Agriculture, food, and nutrition interventions that facilitate sustainable food production and impact health: an overview of systematic reviews

Intervenciones agropecuarias, alimentarias y nutricionales que favorecen la producción sostenible de alimentos e inciden en la salud: síntesis de revisiones sistemáticas

Michelle M. Haby Evelina Chapman Rachel Clark Luiz A.C. Galvão About the authors

ABSTRACT

Objectives

To identify the agriculture, food, and nutrition security interventions that facilitate sustainable food production and have a positive impact on health.

Methods

Systematic review methods were used to synthesize evidence from multiple systematic reviews and economic evaluations through a comprehensive search of 17 databases and 10 websites. The search employed a pre-defined protocol with clear inclusion criteria. Both grey and peer-reviewed literature published in English, Spanish, and Portuguese between 1 January 1997 and November 2013 were included. To classify as “sustainable,” interventions needed to aim to positively impact at least two dimensions of the integrated framework for sustainable development and include measures of health impact.

Results

Fifteen systematic reviews and seven economic evaluations met the inclusion criteria. All interventions had some impact on health or on risk factors for health outcomes, except those related to genetically modified foods. Impact on health inequalities was rarely measured. All interventions with economic evaluations were very cost-effective, had cost savings, or net benefits. In addition to impacting health (inclusive social development), all interventions had the potential to impact on inclusive economic development, and some, on environmental sustainability, though these effects were rarely assessed.

Conclusions

What is needed now is careful implementation of interventions with expected positive health impacts but with concurrent, rigorous evaluation. Possible impact on health inequalities needs to be considered and measured by future primary studies and systematic reviews, as does impact of interventions on all dimensions of sustainable development.

Key words
Sustainable development; sustainable agriculture; food and nutrition security; nutrition, public health; review, systematic; Sustainable Development Goals

RESUMEN

Objetivos

Definir las intervenciones agropecuarias, alimentarias y relativas a la seguridad nutricional que favorecen la producción sostenible de alimentos y tienen efectos positivos sobre la salud.

Métodos

Se utilizaron métodos de revisión sistemática para sintetizar los datos obtenidos de múltiples revisiones sistemáticas y evaluaciones económicas mediante una búsqueda amplia en 17 bases de datos y 10 sitios web conforme a un protocolo predefinido que constaba de criterios de inclusión claros. La búsqueda incluyó tanto bibliografía gris como arbitrada publicada en inglés, español y portugués entre el 1 de enero de 1997 y 1 de noviembre del 2013. Se consideraron “sostenibles” las intervenciones que tuvieron efectos positivos en al menos dos dimensiones del marco integrado para el desarrollo sostenible y que evaluaron los efectos sobre la salud.

Resultados

Cumplieron con los criterios de inclusión 15 revisiones sistemáticas y 7 evaluaciones económicas. Todas las intervenciones tuvieron algún efecto sobre la salud o sobre los factores de riesgo de algunos resultados en materia de salud, a excepción de aquellas relacionadas con los alimentos transgénicos. Muy pocos estudios determinaron el efecto de las intervenciones sobre las desigualdades en materia de salud. Todas las intervenciones sometidas a evaluaciones económicas fueron muy eficaces en función de los costos, redujeron los costos o lograron beneficios netos. Además de incidir en la salud (en la dimensión “desarrollo social inclusivo”), todas las intervenciones podrían influir en la dimensión “desarrollo económico inclusivo” y algunas sobre la dimensión “sostenibilidad ambiental”, aunque estos efectos fueron evaluados en muy pocas revisiones sistemáticas.

Conclusiones

La ejecución cuidadosa de las intervenciones cuya aplicación prevé efectos positivos para la salud debe acompañarse de una evaluación rigurosa. Es preciso tener en cuenta y evaluar, mediante futuros estudios primarios y revisiones sistemáticas, tanto los posibles efectos sobre las desigualdades en materia de salud como las repercusiones de las intervenciones en todas las dimensiones del desarrollo sostenible.

Palabras clave
Desarrollo sostenible; agricultura sostenible; seguridad alimentaria y nutricional; nutrición en salud pública; revisión; Objetivos de Desarrollo Sostenible

Sustainable development is defined as, “development which meets the needs of the present without compromising the ability of future generations to meet their own needs” (11 World Commission on Environment and Development. Our common future (Brundtland Report). Oxford, New York: Oxford University Press; 1987.). Sustainable development is supported by three pillars—economic, social, and environmental—where health is both an outcome of, and a precondition for, all three pillars (22 United Nations. The future we want. Outcome document of the United Nations Conference on Sustainable Development. New York: UN; 2012.).

