2. Government safety nets and food insecurity

Interest in safety nets, a key element of social protection, grew considerably in the early 2000s, but safety nets have been a feature in societies for many millennia. Alderman and Hoddinott (Reference Alderman and Hoddinott2007) provide a useful summary of their history and breadth. While Bezuneh and Deaton (Reference Bezuneh and Deaton1997) suggest that ‘a fundamental premise of safety net concepts is to undertake investments today that diminish higher social costs in the future’, others have conceptualised safety nets as short-term, non-contributory transfers, provided in response to shocks (Alwang and Norton, Reference Alwang and Norton2011). There has also been discussion as to whether safety nets should be more integrated into broader efforts to reduce poverty and help households manage risk (Monchuk, Reference Monchuk2014). Safety nets have also proven controversial. Part of that controversy is the extent to which safety nets do indeed promote growth and ensure the benefits are shared across society, or rather discourage work and investment and therefore longer term growth and development (Hoddinott, Reference Hoddinott2008). For example, safety nets may crowd out private precautionary savings (Dercon, Reference Dercon2002).

Key debates in the literature over how to implement social safety nets include whether cash, food or vouchers are most appropriate; whether conditionally should be attached; and how to target (Gentilini and Omamo, Reference Gentilini and Omamo2009; Sabates-Wheeler and Devereux, Reference Sabates-Wheeler and Devereux2010). Food-based safety nets are, as their name suggests, tied to the provision of food, directly or through vouchers (Rogers and Coates, Reference Rogers and Coates2002). There is some evidence that historically, food aid was paid little attention by international organisations such as the World Bank and IMF (Bezuneh and Deaton, Reference Bezuneh and Deaton1997), even though empirical evidence suggests that food-based safety nets can under some circumstances be an important tool for reducing poverty and food insecurity (Brown and Gentilini, Reference Brown and Gentilini2007).

In theory, cash transfers, being fungible, allow individuals to maximise their utility (Lhachimi and Seuring, Reference Lhachimi and Seuring2019), and so might be considered a better option than providing people with food, whether directly or as food vouchers (Rogers and Coates, Reference Rogers and Coates2002). Indeed, there is growing evidence in sub-Saharan Africa that unconditional cash transfers are effective at increasing households’ consumption of food, livestock holdings and purchases of durables; and are effective responses to short term food crises (Ralston et al., Reference Ralston, Andrews and Hsiao2017). However, evidence from the literature also suggests that whether cash or food transfers are more effective at reducing food insecurity is likely to be dependent on the specific situation, and the details of how a policy is designed and implemented (Babatunde and Olagunju, 2020). For example, cash transfers may be less effective where food markets are not functioning effectively (Dietrich and Schmerzeck, Reference Dietrich and Schmerzeck2019). In the context of Kenya’s Hunger Safety Net Programme (HSNP), Dietrich and Schmerzeck (Reference Dietrich and Schmerzeck2019) find this to be the case for more isolated communities. Cash transfers may also increase poor households’ exposure to food price fluctuations (Addisu, Reference Addisu2020). Food transfers tend to be more costly to implement, limit choice, and may distort food markets (Babu, Reference Babu2002). However, food transfers tend to be controlled by women, and may therefore benefit childhood food security directly, whereas men are more likely to control cash transfers, suggesting that there is a strong gender element linked to safety nets and food security (Sabates-Wheeler and Devereux, Reference Sabates-Wheeler and Devereux2010). Food transfers may also be more appropriate where food markets are thin and cash transfers could push up food prices (Sabates-Wheeler and Devereux, Reference Sabates-Wheeler and Devereux2010).

In the context of India, Pingali et al. (Reference Pingali, Aiyar, Abraham and Rahman2019) suggest that food-based safety net programs may have failed because they focus on calorie-based supplementation, rather than broader measures of nutrition. In contrast, they find that public works programs provide multiple benefits that include households increasing their expenditure on food and improving their broader nutritional intake. More generally, there are broad concerns over the extent to which ‘tied’ aid is likely to be inefficient, particularly in terms of logistics and cost, distorting markets and limiting consumer choice (Babu, Reference Babu2002). Unlike in-kind transfers, cash transfers allow individuals to buy goods that maximise the increase in their utility, but such choices might include goods that are harmful to health (Lhachimi and Seuring, Reference Lhachimi and Seuring2019).

