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Let’s stop dumping cookstoves in local communities. It’s time to get implementation right

We most welcome the comment by Thakur, van Schayck and Boudewijns1 on our article on the effects and acceptability of implementing improved cookstoves.2 Adoption rates of improved cookstoves by local communities are often strikingly low. The authors underline the urge to advance cookstove implementation strategies, and reinforce the approach used in the FRESH AIR project.2 They highlight several important factors to increase adoption success and call for further research on the topic. We want to build on this comment by reflecting on decades of substantial discrepancies between the disappointing adoption rates of improved cookstoves, and the subsequent failure to adapt implementation strategies accordingly. We argue that it is not necessarily the lack of evidence that impedes the success of implementation strategies for improved cookstoves. Moreover, it is the lack of use of the evidence by implementors. We propose several ideas for overcoming this evidence-to-practice gap.

The need for improved cookstoves

Improved cookstoves have been on the market for over seven decades. The rationale for their need is simple: three billion people worldwide rely on solid fuels (e.g., wood and coal) as their main energy source.3 Burning solid fuels in open fires or inefficient stoves has detrimental health and environmental consequences. Inhalation of polluted air is ranked the fifth risk of deaths and sixth risk for disability-adjusted life-years globally,4 as it causes among others impaired lung development, respiratory infections and cardiovascular disease.5,6,7 Besides, solid fuel use causes widescale deforestation and up to 25% of global black carbon emissions; black carbon emissions are the largest contributors to climate change after carbon dioxide emissions.8,9 Hence, developing a technical solution to reduce air pollution and fuel consumption and distributing it among local communities should solve the problem. Right?

The discrepancy between implementation evidence and implementation strategies

Improved stoves, with their higher combustion efficiency, would generate less smoke and consume less fuel. Therefore, improved stoves as a solution to the problems above seems as plausible to reasonable minds as it seems appealing to idealists’ emotions (and idealism drives many researchers to do what they do, after all). As Aristotle knew already, this combination of logos and pathos is a powerful persuader, which could explain the numerous attempts to push cookstoves into local markets despite the accumulating evidence that their adoption is failing.7,10 Improved cookstoves—outside of the laboratory setting—have hardly demonstrated any consistent improvements in health outcomes (high-quality articles reported no health benefits, some health benefits, or inconclusiveness).10,11,12,13,14 In the real world, clean cookstoves have turned out to be incredibly challenging to implement. Adoption rates frequently remain unreported, but studies that report on adoption success use descriptions as ‘largely discouraging’, ‘a mere 10%’, ‘only 4%’, ‘rare’, and ‘very low’.15,16,17,18,19 If adopted, improved stoves are often used concurrently with traditional stoves (known as stove-stacking), which may lead to even higher levels of air pollution and fuel consumption.20 Although these observations and analyses of implementation factors were already described in the eighties and nineties,19,21,22,23,24 implementation strategies and adoption rates generally appear not to have changed accordingly.

How to move forward in implementation?

Facing the facts: the adoption of improved cookstoves by local communities has largely failed since the stoves appeared on the market 70 years ago, draining funds available for resource-limited settings. Meanwhile, the health and environmental problems related to solid fuel use have become more urgent than ever.25,26 Community-focused approaches, creation of public awareness on the risks of kitchen smoke, provision of stove usage information, assurance of maintenance, involvement of women and an appropriate business model were outlined as implementation facilitators by Thakur et al.1 Other consistently reported, related, factors are characteristics of the stove (e.g., costs or real-world effectiveness), compatibility between the stove and local needs and perceptions (e.g., meeting taste preferences to avoid stove-stacking), and favourable policies (e.g., laws, regulations, and subsidies), as outlined in existing reviews into barriers and facilitators to the adoption of improved cookstoves.10,20,27,28,29,30 (These reviews referred to were among the most recent ones; however, we are aware of over 20 existing cookstove implementation reviews since 2010). Interestingly, these factors do not differ from the factors described in reviews >30 years ago.19,21,22,23,24 We agree with Thakur et al. that generating new evidence on implementation is useful, but only provided that implementation strategies and processes are reported in detail, adoption rates and stove-stacking are systematically and objectively assessed,31 and follow-up time is 4 years or more, as underlined by recent Nobel Prize winner Esther Duflo and her colleagues.11 Although this can be challenging (in FRESH AIR our funding was only adequate for six to twelve months of follow-up), this should be the norm for future implementation studies.

