More Related Content Similar to What would be the three key preconditions for jumpstarting or scaling up the transfer of environmentally sound technologies for climate change to developing countries? (20) More from Rafael Martins (16) What would be the three key preconditions for jumpstarting or scaling up the transfer of environmentally sound technologies for climate change to developing countries?1. Natural Resources Forum 33 (2009) 334ā337
Viewpoints
The Natural Resources Forum ā A United Nations Sustainable Development Journal is running a special series over the
2009ā2011 period on themes to be considered by the United Nations Commission on Sustainable Development in its 18th
and 19th sessions: sustainable consumption and production, transport, chemicals, waste management and mining. In this
issue, experts address the question:
āWhat would be the three key preconditions for jumpstarting or scaling up the transfer of environmentally sound
technologies for climate change to developing countries?ā
My own research and global experience working directly to achieve something that these developments are in danger
with impoverished communities demonstrates that, from of missing separately: 1. The bottom billion customers and
the perspective of sustainability, thereās little lasting value local needs as focus for clean tech developments, with
to transferring any technology to another nation or culture active participation of local stakeholders driving the
without the following preconditions: 1. Those intended to process; 2. Inclusion of environmental aspects in Base of
use the technology must have the capacity to maintain it the Pyramid initiatives; and 3. Free availability of
over time, adapt it to changing local conditions, and, inventions (patents) that are not actively used (see Eco-
ultimately, manufacture future generations of the Patent Commons).
technology. This implies that signiļ¬cant investments in Successful deployment is an interplay of several heavily
capacity-building must be made prior to technology context-speciļ¬c factors. High tech inventions without
transfer. 2. Those offering the technology as a solution must connections to the context may be hopelessly ineffective.
justify its appropriateness in the local context into which it Additionally, if local needs and capacities drive the process,
would become embedded ā i.e., the ecological, the involved stakeholders will be empowered as partners in
environmental, socio-cultural, and economic setting. The providing solutions, instead of merely being the recipient of
burden of proof is on the proponents of the technology and a new form of (structural) development aid. This creates a
sizable resources must be invested in researching how the cooperative basis instead of a largely funding-dominated
technology might function in the local context; and 3. one. And who knows, ādevelopedā nations may learn
Authentic, locally-controlled institutions must be engaged something as well . . .
in the process of adopting, maintaining and adapting the
technology. There must be evidence of local investment in Wouter Kersten
the technology and a meaningful process of community Manager Research & Innovation
consultation in which the technology is selected voluntarily Rotterdam, The Netherlands
from amongst multiple options. If these preconditions are
not met, our good intentions are likely to transform into
technological imperialism, beneļ¬ting few. narf_1257 334..337 In our opinion, the three most important preconditions for
jumpstarting or scaling up the transfer of environmentally
Dr. Justin Mog sound technologies for climate change to developing
University of Louisville countries are: 1. Changing the entire mindset from the
Kentucky, USA transfer of technology towards that of knowledge.
Technology is just a medium; knowledge on how to use it ā
and not to use it ā is what matters most. The āhardwareā
When looking for the key ingredients to effectively deploy (technology, tools, infrastructure etc.) needs to always be
clean technologies in developing countries, it is very complemented by āsoftwareā (knowledge, institutions etc.),
important to consider the interplay between technological, both in terms of mitigation of and adaptation to climate
institutional, economic and social factors; simply change; 2. Related to the above, understanding that the
transferring cash or the latest inventions from North to transfer of technology and knowledge is not a one-way path
South does not yield the desired outcome. By combining is critical. Both environmentally sound technologies and,
several promising developments strategically we can hope above all, the knowledge on how to use them in the most
Ā© 2009 The Authors. Journal compilation Ā© 2009 United Nations
2. Viewpoints / Natural Resources Forum 33 (2009) 334ā337 335
appropriate way in speciļ¬c contexts do exist in developing to signiļ¬cantly change the development paradigm. An
countries as well. The transfer should therefore be a important reason for this non-appreciation is that politicians
synonym for active collaboration and joint learning and policymakers in the developing world have very little, if
between the two parties, instead of passive transfer from any, regular contact with professionals from emerging
one actor and place to another; and 3. The transfer of technologies like biotechnology, information and
technology and knowledge should be economically and communication technology, and nano-technology where
socially beneļ¬cial to both the delivering and receiving large developments are taking place. Extensive interactions
parties. This can be achieved by establishing a global with such professions and effective utilization of
knowledge and technology transfer fund, in line with information and communication technology tools are
existing legal instruments on climate change. crucial.