There have been a number of randomised interventions to test the impact of cash versus in-kind transfers. Examples include Hoddinott et al. (Reference Hoddinott, Sandstrőm and Upton2014), who undertook a randomised intervention in Niger to test the impact of cash and food transfers on food security. They found that those households that received a food basket experienced lower levels of food insecurity whilst those that received cash spent more on agricultural inputs. However, as has been observed in the literature, the cost of implementing the food transfers was higher. Schwab (Reference Schwab2020) similarly undertook a randomised comparison. He found that households in Yemen that received a cash transfer had a greater diversity and higher quality of diet, compared with those that received in-kind food comprising wheat flour and oil. Similar to Hoddinott et al. (Reference Hoddinott, Sandstrőm and Upton2014), implementing food transfers was more costly. Bhalla et al. (Reference Bhalla, Handa, Angeles and Seidenfeld2018) study the impact of Zimbabwe’s Harmonised Social Cash Transfer (HSCT) on food security in the country and find that Food Security and Diet Diversity scores improve for households eligible for cash transfer. However, the authors find no improvements for food consumption. Miller et al. (Reference Miller, Tsoka and Reichert2011) also conclude that cash transfers from the Malawi Social Cash Transfer Scheme (SCTS) allowed households to increase food expenditures and improve dietary diversity.

Sabates-Wheeler and Devereux (Reference Sabates-Wheeler and Devereux2010), though now somewhat dated, suggested that the debate over whether cash or food is the better safety net remains unresolved. They further observed that in reality, governments are likely to employ a combination of approaches to dealing with social protection, with many governments offering cash transfers even for emergency purposes, and food aid remaining important especially when there are commodity market failures. The World Food Programme has tended to allocate around half of its operational funds to in-kind food (around 50 per cent in 2019 compared with 57 per cent in 2018), and around a third to cash transfers (with and without restrictions).Footnote ¹

3. Methods and data

3.1. Empirical framework

We use a fixed-effects linear probability model (LPM) using longitudinal micro survey data (with the same households tracked across the waves) from the ESS combined with high-resolution climatic data to investigate the determinants of food insecurity in Ethiopia (equation (1)). The LPM is a type of OLS regression model for binary outcomes:

(1) $$ {y}_{it}\hskip1.5pt =\hskip1.5pt \delta {X}_{it}+\phi {Z}_{it}+\theta {C}_{it}+\pi {H}_{it}+{\alpha}_i+{\phi}_m+{\gamma}_t+{\unicode{x03B5}}_{it}, $$

where $ {y}_{it} $ is a binary outcome for household i in wave t in response to a specific food insecurity related question (see Section 3.2). The dependent variable is equal to 1 if the household responded that they had suffered from food insecurity for one or more days during the last seven days. Following existing literature (Antonelli et al., Reference Antonelli, Coromaldi, Dasgupta, Emmerling and Shayegh2020; Shayegh et al., Reference Shayegh, Manoussi and Dasgupta2020), $ \delta {X}_{it} $ is a vector of socioeconomic and demographic characteristics of each households such as gender, age and education of the household head, household size, total household income (from agricultural and non-farm activities), and whether a household was able to rely on savings in response to a shock. We expect that the probability of food insecurity would be higher for larger households, while higher income households are likely to have a lower chance of food insecurity. In terms of human capital dividends, households with relatively more education may have a lower probability of suffering from food insecurity. $ \phi {Z}_{it} $ is a vector of safety nets, controlling for whether a household received cash and/or food benefits and/or participated in the PSNP. Our main specification also includes interaction terms between these safety nets and mean temperature of the 3 months prior to the interview date to study any potential modifying effect of social protection policies on weather shocks on food insecurity. $ \theta {C}_{it} $ is a vector of both climate and weather shocks, including annual temperature anomaly, measured by the difference between a given year’s mean temperature and the long-term mean of the 1981–2010 periodFootnote ²; monthly temperature variability, which measures the month-to-month change in temperature; mean temperature of the 3 months prior to the interview date; total precipitation 3 months prior to the interview date; and whether a household reported to have experienced a drought in the previous 12 months. The temperature and the precipitation variables are extracted from the ERA5 dataset while the drought variable is extracted from the ESS dataset.Footnote ³

