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What have we learned from two decades of research on household food security?

Published online by Cambridge University Press:  03 December 2013

Mark Nord*
Affiliation:
Economic Research Service, US Department of Agriculture Washington DC, USA Email [email protected]
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Abstract

Type
In this Issue
Copyright
Copyright © The Authors 2014 

Research using experiential measures of household-level food security is now well into its second decade. The current trajectory began with studies by private and academic researchers and accelerated following the development of the Household Food Security Survey Module (HFSSM) by the US Department of Agriculture, the US National Center for Health Statistics and collaborators from universities and the private sector( Reference Hamilton, Cook and Thompson 1 , Reference Hamilton, Cook and Thompson 2 ). Based on the HFSSM and methodologically related measures, scores of peer-reviewed articles and reports have been published about the measurement of food security and the causes and consequences of food insecurity. This issue of Public Health Nutrition adds to that literature the largest number of articles on the topic to appear in the same issue of any peer-reviewed journal to date. Considering this level of research activity, it is interesting to reflect on what we have learned about food security in the last two decades. Here are three salient insights we have gained.

Quality of measurement matters

The care taken to develop a measure based on sound theory, qualitative research into how low-income people describe their food situations and statistical methods borrowed from psychometric and educational testing fields has paid off. The resulting approach to measuring food security has stood the test of time and has been found to translate well across cultural and linguistic divides, particularly when focus groups or cognitive interviews have been employed to ensure high-quality translation. Articles in this issue include measures implemented in Honduras( Reference Ben-Davies, Kinlaw and del Campo 3 ), Brazil( Reference de Cássia Ribeiro-Silva, Oliveira-Assis and Junqueira 4 ), Australia( Reference Thornton, Pearce and Ball 5 ), Canadian First Nations( Reference Skinner, Hanning and Tsuji 6 ), the Canadian general population( Reference Matheson and McIntyre 7 , Reference McIntyre, Bartoo and Emery 8 ), US American Indians( Reference Pardilla, Prasad and Suratkar 9 ) and the US general population( Reference Beatty, Nanney and Tuttle 10 Reference Odoms-Young, Kong and Shiffer 12 ). Psychometric assessments based on the statistical principles underlying the food security measure have been conducted in a wide range of cultural and linguistic settings, sometimes resulting in minor reformulation of questions, but generally finding good evidence of validity and reliability of the measures in national surveys( 13 Reference Deitchler and Nord 15 ) and in pilot surveys in many other countries.

Work remains to resolve important measurement issues, however. In this issue, Matheson and McIntyre find that married men and married women in similar circumstances respond differently to the food security questions( Reference Matheson and McIntyre 7 ). Elsewhere, Nord and Hanson( Reference Nord and Hanson 16 ) found that adolescents’ self-reported food security differed considerably from their parents’ proxy reports, and qualitative studies by Fram and colleagues shed light on reasons for these differences( Reference Fram, Frongillo and Jones 17 , Reference Fram, Frongillo and Draper 18 ). On another front, modifications may be needed in populations with unusual food environments. Skinner et al. note that measurement would be improved among First Nations respondents by taking into account non-market food procurement, such as hunting and fishing, and the limited and erratic availability of store-bought food in the community because of remoteness and unreliable transport( Reference Skinner, Hanning and Tsuji 6 ). Such modifications may also be important in populations reliant on subsistence agriculture, for whom adequate food availability may depend more on their own production for home use than on financial capacity to procure food.

Outcomes of food insecurity are not good

Inclusion of food security measures in health and education surveys has provided data for analyzing associations with health and child development conditions that are hypothesized to be outcomes of food insecurity. Outcomes for children have been studied extensively, as summarized by Coleman-Jensen et al.( Reference Coleman-Jensen, McFall and Nord 19 ). The list of outcomes associated with food insecurity is too long to even summarize here, but none of the outcomes is good. Fewer studies have examined outcomes for adults, but several problematic outcomes have been identified, as summarized by Matheson and McIntyre( Reference Matheson and McIntyre 7 ) and by McIntyre et al.( Reference McIntyre, Bartoo and Emery 8 ). Food insecurity can rightly be considered a public health concern. De Cássia Ribeiro-Silva et al. extend this line of research to Brazil, examining food insecurity as a possible risk factor for asthma( Reference de Cássia Ribeiro-Silva, Oliveira-Assis and Junqueira 4 ).

Almost all of the outcomes research has been based on cross-sectional studies, so causality is difficult to attribute and mediating mechanisms are not well understood. For child outcomes, much of the research suggests that mediating mechanisms such as parental stress, parenting practices and psychological stress on children may be as important, or more important, than disruption of children's nutrition. Furthermore, it seems likely that food insecurity is usually accompanied by other material hardships that are not measured in most studies and that the associations of problematic outcomes with food insecurity may reflect, in part, effects of those other hardships. In this case, measured food insecurity may function as a marker of health and development risk rather than as a risk factor. Depending on the specific programmatic interventions contemplated, understanding the exact causal path may not matter. Nevertheless, improved understanding of the casual relationships may improve programmatic design and is a worthwhile objective for further research.