The right mindset also matters. This second key lies in
Dr. Muhammad Mizanur Rahaman & creating and nurturing a whole new business-as-usual
Marko Keskinen mindset that is able to identify and promote environmentally
Researchers sound technologies. This requires substantial attention and
Water and Development Research Group additional investments to capacity building and forward-
Helsinki University of Technology looking education and training, and research programmes
Espoo, Finland for technology absorption and adoption. It should be realized
that under rapidly changing climatic conditions, tomorrowās
development challenges can no longer be identiļ¬ed, let alone
Traditional technology transfer models and sustainable addressed, with yesterdayās knowledge and the day-before-
development efforts ā whether for developing or yesterdayās technology.
developed countries ā pay insufļ¬cient attention to ļ¬rst The third precondition involves the contextualization of
creating enabling socio-political and informational technology and long-term community building. It is
conditions. Distilling into three preconditions: 1. Socio- important to develop environmentally sound technologies
political: forging meaningful capacity building partnerships depending on local conditions and traditional value
for climate-change mitigation among stakeholders ā civil systems. Interestingly, much of the research and
society, government agencies, private sector, aid donors and development into environmentally sound technologies is
researchers. Beneļ¬ts must be tangible and equitable; 2. carried out by multinational companies who target markets
Informational: gathering sufļ¬cient information on climate in developed countries. Quite obviously, the technologies
change-relevant social and environmental conditions to are not optimized for national resource endowments in
establish a baseline against which alternative technologies developing countries. This must change. There needs to be
can be compared (in terms of expected impacts) and to a global framework ā embedded within the social
choose a preferred option; and 3. Strategic: implementing responsibility context ā for environmentally sound
and monitoring the most sustainable option on a pilot scale. technology development for developing countries.
Before any scaling-up or large-scale jumpstarting, a Moreover, governments and businesses must engage with
synergistic network of smaller-scale demonstration projects communities to stir interest and gain social licence to
ā representative of the diverse social and environmental embrace environmentally sound technologies.
conditions of the country ā should be designed to achieve
1, 2 and 3, monitor performance and learn valuable lessons. Dr. S M Wahid
āJumpstartingā is not āquick-ļ¬xā; the urgency of climate- Water Engineering and Management Program
change mitigation requires a fast-track strategic approach School of Engineering and Technology
that engages the diversity of social actors, engenders joint Asian Institute of Technology
ownership, and yields tangible and complementary beneļ¬ts Pathumthani, Thailand
beyond climate change mitigation ā like poverty reduction
and health ā that resonate with those actors and sustains
their commitment to positive socio-technical change. The most important precondition is that these technologies
beneļ¬t those living in poverty and in vulnerable conditions
Prof. Timothy J. Downs in developing countries. However, UNFCCC debates on
Environmental Science & Policy Program technologies have been dominated by discussions on
Clark University mitigation technologies that are more economically
Worcester, Massachusetts, USA attractive and proļ¬table.