$ \pi {H}_{it} $ includes two dummy variables. The first indicates if the area harvested was lower than the area planted. It is likely that a lower than expected harvested area would increase the chances of a household suffering from food insecurity. The second dummy variable indicates whether the main purpose of households storing their own produce was to sell at a higher price or to keep for home use. Home uses (the reference category) identified in the survey include own consumption and saving seeds to plant next season, though the latter is mentioned infrequently. A household’s decision to store crops for home use or to sell later at a higher price may influence whether that household has greater access to basic food items or greater access to cash that can also be used to diversify diets. We also include household, wave and month of interview fixed-effects, to control for unobserved time-invariant household heterogeneity (constant unobserved factors that may influence measured food security among households), time variant unobserved heterogeneity across survey waves, and seasonality, respectively. Our analysis uses the sampling weights reported in the surveys. We use clustered standard errors at the regional level to account for correlation and heteroskedasticity among households within a given region.

3.2. Data

For our analysis, we combine two datasets. For the socioeconomic data, we use three waves of ESS. This is conducted with a two-stage probability sample and implemented in collaboration with the World Bank Living Standards Measurement Study (LSMS). The survey aims to collect information on agricultural data, socioeconomic characteristics at the household-level, welfare indicators, occupational and income characteristics and food security. ESS is a nationally representative longitudinal survey of over 5000 households followed over time living in rural and urban areas (figure 1). The first wave of the ESS was conducted between August 2011 and January 2012, the second between September 2013 and April 2014 and the third between September 2015 and April 2016. We extract the following four questions from the food security module of the ESS:

1. 1. In the past 7 days, how many days have you or someone in your household had to rely on less preferred foods?

2. 2. In the past 7 days, how many days have you or someone in your household had to limit the variety of foods eaten?

3. 3. In the past 7 days, how many days have you or someone in your household had to limit portion size at mealtimes?

4. 4. In the past 7 days, how many days have you or someone in your household had to go a whole day and night without eating anything?

With regard to the climate data, we use reanalysed climate data from ERA5-Land, the fifth generation European Centre for Medium-Range Weather Forecasts (ECMWF) atmospheric reanalysis of the global climate. Reanalysed climate data combines global climate model (numerical representation of the recent climate) with observational and satellite observations. Reanalysed data has the advantage of producing long time series and spanning the entire planet (Hersbach et al., Reference Hersbach, Bell, Berrisford, Hirahara, Horányi, Muñoz-Sabater, Nicolas, Peubey, Radu, Schepers, Simmons, Soci, Abdalla, Abellan, Balsamo, Bechtold, Biavati, Bidlot, Bonavita, De Chiara, Dahlgren, Dee, Diamantakis, Dragani, Flemming, Forbes, Fuentes, Geer, Haimberger, Healy, Hogan, Hólm, Janisková, Keeley, Laloyaux, Lopez, Lupu, Radnoti, de Rosnay, Rozum, Vamborg, Villaume and Thépaut2020). Data from ERA5-Land is available at a spatial resolution of 0.1 $ {}^{\circ} $ $ \times $ 0.1 $ {}^{\circ} $ and hourly temporal resolution (C3S, 2017). We extracted the climatic data for each household using the geographical coordinates of the households from the survey data before computing the monthly and three-monthly temperature and precipitation values. Finally, they are matched by the date of each respondent’s interview.

Figure 1. (Colour online) Map of Ethiopia. Source: USAID

5. Discussion and policy implications

There is a considerable focus in the climate economics literature on the socioeconomic impacts of weather shocks. Our paper, building on this literature, combining household survey data with high-resolution climate and weather data, and controlling for a rich set of predictors, makes a novel contribution by investigating the impact of both climate and weather shocks on food insecurity. Our results show that both these shocks adversely affect the probability of household-level food insecurity. Our econometric results are consistent across the four indicators of food insecurity (relying on less preferred food items, reducing consumption of food items, limiting portion sizes and going a whole day without eating). While our results are intuitive with respect to socioeconomic determinants, we quantify the effects and identify important heterogeneities, and as such provide evidence supporting the need for multi-approached macroeconomic policies tailored to local contexts. Our approach also allows us to identify and highlight spatial heterogeneities, including an important finding that urban households have a lower probability of suffering from food insecurity compared to rural ones; and that the impact of temperature related weather shock is also lower on urban households. Climate and weather shocks have adverse effects on food security even after controlling for socioeconomic factors including income and rising food prices. Possible transmission channels could be declining nutritional content of food or additional physiological stress on human bodies, caused by heat and heat stress.

