By Richard Owen, University of Westminster, UK
A guest blog in the Alternative Perspectives on Technology Innovation series
This article was first published in Planet Earth, an award-winning magazine funded and published by the UK Natural Environment Research Council (NERC). It is reproduced here with permission from Planet Earth and Richard Owen.
In 1956 one of my favourite films hit the big screen: a classic piece of science fiction called Forbidden Planet. It tells the story of a mission in the 23rd century to a distant planet, to find out what has happened to an earlier scientific expedition. On arrival the crew encounter the sole survivors, Dr Morbius and his daughter: the rest of the expedition has mysteriously disappeared. Morbius lives in a world of dazzling technology, the like of which the crew have never seen.
He had discovered the remnants of a highly advanced civilisation, the Krell, and an astonishing machine they had developed, the Plastic Educator. This could radically enhance their intellect, allowing them to materialise any thought, to develop new and wondrous technologies. Morbius had done the same. But something terrible had happened to the Krell: not only did the Plastic Educator develop their intellect, it also unwittingly heightened the darker sides of their subconscious minds, ‘Monsters from the Id’. In one night of savage destruction they were taken over by their own dark forces, leaving their advanced society extinct.
Now I’m not going to tell you how it ends; you’ll have to watch the film yourself. And it would be fanciful to say that we are heading for the same fate as the Krell. But it is fair to say that our relationship with innovation can at times be troublesome, with consequences that can on occasion be global in nature.
You may have heard for example of a clever financial innovation called ‘securitisation’: you may also know that this has helped leave a legacy of toxic debt that all of us will play a part in cleaning up. This is dwarfed by the legacy that our relationship with fossil fuel burning technology will leave not only for our children, but also for their grandchildren. These examples show that it is important that we innovate, to drive our economy, to improve our lifestyles and wellbeing, to find solutions to the big issues we face – but it is critical that we innovate responsibly. And public demands to be responsible, to avoid excessive risks, go beyond banks: they also apply to research.
In his inaugural speech in January Barack Obama called for a ‘new era of responsibility’. I want to know what this new era will look like. For a number of years I worked for a regulator, the Environment Agency. I discovered that regulation is an incredibly powerful tool to promote responsible innovation, and there is no doubt that it will continue to play an important role. Development of policies and regulation, for new technologies for example, tends to be ‘evidence based’ – that is evidence is acquired to make the case for amending or bringing in new legislation, and here the research councils play an important role.
I’m fascinated by how this process works. Take for example nanotechnology, which has been described as the first industrial revolution of the 21st century. It’s small stuff, but big business, taking advantage of the fact that materials at the nanoscale (a billionth of a metre) can have fundamentally different properties compared to other (perhaps larger) forms of the same material. So while carbon nanotubes resemble tiny rolled-up sheets of graphite, they behave very differently – indeed, they have been called ‘the hottest thing in physics’.
Nanotechnology has a projected market value of many billions of pounds, potentially providing important solutions for renewable energy, healthcare, for the environment. But if these nanomaterials behave so differently, do they present greater risks, to the environment or to human health1? If so, do they need to be regulated differently? How do we balance economic growth with preventing harm to people and the environment?
In 2004 the Royal Society and Royal Academy of Engineering published an important report that showed the huge economic potential of nanotechnology, but also the great risks and uncertainties, particularly where the natural environment was concerned2. Soon after this I was asked to help write the Government’s research strategy to help address these uncertainties. I recognised that to understand these risks better, many of the questions we needed to answer were those of fundamental science: environmental fate and behaviour, nanoecotoxicology, detection.
In 2005 I worked closely with NERC, Defra and the Environment Agency to set up the Environmental Nanoscience Initiative (ENI), which was launched the following year. The first job was to build capacity, as there were only a few researchers working on the environmental behaviour and effects of manufactured nanoparticles in the UK. Two calls for research proposals and 17 grant awards later I feel we have made good progress in developing a strong community of scientists; my hope is that more will join them.
Building on this, the ENI has recently launched a second, and much larger phase, one that brings the existing partners together with the Engineering and Physical Sciences Research Council (EPSRC) and US Environmental Protection Agency to develop and validate models of exposure and bioavailability for key nanoparticles, drawing together complementary strengths from across the Atlantic.
I believe that collaborative programmes like the ENI are good models for funders to work together and are important ways of providing the evidence base on which policies and regulation can be developed. But what I have learnt from this process is that it naturally takes time. In the meantime innovation marches on, beyond nanoparticles, beyond nanotechnology. This means there will inevitably be long lags between innovation and the development of evidence-based regulation. That worries me, and it also worries the Royal Commission on Environmental Pollution, as they explained in their recent report on novel materials3. Regulation alone is not enough – we need to look for other, complementary ways to embed responsibility into the innovation process. This is what I am working on now4.
In the spring of this year EPSRC asked me to work with Richard Jones at Sheffield on their third nanotechnologies grand challenge call, which will be on the novel contribution nanotechnology can make for carbon capture and utilisation.
It’s an exciting area. They told me that in trying to solve one environmental problem they didn’t want to cause another. I proposed that, for the first time, they asked applicants to provide a brief ‘risk register’ in their proposals: one that asks them to consider any environmental, health or societal impacts and the level of associated risks for their proposed research. I hope this will help them think early on about the wider implications of their research, about any risks and uncertainties, which can then be managed in a timely way. This could perhaps be through targeted research, working across Councils through collaborative programmes such as the ENI.