Most of the developing world needs adaptation
technologies to deal with the impacts of climate change that
Developing countries, in general, have not fully appreciated are underway. However, adaptation technologies have been
potential applications of environmentally sound largely marginalized from technology transfer discussions.
technological advances for climate change which are likely Technology transfer debates have been dominated by
Ā© 2009 The Authors. Journal compilation Ā© 2009 United Nations
3. 336 Viewpoints / Natural Resources Forum 33 (2009) 334ā337
discussions of the importance of promoting research and Developing countries do not have the luxury or the
development (R&D), with advanced developing countries as resources to ļ¬nance climate change mitigation measures. In
the main target (i.e. China and India). Developing countries, many instances, these countries lack the solid
especially the Least Developed Countries (LDCs), Small administrative and planning capabilities needed for long-
Island Developing States (SIDS) and vulnerable countries term planning or short-term application. More often than
in Africa require robust and drastic action all along not, the initiative lies in the hands of the private sector.
the technology chain: research and development; Accordingly, the most important precondition for the
demonstration, deployment, diffusion and transfer. successful transfer of environmentally friendly technologies
Therefore, the three key preconditions for scaling up the is ļ¬nancial viability of the measures taken. If the
transfer of environmentally sound technologies for climate technology generates income for entrepreneurs or the
change to developing countries are: technologies that can county, then its adoption will be rather simple. Issues such
provide synergy between mitigation and adaptation; as GHG storage will not be of interest if no mechanism
technologies that can be transferred, diffused, scaled up and exists that rewards such action. Improving energy efļ¬ciency
replicated within and across developing countries and is always a winning option. The second prerequisite is
technologies that will not cause or lead to maladaptation in capacity building through hands-on experiences in which
the long-term. tangible results are obtained. This is in contrast to many so
called āworkshopsā that focus on lectures and telling people
Rafael DāAlmeida Martins, PhD candidate about experiences which they might not be able to
Centre for Environmental Studies (NEPAM) duplicate. The third prerequisite, is technology transfer that
University of Campinas (UNICAMP), Brazil would enable people to make essential equipment locally
and without resorting to expensive imports which, in the event
Visiting Research Fellow of breakdown, they might not be able to ļ¬x.
Institute for Environmental Studies (IVM)
Vrije Universiteit Amsterdam, The Netherlands Ahmad Houri
Lebanese American University
Natural Science Division
Developing countries are currently more concerned with New York, NY
the implementation of projects to help them adapt to climate
change than with reducing their greenhouse gas emissions.
Thus, for technology transfer to be successful, the emphasis In the authorsā views, policy options to overcome some of
should be on understanding and improving the local context the key barriers for jumpstarting environmentally sound
more than on perfecting the choice of energy-producing technologies for climate change such as Renewable Energy
technologies. Technologies (RETs) are: 1. Policies that promote focussed
Simultaneously, poverty must be acknowledged as a major R&D for cost reduction, high performance and funding of
threat to the environmental integrity of developing countries. large-scale demonstration programmes: There is a need to
The transfer of environmentally sound technologies to tackle review the existing R&D policies and projects, develop
climate change impacts must therefore integrate programmes to promote coordinated R&D projects for cost
consideration of all dimensions of ecodevelopment: reduction and performance enhancement, and implement
environmental, social, economic, technological, and civic. large-scale demonstration programmes. Such policies
Emphasis on ecodevelopment means emphasis on local are necessary for several RETs to generate information on
conditions and needs. Thus, the main actors should be the technologyās performance and create awareness
citizens who are equipped with the information and skills of feasibility and potential beneļ¬ts; 2. Policy to promote
necessary to understand, implement and adapt new a participatory approach, encourage private sector
technologies. This involvement is a delicate process which participation and a rational energy pricing policy: there is a
requires time, education and sustained monitoring. The growing realization of the need to involve individual users
success of such transfers therefore rests on the preparation and local communities, particularly in rural areas, in
and technology design processes, of which there are three planning, implementation and management of RETs.
key conditions: 1. Accurate understanding of local needs; 2. Capacity-building and institutional development
Collaborative involvement in planning and decision- programmes among NGOs, rural communities and rural
making; and 3. Collective implementation and sustained entrepreneurs are required to enable their effective
monitoring of technology transfer projects. participation in the implementation of RETs; and 3.