The United Nations Conference on Sustainable Development that took place in Rio de Janeiro, Brazil, in 2012 (Rio+20 Conference) produced a focused, policy outcome document, “The Future We Want” (22 United Nations. The future we want. Outcome document of the United Nations Conference on Sustainable Development. New York: UN; 2012.). It contains clear and practical measures for implementing sustainable development (22 United Nations. The future we want. Outcome document of the United Nations Conference on Sustainable Development. New York: UN; 2012.) and informed the United Nations (UN) Member States’ decision to develop a set of Sustainable Development Goals that build upon the Millennium Development Goals and converge with the Post-2015 Development Agenda.

As part of the preparation for the Rio+20 Conference, the UN System Task Team on the Post-2015 UN Development Agenda prepared a report to the Secretary General entitled, “Realizing the Future We Want,” that contained an integrated framework for sustainable development (33 United Nations System Task Team. Realizing the future we want for all. Report to the Secretary-General. New York: UN; 2012.). The framework assumes three core values: human rights, equality, and sustainability; and four key dimensions built on the three pillars of sustainable development: inclusive social development, inclusive economic development, environmental sustainability, and peace and security. Policies relating to food and nutrition security are seen as an “enabler” in the framework. Enablers are indicative of each of the four dimensions, yet supportive to all (33 United Nations System Task Team. Realizing the future we want for all. Report to the Secretary-General. New York: UN; 2012.). Food and nutrition security are also specifically mentioned within the key dimensions of “inclusive social development” (adequate nutrition for all) and “inclusive economic development” (eradicating income poverty and hunger). The relationships among agriculture, environment, health, and food security, as well as possible solutions, are beginning to be discussed in a range of international forums (44 Lang T, Barling D. Nutrition and sustainability: an emerging food policy discourse. Proceedings of the Nutrition Society. 2013;72(1):1-12.77 United Nations Conference on Trade and Development. Trade and Environment Review. Wake up before it is too late: Make agriculture truly sustainable now for food security in a changing climate. Geneva: UN; 2013.), including as part of the new Sustainable Development Goals (22 United Nations. The future we want. Outcome document of the United Nations Conference on Sustainable Development. New York: UN; 2012.).

This overview of the systematic review and economic evaluation literature (along with three related overviews) were developed by PAHO to inform the development of the new Sustainable Development Goals, particularly to provide Member States with evidence for the possible impact of policies and programs in non-health sectors (e.g., agriculture, environment, international development, economic) on health. It also has the potential to demonstrate interrelationships between the key dimensions of sustainable development. While various systematic reviews have been conducted on topics relevant to each of the key dimensions of sustainable development, an advantage of an overview like this is that it provides decisionmakers with a broader summary of the evidence than is possible, from a single systematic review (88 Becker LA, Oxman AD. Overviews of reviews. In: Higgins JPT, Green S, eds. Cochrane handbook for systematic reviews of interventions, version 5.1.0 (updated March 2011): The Cochrane Collaboration; 2011. Available from www.handbook.cochrane.org Accessed on 5 May 2016.
www.handbook.cochrane.org...
1010 Bambra C, Gibson M, Sowden A, Wright K, Whitehead M, Petticrew M. Tackling the wider social determinants of health and health inequalities: evidence from systematic reviews. J Epidemiol Community Health. 2010;64(4):284-91.).

The objective of this overview was to use the best available evidence to answer the following question: What are the agriculture, food, and nutrition security interventions that facilitate sustainable food production and have a positive impact on health? Sub-questions considered were: What is their impact on health inequalities? What evidence is there for their cost-effectiveness? Which dimensions of the integrated framework are affected by the intervention and how?

MATERIALS AND METHODS

This overview used systematic review methodology to locate and evaluate published systematic reviews of interventions. It adhered to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) statement (1111 Moher D, Liberati A, Tetzlaff J, Altman DG, Group P. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. PLoS Med. 2009;6(7):e1000097.). A systematic review protocol was written and registered prior to undertaking the searches (1212 Haby M, Chapman E, Clark R, Galvão L. Agriculture, food and nutrition security interventions that facilitate sustainable development and have a positive impact on health: an overview of systematic reviews (Protocol). PROSPERO database. Available from: www.crd.york.ac.uk/PROSPERO/display_record.asp?ID=CRD42014008780 Accessed on 19 February 2016.
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).