As food security measurement has extended into middle-income and low-income countries, associations of food insecurity with anthropometric measures of chronic undernutrition such as stunting and wasting have been of interest. Ben-Davies et al. examine this association (among others) in a low-income area of Honduras( Reference Ben-Davies, Kinlaw and del Campo 3 ). In-sample medians of stunting, wasting and weight-for-age of children aged 6–18 months were all worse in food-insecure households than in food-secure households, and worse in severely food-insecure than in moderately food-insecure households. The associations were relatively weak, however, and not statistically significant. In an unpublished analysis from a very-low-income area in Guatemala, I found similarly weak but statistically significant cross-household relationships. What is striking, however, are the associations across the studied sub-populations. In the Ben-Davies et al. sample, 37 % of households with young children had severe food insecurity, and national surveys showed 25 % stunting and 20 % wasting for children under 5 years old in that area. In my unpublished Guatemala analysis, both very low food security among children and stunting of children younger than 5 years were near 50 %. In contrast, in the USA and Canada, where severe child undernutrition is too rare to be monitored, severe child food insecurity is less than 1 %( 13 Reference Coleman-Jensen, McFall and Nord 19 ).

As more survey data become available from low-income countries, such cross-country comparisons will be a worthwhile area for further study. The FAO is currently contracting with the Gallup organization to include an experiential food security module in the Gallup World Poll, an internationally comparable livelihood survey conducted annually in more than 150 countries. If this ‘Voices of the Hungry’ project is successful, new data will become publicly available to explore the associations between food insecurity and national-level measures of undernutrition across a wide range of low-income countries( 20 ).

Income is a key determinant of food security, but many other factors also matter. Experiential food insecurity is conceptualized and measured as resulting from economic limitations. In most food security survey modules, each question specifies a lack of resources as the reason for the behaviour or condition (‘We couldn't afford…’ or ‘…because there wasn't enough money for food’). Not surprisingly, then, in almost all studies, income is found to be a primary determinant of food insecurity. Indeed, any study of causes or consequences of food insecurity that does not control for income is likely to be challenged in peer review.

Although this relationship holds on average, the correlation is generally not very strong across households. This is in part due to inadequate measures of income, but also due to other factors that impact food security. In this issue, Beatty et al. find that time constraints limit food security for some households( Reference Beatty, Nanney and Tuttle 10 ). Other factors such as low education( Reference Ben-Davies, Kinlaw and del Campo 3 , Reference McIntyre, Bartoo and Emery 8 , Reference Pardilla, Prasad and Suratkar 9 ), violence and histories of violence( Reference Chilton, Rabinowich and Woolf 11 ), holding multiple jobs and visible minority status( Reference McIntyre, Bartoo and Emery 8 ), low food knowledge and low healthy-eating self-efficacy( Reference Pardilla, Prasad and Suratkar 9 ), being separated, divorced or widowed and not being employed( Reference Thornton, Pearce and Ball 5 ) are also found to be associated with food insecurity. In the USA, cross-state analyses have found that factors such as cost of housing, state median wages and state average tax burden on low-income households are also associated with food insecurity in analyses that include a rich set of controls for potentially confounding conditions( Reference Bartfeld, Dunifon and Nord 21 ).

More recently, Coleman-Jensen and Nord found disabilities among adults to be strongly associated with food insecurity( Reference Coleman-Jensen and Nord 22 ). Of all households with very low food security in the USA that included working-age adults, 38 % included a working-age adult with a disability. In part, this appeared to result from higher household expenses; nearly twice as much income was needed to maintain food security in households with an adult with a disability as in otherwise similar households with no adult with a disability. On the other hand, households with elderly are generally more food secure than other households with the same per-person income( Reference Nord 23 ).

The way forward

In summary, understanding and awareness of food insecurity have come a long way in the last two decades thanks to development of a credible measure of this important but previously unmeasured condition. The articles in this issue move the field forward another step. Yet, much remains to be done. Much is known that has not yet been incorporated into policy and programme design. Understanding of some key relationships and the underlying processes and mechanisms that mediate them is still preliminary and partial. Data from several countries that now regularly monitor food security in nationally representative surveys are available to address these questions. Extension of the methodology to low-income countries will create new opportunities for research – research that can inform policies and programmes affecting populations with more severe and widespread food insecurity than that of most populations studied in these first two decades.

Disclaimer

The views expressed are those of the author and should not be attributed to the Economic Research Service or the US Department of Agriculture.

