Hostname: page-component-586b7cd67f-vdxz6 Total loading time: 0 Render date: 2024-11-26T01:08:54.881Z Has data issue: false hasContentIssue false

Impact of school meals on educational outcomes in Addis Ababa, Ethiopia

Published online by Cambridge University Press:  28 March 2022

Zelalem Destaw
Affiliation:
Center for Food Security Studies, College of Development Studies, Addis Ababa University, P.O. Box 1176, Addis Ababa, Ethiopia
Eshetu Wencheko
Affiliation:
Department of Statistics, College of Natural and Computational Sciences, Addis Ababa University, Addis Ababa, Ethiopia
Samuel Kidane
Affiliation:
Addis Ababa Health Bureau, Addis Ababa, Ethiopia
Mulugeta Endale
Affiliation:
Addis Ababa Health Bureau, Addis Ababa, Ethiopia
Yohannes Challa
Affiliation:
Addis Ababa Health Bureau, Addis Ababa, Ethiopia
Melkamu Tiruneh
Affiliation:
Addis Ababa Health Bureau, Addis Ababa, Ethiopia
Meti Tamrat
Affiliation:
Addis Ababa Education Bureau, Addis Ababa, Ethiopia
Hanna Samson
Affiliation:
St. Paul’s Millennium Medical College, Addis Ababa, Ethiopia
Dilu Shaleka
Affiliation:
College of Development Studies, Addis Ababa University, Addis Ababa, Ethiopia
Mogessie Ashenafi*
Affiliation:
Center for Food Security Studies, College of Development Studies, Addis Ababa University, P.O. Box 1176, Addis Ababa, Ethiopia
*
*Corresponding author: Email [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Objective:

This study evaluated the impact of the Addis Ababa School Feeding Program (SFP) on educational outcomes.

Design:

Single-group repeated measurement/longitudinal study design and multistage stratified sampling design were followed. Effect sizes estimates, repeated measures ANOVA, Chi-square, Generalised Additive Mixed Model and mixed effects negative binomial regression were used. Academic scores, attendance and dropout and height and weight of schoolchildren were collected.

Setting:

School Feeding Programs in Addis Ababa, Ethiopia.

Participants:

Schoolchildren in primary schools and school directors and teachers in fifteen randomly selected schools for Key Informant Interview (KII).

Results:

Anthropometric measurements of 4500 schoolchildren were taken from 50 schools. Academic scores of 3924 schoolchildren from 46 schools, class attendance records of 1584 schoolchildren from 18 schools and annual enrolment records of 50 schools were gathered. School meals achieved a minimum to large scale effects on educational outcomes with effect sizes (η 2) of academic scores (boys = 0·023, girls = 0·04), enrolment (girls = 0·001, boys = 0·05) and attendance (Cramer’s V = 0·2). The average scores of girls were significantly higher than that of boys (P < 0·0001). Height-for-age in all schoolchildren (P < 0·01) and BMI-for-age Z-scores in adolescent girls of 15–19 years (P < 0·0001) never had a significant positive relationship with average scores. Significant relation was observed between nutritional status and attendance (P = 0·021). KII showed that SFP created convenient teaching–learning environment and reduced hunger in schools, while boosting enrolment, attendance and academic performance among the schoolchildren.

Conclusion:

The Addis Ababa SFP has positively contributed to educational outcomes. Strengthening the program would enhance nutritional outcomes and diminish educational inequalities.

Type
Research Paper
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
© The Author(s), 2022. Published by Cambridge University Press on behalf of The Nutrition Society

School Feeding Program (SFP) has been a recognised part of the platform for nutritional, health and educational intervention programs such as deworming, micronutrients fortification and supplementation and curricular programmes(Reference Drake, Lazrak and Fernandes1).

Recent studies show different findings about the contribution of SFP with regards to outcomes of energy intake, micronutrient status, enrolment and attendance and academic achievement(Reference Bundy, Burbano and Grosh2Reference Devereux, Hochfeld and Karriem5). Its positive impact on physical growth, cognitive and academic performance was less conclusive in some countries(Reference Jomaa, McDonnell and Probart3) while substantial helped elsewhere(Reference Bundy, Burbano and Grosh2,Reference Babu, Gajanan and Hallam4Reference Mostert6) .

In some countries, SFP has increased enrolment in both sexes, and a combination of take-home rations (THR) with on-site feeding sustained enrolment of girls(Reference Gelli, Meir and Espejo7). SFP is also believed to pave the way to achieve SDG(Reference Morgan and Sonnino8) and to reduce inequalities in education(Reference Mundy and Proulx9).

In sub-Saharan African countries, SFP showed encouraging effect on learning outcomes and small average effect on attendance(Reference Bashir, Lockheed and Ninan10). SFP has made marginal improvement in educational outcomes in countries with fast growing economy(Reference McEwan11).

Evidence on the nutritional and educational effects of SFP in Ethiopia is scanty. Yet, since it was established very recently, there is no evidence on the effect of the Addis Ababa SFP on educational outcomes. An earlier study in Sidama Zone, Southern Ethiopia, showed that SFP had no significant impact on school enrolment, attendance and dropout(Reference Dheressa12); however, later on, reported for the same Zone that SFP encouraged better attendance, academic performance and less dropout(Reference Desalegn, Gebremedhin and Alemayehu13). This may be associated with the improvement of the SFP through time. In addition, SFP diminished number of absenteeism in Boricha district, Southern Ethiopia(Reference Zenebe, Gebremedhin and Henry14) and in Addis Ababa(Reference Ayehu and Sahile15).

Despite those mixed findings, the Addis Ababa SFP was initiated in order to avoid hunger in schools, especially, for the number of those from poor households. As a result, it can be expected that the nutritional status of the schoolchildren would improve, and hence, concentrating in classes reduces absenteeism that might be associated with hunger and health matters due to malnutrition and achieve good educational performance.