However, above all, this comment is a call to actually use the existing evidence in the design and execution of implementation strategies for improved stoves. Doing so requires efforts from all stakeholders involved. To facilitate designs of effective implementation strategies, the existing bulge of cookstove implementation evidence should be consolidated in an easy-to-use way, such as a state-of-the-art implementation tool. The tool should then be applied in future cookstove implementation projects and researchers should ensure to constantly update it according to the latest evidence and priorities.32 Researchers should also connect to brokers in large network organisations, such as the Clean Cooking Implementation Science Network, the Clean Cooking Alliance (formerly Global Alliance for Clean Cookstoves) and the World Health Organization (WHO). These organisations should promote and distribute the implementation tool to make it well-known and easily available. Policymakers should ensure to consult it for decision-making. Furthermore, funders, non-governmental organisations, and development institutions such as the World Bank should exclusively grant support for proposals and project plans with adequate implementation strategies that address the implementation factors in the tool. Lastly, carbon credit (offset) projects should incentivise on improved cookstove adoption instead of distribution. Collaborative efforts and constant networking for knowledge exchange between all stakeholders are vital, to ensure everyone is on the same, up-to-date, page. As a start, we have reached out to Thakur, van Schayck and Boudewijns to team up and start developing this implementation tool.

The steps above could facilitate idealism to team up with evidence-based realism and help to get implementation right. Only then we can actually assess whether improved stoves are consistently effective in the real world, acknowledging that challenges persist even with perfectly implemented improved cookstoves (like decreased levels of household air pollution that remain above the WHO recommended levels10). However, until clean fuels such as electricity are affordable and available for everyone (or until long-term research into well-implemented stoves proves us differently), we should strive for improved, evidence-based implementation of improved cookstoves, to ultimately improve environmental and health outcomes.


  1. Thakur, M., van Schayck, C. P. & Boudewijns, E. A. Improved cookstoves in low-resource settings: a spur to successful implementation strategies. npj Prim. Care Respir. Med. 29, 36 (2019).

    CAS  Article  Google Scholar 

  2. van Gemert, F. et al. Effects and acceptability of implementing improved cookstoves and heaters to reduce household air pollution: a FRESH AIR study. npj Prim. Care Respir. Med. 29, 32 (2019).

    Article  Google Scholar 

  3. Sood, A. et al. ERS/ATS workshop report on respiratory health effects of household air pollution. Eur. Respir. J. 51, pii: 1700698 (2018).

    Article  Google Scholar 

  4. Cohen, A. J. et al. Estimates and 25-year trends of the global burden of disease attributable to ambient air pollution: an analysis of data from the Global Burden of Diseases Study 2015. Lancet 389, 1907–1918 (2017).

    Article  Google Scholar 

  5. Martinez, F. D. Early-life origins of chronic obstructive pulmonary disease. N. Engl. J. Med. 375, 871–878 (2016).

    Article  Google Scholar 

  6. Gordon, S. B. et al. Respiratory risks from household air pollution in low and middle income countries. Lancet Respir. Med. 2, 823–860 (2014).

    Article  Google Scholar 

  7. Rehfuess, E. A., Puzzolo, E., Stanistreet, D., Pope, D. & Bruce, N. G. Enablers and barriers to large-scale uptake of improved solid fuel stoves: a systematic review. Environ. Health Perspect. 122, 120–130 (2014).

    Article  Google Scholar 

  8. Ramanathan, V. C. G. Global and regional climate changes due to black carbon. Nat. Geosci. 1, 221–227 (2008).

    CAS  Article  Google Scholar 

  9. Clean Cooking Alliance. Climate & Environment. (2019). Last accessed 17 Oct 2019.

  10. Thomas, E., Wickramasinghe, K., Mendis, S., Roberts, N. & Foster, C. Improved stove interventions to reduce household air pollution in low and middle income countries: a descriptive systematic review. BMC Public Health 15, 650 (2015).

    Article  Google Scholar 

  11. Hanna, R., Duflo, E. & Greenstone, M. Up in smoke: the influence of household behavior on the long-run impact of improved cooking stoves. Am. Economic J. Economic Policy 8, 80–114 (2016).

    Article  Google Scholar 

  12. Pope, D., Bruce, N., Dherani, M., Jagoe, K. & Rehfuess, E. Real-life effectiveness of ‘improved' stoves and clean fuels in reducing PM2.5 and CO: Systematic review and meta-analysis. Environ. Int. 101, 7–18 (2017).

    CAS  Article  Google Scholar 

  13. Quansah, R. et al. Effectiveness of interventions to reduce household air pollution and/or improve health in homes using solid fuel in low-and-middle income countries: a systematic review and meta-analysis. Environ. Int. 103, 73–90 (2017).