Inclusion criteria

Studies were selected based on the following inclusion criteria:

Types of studies

Systematic reviews of studies of effectiveness, including reviews of randomized controlled trials (individuals or clusters), quasi-randomized controlled trials, controlled before-and-after studies, interrupted time series, and analytic observational studies (cohort, case-control, cross-sectional studies). Economic evaluations (cost-effectiveness, cost-utility, and/or cost-benefit) and systematic reviews of economic evaluations were included.

Types of participants

Studies of individuals, groups, communities, countries, or regions. Studies from both developed and developing countries were included.

Types of interventions

Agriculture, food, and nutrition security interventions that aim to facilitate sustainable food production were included. Interventions could include the use of taxes, subsidies, public procurement schemes, fiscal incentives, and agricultural policy and practices to promote sustainable food production. To classify as “sustainable” interventions needed to aim (explicitly or implicitly) to positively impact on at least two dimensions of the integrated framework, e.g., environmental sustainability and inclusive social development (which includes health) or environmental sustainability and inclusive economic development (but where impact on health was also measured). Demand-side interventions were excluded.

Types of comparisons

Comparisons included no intervention, another intervention, or current practice.

Types of outcome measures

Primary outcomes included: health measures at the level of the individual, group, community, country, region, and/or globally, including: disease incidence, prevalence, burden; mortality; morbidity; health service use; health-related costs; and health-inequalities, including by gender, age, life stage, area of residence, etc.

Language and study period

Publications in English, Spanish, and Portuguese published from 1 January 1997–November 2013 were included. Both grey and peer-reviewed literature was sought and included.

Sources of systematic reviews and economic evaluations

A comprehensive search of 17 databases and 10 websites was conducted. Systematic reviews were searched for in the following databases: PubMed, Embase®, CINAHL, ASSIA, ScienceDirect, LILACS, SciELO, GreenFILE, AGRICOLA, AGRIS, Food Science and Technology Abstracts (FSTA®), The Cochrane Library Plus (including Cochrane Reviews, the Database of Abstracts of Reviews of Effects, the Health Technology Assessment database, and Reports from health technology assessment Spanish agencies), The Campbell Library, and Health-Evidence.

The websites searched were sources that specialize in systematic reviews, and other relevant websites: the Effective Public Health Practice Project, the Evidence for Policy and Practice Information and Coordinating Center, the National Institute for Health and Care Excellence, the Community Guide, 3ie–International Initiative for Impact Evaluation, SAX Institute Evidence-check Library, the World Health Organization (including WHOLIS and IRIS), Food and Agriculture Organization of the United Nations, Food Research and Action Center (United States), and Google. The bibliographies of all systematic reviews that were included were also searched.

For economic evaluations, three specialized databases were searched: Paediatric Economic Database Evaluation, EconLit, and NHS Economic Evaluation Database.

Search strategy

Searches were conducted from 16 – 24 November 2013. Databases were searched using the keywords listed in Table 1, searched for in the title and abstract, except where otherwise stated. Keyword areas were joined using “AND.” Searches were limited to humans and with a publication date between 1 January 1997 and the day of the search. Results were downloaded into EndNote, version X7 (Thomson Reuters, New York, NY, United States). Duplicates were removed.

TABLE 1
Identification of studies on agriculture, food, and nutrition interventions that facilitate sustainable food production and impact health: key word areas for searching and sample search strings, 1997–2013

Screening, data collection, and analysis

Searches were conducted and screened according to the selection criteria, by one review author (MH). The full text of any potentially relevant papers was retrieved for closer examination. The inclusion criteria were applied against these papers independently by two reviewers (MH and RC). Disagreements regarding eligibility of studies were resolved by discussion and consensus. All studies that initially appeared to meet the inclusion criteria, but on inspection of the full text paper did not, are detailed in Supplementary File 1, together with reasons for their exclusion. One reviewer extracted all relevant data from included papers (MH) using a standard form. A second reviewer verified the extracted data (RC). Differences were resolved by discussion and consensus. Data/information extracted from systematic reviews included: objectives, inclusion criteria for the systematic review, date of search, number of studies included, country or region of included studies, details of interventions studied, the dimensions of the integrated framework that the individual studies attempted to impact (implicitly or explicitly), summary of findings in relation to health, impact on any of the key dimensions of sustainable development, impact on health inequalities, impact on secondary outcomes, impact on human rights, limitations of the systematic review, research gaps, and critical success factors for the interventions.

