Just a few weeks ago, the United Nations Intergovernmental Panel on Climate Change (IPCC) released the first piece of their fifth crucial report on global warming – and it confirms that our climate is changing. Key messages from the report include:
- Warming of the climate is unequivocal
- Human influence on the climate system is clear, and the evidence for human influence has only increased since the last IPCC report
- Further changes in temperature, precipitation, weather extremes, and sea level are imminent
In short, humans are causing dramatic climate change—and we’re already witnessing the effects. Oceans are warming and acidifying. Weather patterns are more extreme and destructive. Land-based ice is declining—and leading to rising sea levels.
None of this should be surprising to those following the science of climate change. What has generated surprise amongst some, however, is the IPCC’s brief mention of the science of geoengineering, tucked into the last paragraph of the IPCC’s 36-page “Summary for Policymakers.”
Understanding the science of geoengineering
As communities and policymakers around the world face the risks presented by a rapidly changing climate, interest in the topic of “geoengineering” is growing.
Geoengineering refers to a range of techniques for reducing global warming through intervention in the planet’s climate system, by removing carbon dioxide from the atmosphere (carbon dioxide removal, or CDR) or by reflecting away a small percentage of inbound sunlight (solar radiation management, or SRM).
Some of these ideas have been proposed by scientists concerned about the lack of political progress in curbing the continued growth in global carbon emissions, and who are looking for other possibilities for addressing climate change if we can’t get emissions under control soon.
With the risks and impacts of rising temperatures already being felt, the fact that SRM would likely be cheap to deploy and fast-acting means that it has attracted particular attention as one possible short-term response to climate change.
The world’s governments tasked the IPCC with investigating these emerging technologies in its new report, and the IPCC summary rightly sounds a cautionary note on their potential utility, warning:
Limited evidence precludes a comprehensive quantitative assessment of both Solar Radiation Management (SRM) and Carbon Dioxide Removal (CDR) and their impact on the climate system…
Modelling indicates that SRM methods, if realizable, have the potential to substantially offset a global temperature rise, but they would also modify the global water cycle, and would not reduce ocean acidification. If SRM were terminated for any reason, there is high confidence that global surface temperatures would rise very rapidly to values consistent with the greenhouse gas forcing. CDR and SRM methods carry side effects and long-term consequences on a global scale.
So what does this mean? Three things are clear from the IPCC’s brief analysis:
- CDR and SRM might have benefits for the climate system, but they also carry risks, and at this stage it is unknown what the balance of benefits and risks may be.
- The overall effects of SRM for regional and global weather patterns are likely to be uncertain, unpredictable, and broadly distributed across countries. As with climate change itself, there would most likely be winners and losers if SRM technologies were to be used.
- Finally, and perhaps most importantly, SRM does not provide an alternative to reducing greenhouse gas emissions, since it does not address the rising emissions that are the root cause of ocean acidification and other non-temperature related climate change impacts.
This last point is particularly important. The most that could be expected from SRM would be to serve as a short-term tool to manage some temperature-related climate risks, if efforts to reduce global greenhouse gas emissions prove too slow to prevent severe disruption of the earth’s climate.
In that case, we need to understand what intervention options exist and the implications of deploying them. In other words, ignorance is our enemy.
Need for inclusive and adaptive governance of solar radiation management research
While much of the limited research on solar radiation management has taken place in the developed world – a trend likely to continue for the foreseeable future – the ethical, political, and social implications of SRM research are necessarily global. Discussions about governance of research should be as well.
But a transparent and transnationally agreed system of governance of SRM research (including norms, best practices, regulations and laws) does not currently exist. With knowledge of the complex technical, ethical, and political implications of SRM currently limited, an effective research governance framework will be difficult to achieve until we undertake a broad conversation among a diversity of stakeholders.
Recognizing these needs, The Royal Society, Environmental Defense Fund (EDF), and TWAS (The World Academy of Sciences) launched in 2010 an international NGO-driven initiative to explore how SRM research could be governed. SRMGI is neither for nor against SRM. Instead, it aims to foster inclusive, interdisciplinary, and international discussion on SRM research and governance.
SRMGI’s activities are founded on a simple idea: that early and sustained dialogue among diverse stakeholders around the world, informed by the best available science, will increase the chances of SRM research being handled responsibly, equitably, and cooperatively.
Connecting dialogues across borders
A key goal is to include people in developing countries vulnerable to climate change and typically marginalized in discussions about emerging science and technology issues, to explore their views on SRM, and connect them in a transnational conversation about possible research governance regimes.
This month, for example, saw the launch of a report by the African Academy of Sciences and SRMGI describing the results from a series of three SRM research governance workshops held in Africa in 2012 and 2013. Convened in Senegal, South Africa, and Ethiopia, the workshops attracted more than 100 participants – including scientists, policymakers, journalists and academics – from 21 African nations to explore African perspectives on SRM governance.
To build the capacity for an informed global dialogue on geoengineering governance, a critical mass of well-informed individuals in communities throughout the world must be developed, and they must talk to each other, as well as to their own networks. An expanding spiral of distinct, but linked outreach processes could help build the cooperative bridges needed to manage potential international conflicts, and will help ensure that if SRM technologies develop, they do so cooperatively and transparently, not unilaterally.
The way forward
No one can predict how SRM research will develop or whether these strategies for managing the short-term implications of climate risk will be helpful or harmful, but early cooperation and transnational, interdisciplinary dialogue on geoengineering research governance will help the global community make informed decisions.
With SRM research in its infancy, but interest in the topic growing, the IPCC report reminds us that now is the time to establish the norms and governance mechanisms that ensure that where research does proceed, it is safe, ethical, and subject to appropriate public oversight and independent evaluation.
It’s worth remembering that the IPCC devoted only one paragraph of its 36-page summary report to geoengineering. So while discussion about geoengineering technologies and governance is necessary, the key message from the IPCC must not be lost: it’s time to recognize that the billions of tons of carbon pollution we put in our atmosphere every year are causing dangerous changes to our climate, and work together to find the best ways to reduce that pollution.