Periodic assessment and evaluation of technologies policies
Dr. HĆ©lĆØne Connor, Laura E. Williamson and programmes: It is crucial to provide information on
and Mithra Moezzi various aspects of the technologies to policy-makers,
HELIO International manufacturers, entrepreneurs and end-users. In India,
Paris, France lessons have not been drawn from the technologies
Ā© 2009 The Authors. Journal compilation Ā© 2009 United Nations
4. Viewpoints / Natural Resources Forum 33 (2009) 334ā337 337
disseminated, programmes implemented or policies everywhere, as their performance and relevance vary across
adopted. There is an urgent need to generate knowledge and regions and over time. Jump-starting or scaling up of the
disseminate information on the performance of different technologies requires appropriate targeting to geographic
RET designs in different ļ¬eld situations and the and social niches to ensure the technologies have the
performance and impact of programmes, ļ¬nancial greatest impacts and meet the needs of potential users.
mechanisms, and policies implemented. Second, uptake of the technologies is strongly inļ¬uenced by
These policy initiatives can help to frame appropriate the policy and institutional context within which they are
environmental regulations, to develop mechanisms to disseminated to potential users. Policies may send positive
enforce these regulations, and to access environmental and or negative economic signals that potential users often react
socio-economic impacts of the technologies. to and which inļ¬uence their uptake of the technologies.
Third, programmes to scale up environmentally sound
Bimlesh Kumar technologies should be designed to respond to climate
Indian Institute of Technology change from the perspective of sustainable development,
Guwahat, India especially in food deļ¬cient and low income nations where
and the poverty level is high.
Rahul B. Hiremath
Walchand Institute of Technology OC Ajayi, Economist
Solapur, India FK Akinnifesi, Principal Scientist
G Sileshi, Agro-ecologist
World Agroforestry Centre
Most barriers are not related to the climate change Malawi
technologies themselves. Instead, the barriers result from
international agreements (EU, NAFTA, WTO) or the
domestic macroeconomic policy framework. In addition, Firstly, a comprehensive and objective regulatory
the enforcement capacity of environmental policies in most framework is critical to the transfer of environmentally
(developing) countries is rather weak. sound technology. Such a framework should encompass
In my opinion, therefore, it is crucial that all strategies to political and institutional conditions that facilitate the actual
promote the transfer of climate change technologies are transfer process taking place. In the context of climate
robust enough to operate in an imperfect and sometimes change, strong environmental regulation and enforcement
even hostile environment. One critical success factor then is will also lead to organizations acquiring new technologies.
that the user needs to have a strong incentive for acquiring Secondly, transferring EST to developing nations cannot
the technology. This may be reduced costs, increased produce the desired result without capacity building. Where
output, improved efļ¬ciency, more ļ¬exibility. A second key there is inadequate institutional and technical capacity and
element is that the market mechanism is allowed to play a capability, successful transfer of technologies to either
role in the transfer. As such, it is more likely that the user adapt to or mitigate climate variability and change becomes
will perceive a potential gain by adopting the new seriously compromised. Therefore, transferring EST
technology. However, the market usually does not assure involves building capacities through existing and new
that the environmental beneļ¬ts are achieved. Then, thirdly, institutions. Lastly, in most developing countries,
to assure that climate change is indeed addressed, the inadequate ļ¬nancial resources to acquire new technologies
technology transfer needs to be accompanied by soft are often major barriers to EST transfer. Therefore,
technologies. Here, examples are technology partnership absorption and diffusion of EST in a developing context
programs, integrating climate-change criteria in policies will require a combination of these identiļ¬ed preconditions.
and contracts, educating decision makers about climate
change technologies, and environmental technology Olufunso A. Somorin
assessment. Associate Professional Ofļ¬cer
Center for International Forestry Research (CIFOR)
Prof. Bert Scholtens Central Africa Regional Ofļ¬ce, YaoundĆ©, Cameroon
University of Groningen and
Groningen, The Netherlands PhD Researcher
Forest and Nature Conservation Policy Group
Wageningen University, the Netherlands
Technologies that are environmentally sound may be
available but they may not perform equally well
Ā© 2009 The Authors. Journal compilation Ā© 2009 United Nations