Findings from the included publications and their methodological quality were synthesized using tables and a narrative summary. Meta-analysis was not possible because included studies were heterogeneous in terms of the types of intervention studied and outcomes measured.

Assessment of methodological quality

The methodological quality of included systematic reviews was assessed independently by two reviewers using AMSTAR: A Measurement Tool to Assess Reviews (1313 Shea BJ, Grimshaw JM, Wells GA, Boers M, Andersson N, Hamel C, et al. Development of AMSTAR: a measurement tool to assess the methodological quality of systematic reviews. BMC Med Res Methodol. 2007;7:10.). For this overview, reviews that achieved AMSTAR scores of 8 – 11 were considered to be of high quality; scores of 4 – 7, medium quality; and scores of 0 – 3, low quality. These cut-offs are commonly used in Cochrane Collaboration overviews. The review quality assessment was used to interpret the results of reviews when synthesized in this overview and in the formulation of conclusions.

RESULTS

Fifteen systematic reviews (from 17 articles) (1414 Berti PR, Krasevec J, FitzGerald S. A review of the effectiveness of agriculture interventions in improving nutrition outcomes. Public Health Nutr. 2004;7(5):599-609.3030 Yip CS, Crane G, Karnon J. Systematic review of reducing population meat consumption to reduce greenhouse gas emissions and obtain health benefits: effectiveness and models assessments. Int J Public Health. 2013;58(5):683-93.) and seven economic evaluations (3131 Cecchini M, Sassi F, Lauer JA, Lee YY, Guajardo-Barron V, Chisholm D. Tackling of unhealthy diets, physical inactivity, and obesity: health effects and cost-effectiveness. Lancet. 2010;376(9754):1775-84.3737 Wu F, Khlangwiset P. Health economic impacts and cost-effectiveness of aflatoxin-reduction strategies in Africa: case studies in biocontrol and post-harvest interventions. Food Addit Contam Part A Chem Anal Control Expo Risk Assess. 2010;27(4):496-509.) met the inclusion criteria for the overview. The selection process for systematic reviews and the numbers at each stage are shown in Figure 1. The 38 papers that were excluded at full-text stage are shown in Supplementary File 1. Following data extraction and analysis, the funders of the study identified that no systematic reviews on genetically modified foods had been included. However, they were able to find six potential systematic reviews relevant to the topic of genetically modified foods. Of these, four were excluded for not meeting the inclusion criteria (Supplementary File 1). The seven additional articles identified in Figure 1 include these six systematic reviews, plus one found by chance when searching PubMed for systematic reviews for a related overview on sustainable energy (3030 Yip CS, Crane G, Karnon J. Systematic review of reducing population meat consumption to reduce greenhouse gas emissions and obtain health benefits: effectiveness and models assessments. Int J Public Health. 2013;58(5):683-93.).

FIGURE 1
Flow diagram of the number of records identified, included, and excluded in the search for systematic reviews (SRs) and economic evaluations (EEs) on agriculture, food, and nutrition interventions that facilitate sustainable food production and impact health, 1997–2013

The selection process for economic evaluations and the numbers at each stage are also shown in Figure 1. After examination of the full text, three potential economic evaluations were excluded due to interventions (3838 Barton P, Andronis L, Briggs A, McPherson K, Capewell S. Effectiveness and cost effectiveness of cardiovascular disease prevention in whole populations: modelling study. Br Med J. 2011;343:d4044., 3939 Magnus A, Haby MM, Carter R, Swinburn B. The cost-effectiveness of removing television advertising of high-fat and/or high-sugar food and beverages to Australian children. Int J Obes. 2009;33(10):1094-102.) or outcomes (4040 Giupponi C, Bosello F, Povellato A. A review of recent studies on cost effectiveness of GHG mitigation measures in the European agro-forestry sector: working papers. Milano: Fondazione Eni Enrico Mattei; 2007.) that did not meet the inclusion criteria.