I’m convinced there is a way to link innovation with responsibility more efficiently, to make it more anticipatory. And I’ve been struck by how willing and open the people I have worked with at NERC, EPSRC and ESRC have been to consider these approaches. Maybe there is a silver lining in the black cloud of the recent financial chaos; maybe we are learning that responsible innovation is sustainable innovation, that it’s a good thing, and that a commitment to it will help build resilient and responsible economies. Maybe Barack Obama was right, maybe we are about to enter a new era of responsibility. I hope so. [originally published in Planet Earth Online, October 19 2009]
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Professor Richard Owen holds a Chair in Environmental Risk Assessment at the University of Westminster. He is the Co-ordinator of the UK Environmental Nanoscience Initiative.
Further reading
Owen R and Handy R (2007) Formulating the problems for environmental risk assessment of nanomaterials. Environmental Science and Technology 41 (16): 5582-5588
www.nanotec.org.uk/finalReport.htm
www.rcep.org.uk/novelmaterials.htm
Owen et al (2009) Beyond Regulation: Risk Pricing and Responsible Innovation: Environmental Science and Technology 43 (18), pp 6902–6906.
Postscript: I am indebted to Richard and Planet Earth for their very positive response to my last minute request for this piece to be included in this blog series. I found myself with an unexpected hole in the lineup, and they obliged by filling it post haste! I should note that Richard’s perspective is unusual in the series in that he speaks as someone with closer ties to the establishment than most of the other authors. Nevertheless, I believe his perspectives here add a richness to the dialogue on what the role of technology innovation is in the 21st century, and how we ensure it achieves this role.
Richard’s plea for responsible innovation is well made. I worked with Richard in the early days of the UK government’s response to the Royal Society and Royal Academy of Engineering. I was a policy adviser within the (then) Office of Science and Technology and served with Richard on a cross-government group looking at nanotechnology issues…my role was to ensure that science and society issues were dealt with effectively and helped to develop and broker into the process a number of public engagement and dialogue activities to inform the group’s deliberations.
What was clear from that experience was how deeply political the whole thing is. There are inevitably forces of light and darkness at work in the messiness of policy-making and conflicts of world-view are common (and inevitable). On one side, there are those who seek to promote and proselytize; on the other are those seeking to reflect and regulate. Different cultures, different views of the future and different attitudes to each other’s roles quickly come to the surface. However the group on which Richard and I served was a fascinating and at times highly effective innovation in joining up the governance of a new and emerging technology…creating a more even-handed space into which the P&P and R&R factions could come together in a calm and purposeful discussion. Not perfect, of course…but as good as it was possible to get at the time.
Underpinning much of what we were driving towards was the concept of precaution. From a European perspective, of course, precaution is written into the fabric of policy…indeed the European Union Treaty states that environmental policy shall be based on the Precautionary Principal. This, of course, sets a multitude of hares running as the range of interpretations and ‘depths’ of precaution is huge. However, Kerry Whiteside at MIT has written about how precaution is a deeply political idea (http://mitpress.mit.edu/catalog/item/default.asp?ttype=2&tid=11024).
While originating in environmental policy, precaution has extended to many other areas and is manifest in innovation. Precaution sits in between the extremes of ‘do’ or ‘ban’. The limitations of what is knowable about the world mean that we will never have 100% certainty: there will always be residual uncertainty, ambiguity and complexity. Precaution is a deliberate and I would argue, responsible mechanism to allow action in the face of uncertainty. It is entirely appropriate under precaution to foster new research to try to reduce uncertainty and to develop innovations that provide no-regrets options or increase our capacity for adaptive management.
This is the decision space in which new areas of science and technology must advance. Some thought and discussion about how precaution is currently understood and deployed (either explicitly or implicitly) within the innovation system would be fruitful in advancing the concept of responsible innovation.
Thanks Gary – love it when people write the equivalent of a blog in response to a blog!
Really appreciate the insight into how science and society issues were addressed following on from the RS/RAE report. Your thoughts on precaution are also extremely valuable – both as recognizing it as inherently political, and yet entirely appropriate (I would add, if used responsibly).
Please be informed about a Dutch research project linking innovation with responsibility:
http://sites.google.com/site/responsibleinnovation/
Jaap Voeten
Tilburg University
Hi, Dr. Owen,
I’m hoping that you might be able to offer some advice.
I am writing to you because I am very alarmed about something
that can affect me and all of the people in our area.
There is a proposal, in the Port Hope area, to build a huge plant to burn garbage. We all know how important it is to manage the ever-increasing amounts of waste
that we generate, so my first reaction was very positive.
What has frightened me very much is the potential harm that this plant could cause to the health of all the people who live around here, as well as the water, and the plants, and animals. Although I am a few kilometres from this plant, I have read that the ultra-fine particles produced by this process can travel long distances and they can remain in the air for a very long time. They are so tiny, they can invade every cell. And the effects are more damaging to children.
I’m alarmed that, currently, our provincial Ministry of the Environment has no regulations regarding the release of these nano-particles. None, and they are bio-accumulating, like asbestos.
I don’t want to sound like a crank, there is lots of evidence to support what I’m saying. I wish I knew what to say to make the town councillors pay proper attention to this. Eventually we will all be downwind from this.
Please, Dr. Owen, perhaps you could send an email to Mayor Thompson of Port
Hope to let her know that it might not be such a good idea?([email protected])
The councillors seem to have been completely charmed by the self-serving, unverified claims of the REM Entech company, for example, REM Entech claim 20 years experience, but actually have only recently purchased the franchise from an Australian frim, and have not actually built any facilities. They claim it is ‘clean technology’ and that it’s not really an incinerator, but an ‘energy-from-waste’ plant.
Do you have any suggestions about what I could do about this?
Maybe it they heard from someone of your international stature, they might decide it’s a risk not worth taking.
Thank you for your attention to this. I guess you can tell how desperate I feel. It’s not as if we can all just hold our breath.
Sincerely,
Barbara Bickell,
Campbellcroft, Ontario, Canada.