References

1. Hamilton, WL, Cook, JT, Thompson, WW et al. (1997) Household Food Security in the United States in 1995: Summary Report of the Food Security Measurement Project. Alexandria, VA: USDA, Food and Nutrition Service.Google Scholar
2. Hamilton, WL, Cook, JT, Thompson, WW et al. (1997) Household Food Security in the United States in 1995: Technical Report. Alexandria, VA: USDA, Food and Nutrition Service.Google Scholar
3. Ben-Davies, ME, Kinlaw, A, del Campo, YE et al. (2014) Risk factors associated with the presence and severity of food insecurity in rural Honduras. Public Health Nutr 17, 513.Google Scholar
4. de Cássia Ribeiro-Silva, R, Oliveira-Assis, AM, Junqueira, SB et al. (2014) Food and nutrition insecurity: a marker of vulnerability to asthma symptoms. Public Health Nutr 17, 1419.Google Scholar
5. Thornton, LE, Pearce, JR & Ball, K (2014) Sociodemographic factors associated with healthy eating and food security in socio-economically disadvantaged groups in the UK and Victoria, Australia. Public Health Nutr 17, 2030.Google Scholar
6. Skinner, K, Hanning, RM & Tsuji, LJS (2014) Prevalence and severity of household food insecurity of First Nations people living in an on-reserve, sub-Arctic community within the Mushkegowuk Territory. Public Health Nutr 17, 3139.Google Scholar
7. Matheson, J & McIntyre, L (2014) Women respondents report higher household food insecurity than do men in similar Canadian households. Public Health Nutr 17, 4048.CrossRefGoogle ScholarPubMed
8. McIntyre, L, Bartoo, AC & Emery, JCH (2014) When working is not enough: food insecurity in the Canadian labour force. Public Health Nutr 17, 4957.Google Scholar
9. Pardilla, M, Prasad, D, Suratkar, S et al. (2014) High levels of household food insecurity on the Navajo Nation. Public Health Nutr 17, 5865.Google Scholar
10. Beatty, TKM, Nanney, MS & Tuttle, C (2014) Time to eat? The relationship between food security and food-related time use. Public Health Nutr 17, 6672.Google Scholar
11. Chilton, MM, Rabinowich, JR & Woolf, NH (2014) Very low food security in the USA is linked with exposure to violence. Public Health Nutr 17, 7382.Google Scholar
12. Odoms-Young, AM, Kong, A, Shiffer, LA et al. (2014) Evaluating the initial impact of the revised Special Supplemental Nutrition Program for Women, Infants, and Children (WIC) food packages on dietary intake and home food availability in African-American and Hispanic families. Public Health Nutr 17, 8393.CrossRefGoogle ScholarPubMed
13. Health Canada (2007) Canadian Community Health Survey Cycle 2.2 Nutrition (2004): Income-Related Household Food Security in Canada. Ottawa: Health Canada, Office of Nutrition Policy and Promotion, Health Products and Food Branch.Google Scholar
14. Melgar-Quiñonez, H, Nord, M, Perez-Escamilla, R et al. (2007) Psychometric properties of a modified US-household food security survey module in Campinas, Brazil. Eur J Clin Nutr 62, 665673.Google Scholar
15. Deitchler, M & Nord, M (2012) Validation of a Food Insecurity Scale for the ENSMI 2008, Annex 1. In Household Food Insecurity and Nutritional Status of Women of Reproductive Age and Children Less than Five Years of Age in Five Departments of the Western Highlands of Guatemala: An Analysis of Data from the National Maternal–Infant Health Survey 2008–09 of Guatemala [C Chaparro, editor]. Washington, DC: US Agency for International Development, Food and Nutrition Technical Assistance (FANTA).Google Scholar
16. Nord, M & Hanson, K (2012) Adult caregiver reports of adolescents’ food security do not agree well with adolescents’ own reports. J Hunger Environ Nutr 7, 363380.Google Scholar
17. Fram, MS, Frongillo, EA, Jones, SJ et al. (2011) Children are aware of food insecurity and take responsibility for managing food resources. J Nutr 141, 11141119.Google Scholar
18. Fram, MS, Frongillo, EA, Draper, CM et al. (2013) Development and validation of a child-report assessment of child food insecurity and comparison to parent-report assessment. J Hunger Environ Nutr 8, 128145.Google Scholar
19. Coleman-Jensen, A, McFall, W & Nord, M (2013) Food Insecurity in Households with Children: Prevalence, Severity, and Household Characteristics, 2010–11. Economic Information Bulletin no. EIB-113. . Washington, DC: USDA, Economic Research Service.Google Scholar
20. Food and Agriculture Organization of the United Nations (2013) New metric to be launched on hunger and food insecurity. http://www.fao.org/economic/ess/ess-fs/voices/en/ (accessed September 2013).Google Scholar
21. Bartfeld, J, Dunifon, R, Nord, M et al. (2006) What Factors Account for State-to-State Differences in Food Security? Economic Information Bulletin no. EIB-20. Washington, DC: USDA, Economic Research Service.Google Scholar
22. Coleman-Jensen, A & Nord, M (2013) Food Insecurity among Households with Working-Age Adults with Disabilities. Economic Research Report no. ERR-144. Washington, DC: USDA, Economic Research Service.Google Scholar
23. Nord, M (2003) Measuring the food security of elderly persons. Fam Econ Nutr Rev 15, 3346.Google Scholar