Characteristics of included studies and quality assessment

The types of interventions studied and their potential connection with the four key dimensions of the integrated framework for sustainable development are shown in Table 2. Further details of the characteristics of the included systematic reviews and economic evaluations can be found in Supplementary Files 2 and 3, respectively. AMSTAR scores ranged from 1 – 9. Three systematic reviews (1616 Dangour AD, Lock K, Hayter A, Aikenhead A, Allen E, Uauy R. Nutrition-related health effects of organic foods: a systematic review. Am J Clin Nutr. 2010;92(1):203-10., 1717 Eyles H, Ni Mhurchu C, Nghiem N, Blakely T. Food pricing strategies, population diets, and non-communicable disease: a systematic review of simulation studies. PLoS Med. 2012;9(12):e1001353., 2121 Masset E, Haddad L, Cornelius A, Isaza-Castro J. Effectiveness of agricultural interventions that aim to improve nutritional status of children: systematic review. Br Med J. 2012;344:d8222.) were of high quality, scoring from 8 – 11 points; eight (1414 Berti PR, Krasevec J, FitzGerald S. A review of the effectiveness of agriculture interventions in improving nutrition outcomes. Public Health Nutr. 2004;7(5):599-609., 1515 Dangour AD, Hawkesworth S, Shankar B, Watson L, Srinivasan CS, Morgan EH, et al. Can nutrition be promoted through agriculture-led food price policies? A systematic review. BMJ Open. 2013;3(6):e002937., 1818 Gunaratna NS, Groote HD, Nestel P, Pixley KV, McCabe GP. A meta-analysis of community-based studies on quality protein maize. Food Policy. 2010;35(3):202-10., 1919 Loevinsohn M, Sumberg J, Diagne A, Whitfield S. Under what circumstances and conditions does adoption of technology result in increased agricultural productivity? A systematic review prepared for the Department for International Development. Brighton, UK: Institute of Development Studies; 2013., 2222 McCorriston S, Hemming DJ, Lamontagne-Godwin JD, Parr MJ, Osborn J, Roberts PD. What is the evidence of the impact of agricultural trade liberalisation on food security in developing countries? A systematic review. London: University of London; 2013., 2525 Smith-Spangler C, Brandeau ML, Hunter GE, Bavinger JC, Pearson M, Eschbach PJ, et al. Are organic foods safer or healthier than conventional alternatives? A systematic review. Ann Intern Med. 2012;157(5):348-66., 2929 Webb Girard A, Self JL, McAuliffe C, Olude O. The effects of household food production strategies on the health and nutrition outcomes of women and young children: a systematic review. Paediatr Perinat Epidemiol. 2012;26 (suppl. 1):205-22., 3030 Yip CS, Crane G, Karnon J. Systematic review of reducing population meat consumption to reduce greenhouse gas emissions and obtain health benefits: effectiveness and models assessments. Int J Public Health. 2013;58(5):683-93.) were of medium quality, scoring from 4 – 7; and four (2323 Powell LM, Chaloupka FJ. Food prices and obesity: Evidence and policy implications for taxes and subsidies. Milbank Q. 2009;87(1):229-57., 2424 Powell LM, Chriqui JF, Khan T, Wada R, Chaloupka FJ. Assessing the potential effectiveness of food and beverage taxes and subsidies for improving public health: a systematic review of prices, demand and body weight outcomes. Obes Rev. 2013;14(2):110-28., 2626 Solari L, Donaires LF, Hijar Guerra G, Mendoza A, Pachas P, Suárez C. Evaluación de los efectos adversos de los alimentos genéticamente modificados en la salud humana: revisión de la literatura científica. Lima: Instituto Nacional de Salud del Perú; 2011., 2727 Thow AM, Jan S, Leeder S, Swinburn B. The effect of fiscal policy on diet, obesity and chronic disease: a systematic review. Bull World Health Organ. 2010;88(8):609-14.) were considered low quality, scoring from 0 – 3. AMSTAR scores are shown in Supplementary File 2.

TABLE 2
Interventions studied and potential connections with the key dimensions of the integrated framework for sustainable developmenta, 1997–2013

Effectiveness

All interventions for which there are systematic reviews and/or economic evaluations have some impact on health or risk factors for health outcomes (bio-fortification, agriculture interventions that aim to increase household food production; organic farming/diet; reduction in meat production and consumption; and agriculture policies) with the exception of genetically modified foods (Table 3).

TABLE 3
Details of interventions studied, quality of the evidence, and results, 1997–2013

While the evidence for these interventions is not strong (i.e., not based only on high quality systematic reviews of randomized controlled trials), there is no evidence of a definite negative impact on health, except in the case of taxes and subsidies, where some higher quality primary studies suggested that unintended compensatory purchasing could result in overall effects running counter to health (1717 Eyles H, Ni Mhurchu C, Nghiem N, Blakely T. Food pricing strategies, population diets, and non-communicable disease: a systematic review of simulation studies. PLoS Med. 2012;9(12):e1001353.). However, these findings need to be balanced against the finding that food taxes and subsidies may have a higher relative impact on lower income groups, thus having the potential to be pro-equity. In the case of genetically modified foods, the evidence is insufficient to determine whether their consumption has positive, negative, or no impact on human health.