    CAS  Article  Google Scholar 

  14. Thakur, M. et al. Impact of improved cookstoves on women's and child health in low and middle income countries: a systematic review and meta-analysis. Thorax 73, 1026–1040 (2018).

    Article  Google Scholar 

  15. Bensch, G., Grimm, M. & Peters, J. Why do households forego high returns from technology adoption? Evidence from improved cooking stoves in Burkina Faso. J. Economic Behav. Organ. 116, 187–205 (2015).

    Article  Google Scholar 

  16. Clark, S. et al. Adoption and use of a semi-gasifier cooking and water heating stove and fuel intervention in the Tibetan Plateau, China. Environ. Res. Lett. 12, 11 (2017).

    Google Scholar 

  17. El Tayeb Muneer, S. & Mukhtar Mohamed el, W. Adoption of biomass improved cookstoves in a patriarchal society: an example from Sudan. Sci. total Environ. 307, 259–266 (2003).

    CAS  Article  Google Scholar 

  18. Jagger, P. & Jumbe, C. Stoves or sugar? Willingness to adopt improved cookstoves in Malawi. Energy policy 92, 409–419 (2016).

    Article  Google Scholar 

  19. Manibog, F. R. Improved cooking stoves in developing countries: problems and opportunities. Ann. Rev. Energy 9, 199–227 (1984).

    Article  Google Scholar 

  20. Ruiz-Mercado, I. & Masera, O. Patterns of stove use in the context of fuel-device stacking: rationale and implications. EcoHealth 12, 42–56 (2015).

    Article  Google Scholar 

  21. Barnes, D. F., Openshaw, K., Smith, K. R. & Vanderplas, R. The design and diffusion of improved cooking stoves. World Bank Res. Obs. 8, 119–141 (1993).

    Article  Google Scholar 

  22. Hyman, E. L. The strategy of production and distribution of improved charcoal stoves in Kenya. World Dev. 15(3), 375–86 (1987).

    Article  Google Scholar 

  23. Mannan, M. Women targeted and women negated. An aspect of the environmental movement in Bangladesh. Dev. Pract. 6, 113–120 (1996).

    CAS  Article  Google Scholar 

  24. Pandey, S. & Yadama, G. N. Community-development programs in Nepal—a test of diffusion of innovation theory. Soc. Serv. Rev. 66, 582–597 (1992).

    Article  Google Scholar 

  25. International Panel on Climate Change. Global Warming of 1.5°C, Summary for Policymakers. (2018). Last accessed 18 Oct 2019.

  26. World Health Organization. Climate change and health. (2018). Last accessed 18 Oct 2019.

  27. Puzzolo, E., Pope, D., Stanistreet, D., Rehfuess, E. A. & Bruce, N. G. Clean fuels for resource-poor settings: a systematic review of barriers and enablers to adoption and sustained use. Environ. Res. 146, 218–234 (2016).

    CAS  Article  Google Scholar 

  28. Rosenthal, J. et al. Implementation science to accelerate clean cooking for public health. Environ. Health Perspect. 125, A3–A7 (2017).

    Article  Google Scholar 

  29. Sharma, M. & Dasappa, S. Emission reduction potentials of improved cookstoves and their issues in adoption: an Indian outlook. J. Environ. Manag. Part 1 204, 442–453 (2017).

    Article  Google Scholar 

  30. Shen, G. F. et al. Factors influencing the adoption and sustainable use of clean fuels and cookstoves in China -a Chinese literature review. Renew. Sust. Energ. Rev. 51, 741–750 (2015).

    Article  Google Scholar 

  31. Proctor, E. K., Powell, B. J. & McMillen, J. C. Implementation strategies: recommendations for specifying and reporting. Implement Sci. 8, 139 (2013).

    Article  Google Scholar 

  32. Powell, B. J. et al. Enhancing the impact of implementation strategies in healthcare: a research agenda. Front. Public Health 7, 3 (2019).

    Article  Google Scholar 

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We attribute many of the views expressed in this comment to our experience gained while working on the FRESH AIR project, funded by the EU Research and Innovation program Horizon2020 (Health, Medical research and the challenge of ageing) under grant agreement no. 680997. The funders had no role in this report.

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E.B. wrote the first and subsequent versions of the paper. E.B. and D.V. systematically identified literature relevant to implementation of improved cookstoves. R.v.d.K., D.V., F.v.G., B.K., and N.C. reviewed the paper critically and approved the final version.

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Correspondence to Evelyn A Brakema.

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Brakema, E.A., van der Kleij, R.M., Vermond, D. et al. Let’s stop dumping cookstoves in local communities. It’s time to get implementation right. npj Prim. Care Respir. Med. 30, 3 (2020).

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