Our micro-based findings have a number of important implications for food security policy at the macro level, particularly in the context of a changing climate. First, our analysis suggests that, in Ethiopia during the time period covered by the data, cash transfers have been more effective than food assistance in reducing food insecurity. That cash has been found to be more effective than food is consistent with the general consensus in the literature. However, the literature also makes clear that local contexts matter; and how climate shocks are manifested, whether as food shortages, rising prices, or falling incomes, is likely to influence the most appropriate design of the policy instrument. Dejene and Cochrane (Reference Dejene and Cochrane2021) collected data for 387 land scarce or landless households enrolled in the PSNP programme from Ethiopia’s Southern region in 2017 and 2018. Almost all the households experienced some dimension of food insecurity, indeed 92 per cent reported worrying that their household would not have enough food, yet 88 per cent of the households are reported to have used their cash transfers to pay off debts. These findings make clear both the fungibility of cash transfers, and that food insecure households may not, in the short-run, prioritise increased expenditure on food when they have other more pressing issues to deal with. However, to the extent that safety nets can play a role in longer term poverty reduction, risk management and economic growth more broadly, households might be increasing their chances at reducing food insecurity in the longer term, consistent with Bezuneh and Deaton (Reference Bezuneh and Deaton1997) who highlight the role of safety nets as investments in the future. Though our findings are consistent with the literature that suggests that food assistance is generally less effective than cash, it is not clear as to why food assistance appears to be ineffective with regards to reducing food insecurity in our paper. Reasons for this lack of effectiveness could be related to the logistical challenges of food distribution; or the crowding out of food production (Arega and Shively, Reference Arega and Shively2019). However, further research is needed to determine the mechanisms through which these different forms of assistance are more or less effective.

Second, though there is evidence in the literature that safety nets can both contribute to food security and to longer term economic growth and development (Hoddinott, Reference Hoddinott2008), some studies have suggested that safety nets could crowd out private precautionary savings (Dercon, Reference Dercon2002). Our findings suggest that households that had savings to rely on had a lower chance of suffering from food insecurity. Thus, with respect to coping mechanisms, programmes that encourage and enable households to save will likely improve food security. We recognise of course that it is particularly hard for the poorest households to save. However, there is evidence that poor households may ‘undersave’ due to imperfect markets (Karlan et al., Reference Karlan, Ratan and Zinman2014), suggesting an important role for government policy in reducing and removing market failures. More broadly, safety nets are likely to have longer term impacts on economic growth through improvements in health of the population. These impacts may not be picked up in the short and medium-term, but this growth in turn could also benefit food security in the longer term (Alderman and Yemtsov, Reference Alderman and Yemtsov2014), consistent with the human capital—growth literature (Barro, Reference Barro2001). While increase in income in Ethiopia is expected to improve the food security situation, adverse impacts of climate and weather shocks are likely to offset some of these gains.

Third, the role of storage has long been recognised as important for consumption smoothing in agriculture-dependent households, and consistent with this, here we identify household-level storage as an important element of reducing food insecurity, particularly where households intend to sell, rather than consume the stored food and/or to use as seeds for planting, once prices increase. As climate change increasingly disrupts both international food systems and domestic production, the role of strategic grain reserves at the country level is increasingly being discussed (Bank, Reference Bank2021). Implicit in our research findings is that a better understanding of how state, private and individual household storage are likely to interact and affect food security, is needed. Tesfaye and Tirivayi (Reference Tesfaye and Tirivayi2018) find evidence that improved storage technologies, such as the use of metal silos, and airtight drums, can improve food and nutrition security in Ethiopia.

Fourth, consistent with findings of Alemu and Mengistu (Reference Alemu, Mengistu, Castro, Azul, Leal Filho and Azeiteiro2019), climate change is likely to worsen food security in East African countries through higher temperatures and lower precipitation. Effective food policies will likely need to address both longer term trends and short term shocks. As such, food policies might be directed both to improving agricultural yields in the context of a changing climate where temperatures are increasing, and drought is more likely; and at improving households’ abilities to cope with immediate term weather shocks that tend to drive prices up and make food less affordable.

Finally, though we focus in this paper on the quantity of food households are able to access, a broader understanding of food security is likely to be needed, driven by appropriate data collected that addresses the quality and nutritional content of food, along with quantity.