Cost-effectiveness

There is some evidence that sustainable food production interventions have the potential to be cost-effective, and at times, cost-saving (Table 3). While all of the cost-effectiveness analyses conducted have limitations, including a lack of evidence for effectiveness of many interventions and poor reporting of some model parameters, the results for the economic credentials of the interventions are promising. Bio-fortification of rice and wheat and aflatoxin control strategies in maize and groundnuts are very cost-effective interventions, while taxes and subsidies and strategies to combat acidification and ozone are potentially cost saving or have net benefits.

Impact on health inequalities

With the exception of the systematic reviews on taxes and subsides, no other systematic reviews reported impact on health inequalities; thus, impact is not known. For the high quality systematic review on taxes and subsidies, it was found that food pricing strategies have the potential to reduce health inequalities (1717 Eyles H, Ni Mhurchu C, Nghiem N, Blakely T. Food pricing strategies, population diets, and non-communicable disease: a systematic review of simulation studies. PLoS Med. 2012;9(12):e1001353.).

Dimensions of the integrated framework for sustainable development

Given the inclusion criteria, all interventions aimed to have an impact on inclusive social development, which includes health. Most interventions also had the potential to impact on inclusive economic development and/or environmental sustainability (Table 2), however these potential effects were rarely assessed in the included systematic reviews (exceptions are discussed in greater detail in the two paragraphs that follow). It is possible that environmental and economic effects of the interventions were assessed in systematic reviews, but unless the systematic review also attempted to assess health outcomes, the paper would not have met the inclusion criteria.

In regards to inclusive economic development, the systematic reviews of agriculture interventions that aim to increase household food production confirmed that these interventions generally had a positive effect on production of the agricultural goods being promoted (1414 Berti PR, Krasevec J, FitzGerald S. A review of the effectiveness of agriculture interventions in improving nutrition outcomes. Public Health Nutr. 2004;7(5):599-609., 2121 Masset E, Haddad L, Cornelius A, Isaza-Castro J. Effectiveness of agricultural interventions that aim to improve nutritional status of children: systematic review. Br Med J. 2012;344:d8222.), though the impact on household income remains unclear (2121 Masset E, Haddad L, Cornelius A, Isaza-Castro J. Effectiveness of agricultural interventions that aim to improve nutritional status of children: systematic review. Br Med J. 2012;344:d8222.). Regarding strategies to combat acidification and ozone, the modelling included an increase in crop production (due to reductions in acidification), which would have economic outcomes (3333 Krewitt W. Comparing costs and environmental benefits of strategies to combat acidification and ozone in Europe. Environ Econ Pol Stud. 1999;2(4):249-66.).

In regards to environmental sustainability, the assumed environmental benefits of strategies for combatting acidification and ozone were modelled under three different scenarios (3333 Krewitt W. Comparing costs and environmental benefits of strategies to combat acidification and ozone in Europe. Environ Econ Pol Stud. 1999;2(4):249-66.). With genetically modified foods, although there are concerns about possible negative impacts on environmental sustainability—including loss of biodiversity and increased use of chemicals in agriculture (4141 World Health Organization. Food safety: frequently asked questions on genetically modified foods. Available from: www.who.int/foodsafety/publications/biotech/20questions/en/ Accessed on 19 March 2014.
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)—they were not measured by any of the included systematic reviews.

None of the included interventions were assessed by the reviewers as having the potential to impact on peace and security.

DISCUSSION

The agriculture, food, and nutrition security interventions that facilitate sustainable food production and have a positive impact on health or risk factors for health outcomes include: bio-fortification of maize; agriculture interventions that aim to increase household food production; organic farming and diet; reduction in meat production and consumption; and agriculture policies. For genetically modified foods, there was insufficient evidence to determine whether their effect on human health is positive or negative. The impact of the interventions on health inequalities is also unknown, with the exception of taxes and subsidies—food pricing strategies have the potential to reduce health inequalities. Regarding cost-effectiveness, there is evidence to suggest that bio-fortification of rice and wheat and aflatoxin control strategies in maize and groundnuts are very cost-effective interventions; while taxes and subsidies are also potentially cost saving; and strategies to combat acidification and ozone have net benefits.

