Siemens, but no backingt from any UK funding agency.

ML: Do you think its scientific results will be worthwhile?

Dr. AM: Definitely.  Whilst I mentioned above that I think informing and educating the public is very important, I would not become involved in a project as large as this one which only did that. For me, there needs to be some underlying science too. So we are ensuring that the CO2 data collected will be accurate enough to be scientifically useful and that the data will be tied to international calibration scales.

ML: What might the impact be to our heritage?

Dr. AM: The simplest level to think about this is to worry about things like our historical buildings and parks - if they are on the coast, then they are in danger from rising sea levels. The next level is to think about how natural ecosystems are changing in a warming climate. What is

happening to the world-renown Scottish moors, or what about the migratory birds such as the puffins in the Shetlands? Entire ecosystems are under threat in so many ways. A couple of examples from the US:  birds are now moving north because it is warmer. But the pests which they ate can not move north  and so these pests are multiplying, destroying crops and destroying forests. Second, in Colorado, the bark beetle is killing acres and acres of natural forest. Previously, they were kept in check by cold winters which reduced their numbers.

But my own concept of heritage is much broader: according to the Oxford Dictionary, the definition of heritage is: "property that is or may be inherited".  Does this not include the whole planet?  Are not our children going to inherit planet Earth from us? Earth itself right now is under threat and under attack.

We are changing the face of the planet in ways which our ancestors never would have dreamed possible.  This is everyone's heritage.  Some environmentalists use the slogan "Save the Planet", but this is incorrect.  Earth will survive, no matter what we try and do to it. Whether Earth will remain habitable for humans and other flora and fauna, however, is a very different question. So we might be better off saying "Save the Planet for Ourselves".  As some wit said: "There is no Planet B."

ML: What do you think of the convergence of art and science?

Dr. AM: This ties in with what I said above about educating and informing the public, and scientists not being very good communicators.  Whilst I had often thought about this particular problem, I had never previously thought about

marrying art with science as a way to approach the problem. But I think it is an excellent approach. People like art.  Broadly speaking, the entire purpose of art is to engage the public in some manner, whether that be to stimulate an emotion or feelings, or to provoke thought, or simply to entertain.  Science is quite the opposite.  At a fundamental level, science is quite a selfish pursuit, it is the pursuit of knowledge for knowledge's own sake. But there is an increasing number of examples where expanding scientific knowledge is important to everyone. The medical sciences have always been this way. And climate sciences are now similar. That which is important to everyone needs to be understood by everyone, not in detail, but the basics. And so marrying art and science is the perfect solution.

ML: Is Climate change Real?  There are many people who would beg to differ...

Dr. AM: I don't have a lot of patience for this question any more: 5 or 10 years ago I did, but not any longer). And I would say that there are not many people who beg to differ.  Rather, there is a very small number of very vocal people. At this stage, the science is so overwhelming, that not a single government in the world argues if climate change is real. Even the oil baron, George Bush, finally agreed! The debate has moved on. The original debate was, is climate change real? - we answered this definitively by about 1995-98.  Anybody who doesn't think so is either living in a cave or in the employ of the oil companies. The next debate was, is climate change caused by us? We answered this definitively by about 2003-2005.  The debate now is, what to do about climate change? Unfortunately, without exception, every government in the world is dragging their feet on this and it is almost too late. "Too late", of course, depends on your perspective, so I shouldn't say that. It's not very scientific.

Project by

Marcos Lutyens & Alessandro Marianantoni

Design Team

Roberto Castellani and Lucia Barna Architects at Studio Castellani

Francesco Chiesi Structural Engineer

Riccardo Bagagli Composite Engineer

Marco Piana Energy Engineeer at Ghigos Energy

Daniela Pangallo Project Manager at Ghigos Energy

Additional design work:

Heather Poon

Rae Solomon

Project producers

Martin Lutyens

Jaqueline Quella

CO2 and Climate Scientist

Andrew Manning NERC Advanced Research Fellow
Lena Kozlova PhD Student
School of Environmental Sciences
UEA

Presenting Sponsor:

National Trust

Sarah Staniforth

Historic Properties Director

Tom Freshwater

Contemporary Arts Programme Manager

Andy Beer

Head of Learning

Technical Sponsor

Siemens

Peter Loescher

Chief Executive Officer

Siemens AG

Andreas Goss

Chief Executive Officer

Siemens plc

Gordon Smith

Major Projects

Siemens plc

Composite Sponsor

Full Bar Composite Ltd

Simon & Jane Jenner

Additional support

University College 

Falmouth

Charli Clark

Kirsty Ziggy Davies-Clark

Dorothy Hunter

Commercial Assistance

Traxon

Michael Brooksbank

Metropolitan Work

Matthew Lewis

Centre Manager

CO2morrow

lithographs available:

Belgravia Gallery

45 Albemarle Street, London, W1S 4JL

Tel: 020 7495 1010

Royal Academy GSK Contemporary

Earth: Art of a changing world

3 December 2009 – 31 January 2010

Kathleen Soriano 

Director of Exhibitions

David Buckland 

External Curator

Sunnifa Hope 

Exhibitions Coordinator

Philip Pearce Royal Academy Architect
David Rafferty

AssociateEngineer at Scott Wilson Group

This project includes the

planting of 21 trees to

offset its carbon footprint.

Calculated by Ghigos Energy

Carbon Fibre recyclable through Karborek

www.co2morrow.net             info@co2morrow.net