By their very nature, sustainable food production interventions can have positive impacts on more than one dimension of the integrated framework for sustainable development. As well as impacting health (inclusive social development), most interventions had the potential to impact on inclusive economic development and/or environmental sustainability, though these effects were rarely assessed in the included systematic reviews.

While no direct evidence was found in this overview for interrelationships between the key dimensions of sustainable development, other evidence for the included interventions suggests that this is likely; for example, organic food production and reduction in meat production can both help reduce the environmental impacts of acidification (4242 European Commission, Directorate-General for Agriculture and Rural Development, Eurostat, Directorate-General for the Environment. Agriculture, environment, rural development: facts and figures. A challenge for agriculture. Brussels: European Commission; 1999.).

Implications for policy

While there has been a call from most authors of systematic reviews for more and better quality research on the interventions included in this overview, a balanced approach is needed. Acting on imperfect information can have costs if the intervention is implemented incorrectly and not evaluated well. However, waiting for more research also has costs, including the cost of the research itself and the cost of not acting. What is needed now is careful implementation of interventions likely to make a positive impact—as pilot studies, where appropriate—and rigorous evaluation of their implementation using adequately powered methods. Potential adverse impacts should also be measured. If evaluation of the implemented interventions or pilot studies is done well, it will contribute to the research evidence and inform future action.

In regards to taxes and subsidies, strategy design and implementation must ensure that there is no compensatory purchasing that results in negative impacts on health. This may be achieved by balancing taxes on unhealthy foods with subsidies on healthy foods (1717 Eyles H, Ni Mhurchu C, Nghiem N, Blakely T. Food pricing strategies, population diets, and non-communicable disease: a systematic review of simulation studies. PLoS Med. 2012;9(12):e1001353.), and by taxing certain food groups (e.g., cakes, cookies, candy, soft drinks) or more processed foods rather than single nutrients (2727 Thow AM, Jan S, Leeder S, Swinburn B. The effect of fiscal policy on diet, obesity and chronic disease: a systematic review. Bull World Health Organ. 2010;88(8):609-14.).

For genetically modified foods, further research is needed to determine whether these foods have beneficial or harmful effects on human health. Care needs to be taken to ensure that they are free of conflicts of interest (4343 Diels J, Cunha M, Manaia C, Sabugosa-Madeira B, Silva M. Association of financial or professional conflict of interest to research outcomes on health risks or nutritional assessment studies of genetically modified products. Food Policy. 2010;36:197–203.). Moreover, all studies must be made available to the general public—whether positive or negative— so that a fair impact assessment can be made.

Sectors involved

An original aim of this overview of the literature was to determine with which sectors the health sector should engage in order to promote sustainable food production. Unfortunately, none of the included studies specified which sectors were involved in the delivery of interventions. To facilitate policy development, the review authors deduced which sectors were involved from the researchers’ affiliations and any funding organizations. The resulting information is provided in Table 4 to enable discussion and policy development, but is open to debate. Collaboration across sectors to design, implement, and evaluate sustainable food production interventions, will likely result in greater benefits for all involved.

TABLE 4
Sectors involved in sustainable food production interventions, 1997–2013

Integrated strategies

Packages of one or more complementary interventions were not directly studied in any of the systematic reviews, and no relevant findings were included in their results. However, these may be more likely to be successful.

Implications for research

Authors of the included systematic reviews call for more and higher quality research across the range of interventions, including integrated strategies. This research can be done in the context of implementation, where appropriate. Further research is also needed on interventions types where no systematic reviews or economic evaluations were found; for example: increasing support to farmers’ markets and urban and peri-urban agriculture (66 Schutter OD. Report submitted by the Special Rapporteur on the right to food. New York City: United Nations Human Rights Council; 2011.); regulation of food production processes that impact on public as well as occupational health, such as excessive use of agrochemicals and use of antibiotics as growth promoters (4444 World Health Organization. Health indicators of sustainable agriculture, food and nutrition security in the context of the Rio+20 UN Conference on Sustainable Development. Initial findings from a WHO Expert Consultation; 17-18 May 2012. Geneva: WHO; 2012.); and organic and fair trade price premiums and procurement programs that favor sustainable agricultural products, such as school feeding programs (4545 United Nations Department of Economic and Social Affairs, Division for Sustainable Development. The contribution of sustainable agriculture and land management to sustainable development. New York: UNDESA-DSD; 2009. [Sustainable Development Innovation Brief Issue 7].).

Limitations

It should be noted that this overview had key strengths, namely, its use of systematic review methodology guided by the Cochrane Handbook (4646 Higgins JPT, Green S, eds. Cochrane handbook for systematic reviews of interventions, version 5.1.0. London: The Cochrane Collaboration; 2011.) and the AMSTAR quality tool (1313 Shea BJ, Grimshaw JM, Wells GA, Boers M, Andersson N, Hamel C, et al. Development of AMSTAR: a measurement tool to assess the methodological quality of systematic reviews. BMC Med Res Methodol. 2007;7:10.) and its comprehensive search. Publication bias could not be assessed quantitatively because a meta-analysis could not be conducted; furthermore, no clear methods are available for assessing publication bias qualitatively (4747 Song F, Parekh S, Hooper L, Loke YK, Ryder J. Dissemination and publication of research findings: an updated review of related biases. Health Technol Assess. 2010;14(8).). The quality of the included systematic reviews was generally good, with the majority (11 reviews of 15) receiving a score of medium or high. Of the four, low-scoring systematic reviews, three studied taxes and subsidies (2323 Powell LM, Chaloupka FJ. Food prices and obesity: Evidence and policy implications for taxes and subsidies. Milbank Q. 2009;87(1):229-57., 2424 Powell LM, Chriqui JF, Khan T, Wada R, Chaloupka FJ. Assessing the potential effectiveness of food and beverage taxes and subsidies for improving public health: a systematic review of prices, demand and body weight outcomes. Obes Rev. 2013;14(2):110-28., 2727 Thow AM, Jan S, Leeder S, Swinburn B. The effect of fiscal policy on diet, obesity and chronic disease: a systematic review. Bull World Health Organ. 2010;88(8):609-14.), but preference was given to results of a recent, high quality systematic review (1717 Eyles H, Ni Mhurchu C, Nghiem N, Blakely T. Food pricing strategies, population diets, and non-communicable disease: a systematic review of simulation studies. PLoS Med. 2012;9(12):e1001353.). The fourth low-quality systematic review looked at the effect of genetically modified foods (2626 Solari L, Donaires LF, Hijar Guerra G, Mendoza A, Pachas P, Suárez C. Evaluación de los efectos adversos de los alimentos genéticamente modificados en la salud humana: revisión de la literatura científica. Lima: Instituto Nacional de Salud del Perú; 2011.). Despite there being a medium quality systematic review available (1919 Loevinsohn M, Sumberg J, Diagne A, Whitfield S. Under what circumstances and conditions does adoption of technology result in increased agricultural productivity? A systematic review prepared for the Department for International Development. Brighton, UK: Institute of Development Studies; 2013.), the evidence was insufficient to determine whether genetically modified foods have a positive, negative, or no effect on human health.

A possible limitation of this overview was the inclusion criteria used for intervention types. There is no universally agreed-upon definition that could be applied. Therefore, while the criteria used could be seen as subjective, the use of a multidisciplinary group of researchers that included reviewers with content knowledge of food production, environmental issues, and/or sustainable development issues should sufficiently overcome any concerns. Also, when applying the intervention type inclusion criteria, the reviewers erred on the side of inclusiveness rather than exclusiveness.

Another limitation was that the interventions included were limited to those for which a systematic review or economic evaluation had been conducted, even if primary studies were available. Furthermore, the systematic review or economic evaluation had to report health outcomes, thus precluding systematic reviews that only reported changes in environmental, economic, or peace and security outcomes.

CONCLUSIONS

What is needed now is careful implementation of interventions whose impacts are likely to be positive, along with rigorous evaluation. Collaboration across sectors will likely result in greater benefits for all involved. The possible impact on health inequalities needs to be considered and measured in future primary studies (and systematic reviews), as do the impact of interventions and combinations of interventions on all dimensions of sustainable development, and potential adverse impacts. For genetically modified foods, further research is needed to determine whether these foods have beneficial or harmful effects on human health.

Acknowledgements

This work was funded by PAHO. Apart from the input of the two PAHO authors (EC, LG), the funders did not influence its methods and content. We thank the two reviewers who critically reviewed an earlier and longer version of this manuscript and provided very helpful comments.

Disclaimer

Authors hold sole responsibility for the views expressed in the manuscript, which may not necessarily reflect the opinion or policy of the RPSP/PAJPH and/or PAHO.

Conflict of interests

None declared.

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Publication Dates

  • Publication in this collection
    July 2016

History

  • Received
    11 Mar 2015
  • Accepted
    22 Feb 2016
Organización Panamericana de la Salud Washington - Washington - United States
E-mail: contacto_rpsp@paho.org