The objective of this study was, therefore, to evaluate the impact of the Addis Ababa SFP on educational outcomes of schoolchildren. It examined academic performances, enrolment and attendance rates of primary schoolchildren before and after SFP has been started and explored associations between nutritional status and academic performance of the beneficiary schoolchildren.

Methods

Mixed research methods of quantitative and qualitative study design were employed. A single group repeated measurement/longitudinal study was designed as an optimal study design due to the fact that the Addis Ababa SFP was universal to schoolchildren attending school. As a result, establishing a control group was not possible.

Subjects of the study were primary schoolchildren involved in the SFP of the Addis Ababa City Administration.

The sample size for the quantitative data was determined based on a single-group repeated measures (longitudinal) study design. Thus, the sample size determination considered within-subject correlation and the effect size of an intervention over time(16). Another important parameter of interest considered was the power of a statistical test, which is the probability to reject a null hypothesis when it is false, i.e. the probability that it will result in the conclusion that the phenomenon-exists, for instance, a positive outcome of school meals on targeted children(Reference Hedeker, Gibbons and Waternaux17,Reference Diggle, Heagerty and Liang18) .

Therefore, using the above parameters, the sample size for the current single-group repeated measurement study was determined using the formula:

$$n = \;{\left( {{z_{\left( {1 - {\alpha \over 2}} \right)}} + {z_\beta }} \right)^2} \times {{\left[ {1 + \left( {r - 1} \right)\rho } \right]} \over {r{\varepsilon ^2}}}$$

where $r$ is the number of time points of measurement; $\rho $ is the assumed correlation of the repeated measures; $\beta $ is the desired probability of rejection of null hypothesis and $\alpha {\rm{\;}}$ is the desired level of significance.

Since there were no prior estimates of effect sizes and correlations for the proposed study design, we adapted Cohen’s classification of effect sizes of interventions assuming different levels of correlation(16). Accordingly, with a medium effect size of the intervention (0·3), for correlation level of 0·5, at 5 % level of significance, 80 % power, design effect of 1·5 and adjusting for 90 % response rate, a total sample size of ninety targeted schoolchildren, per school, were considered.

Then, a random sample of five schools in each of the ten sub-cities of Addis Ababa was selected that made up a total of fifty schools under consideration for the overall study. Sampling frame, a complete list of schoolchildren, who were involved in the programme at the beginning of this study, was first collected from all the fifty schools. Then fifteen schoolchildren were randomly selected from each first–sixth grades in a school in order to maintain age and sex proportions in the sample. Thus, a grand sum of 4500 schoolchildren involved in the Addis Ababa SFP was targeted.

More information about sample size determination, taking anthropometric measurements, calculation of Z scores and estimation of prevalence of malnutrition such as stunting and thinness and overall study design can be found in our previous publication(Reference Destaw, Wencheko and Zemenfeskidus19).

Data on academic performance, attendance and enrolment and anthropometric measures such as height and weight were collected. Data on average semester scores and attendance (the number of days a schoolchild was absent within a semester) were collected at the end of three consecutive semesters or terms, namely: (i) Semester I – 2011EC (January 2019); (ii) Semester II – 2011 EC (June 2019) and (iii) Semester I – 2012 EC (January 2020). The number of all enrolled students from grade one to grade eight per school was taken for three consecutive academic years, 2018, 2019 and 2020. New academic year in Ethiopia begins in September/October. Anthropometric measurements were measured between June 2019 and January 2020.

Since the Addis Ababa SFP was implemented as of February 2019, the data taken from the first term recordings were considered to define baseline status of educational outcomes. Thus, the second and the third terms represented mid-term and end-term outcomes, respectively, during which schoolchildren had been served school meals in schools.

Descriptive statistics, Chi-square, t-tests, repeated measure ANOVA, Generalised Additive Mixed Model and mixed effects negative binomial regression models were used to analyse the data, wherever appropriate in the subtopics presented in the Results section. Height-for-age and BMI-for-age Z-scores were used to determine nutritional status and compare the educational outcomes of the schoolchildren against the status of their physical growth gained during June 2019 and January 2020.

Repeated measures ANOVA was used to estimate effect sizes of differences in means(16,Reference Maher, Markey and Ebert-May20) and Chi-square tests to that of proportions(Reference Rea and Parker21). Effect sizes ( ${\eta ^2}$ ) of 0·01, 0·06 or 0·14 represent small, medium or large effect, respectively, when repeated ANOVA is used(16,Reference Maher, Markey and Ebert-May20) . Cramer’s V of 0·1–0·2, 0·2–0·4 or 0·4–0·6 refers to weak, moderate or relatively strong association, respectively, when measures of association are used(Reference Rea and Parker21).

The qualitative data were collected through Key Informant Interviews (KII) held among school teachers and school directors in March 2021. Interviews were held until a state of data saturation was reached, i.e. until information obtained from the KII sufficient to replicate the study(Reference O’Reilly and Parker22) was reached from a total of fifteen randomly selected schools among the fifty target schools selected for this study.

The KII were conducted in Amharic language, using semi-structured interview guides which included the educational benefits of the SFP to the schoolchildren as well as challenges and opportunities.

Each key informant was interviewed separately for about 20–30 min. The researcher began with an introductory interview and probes with follow-up questions to gain more information on the issues raised or any other new information that might be raised by the interviewees. KII were also recorded along with notes taken.

KII recordings and notes were then transcribed in English. The ideas were organised into themes and synthesised. Statements of the respondents that gave emphasis to the issues raised under the themes were quoted, and lessons or conclusions derived out from it were highlighted.

Results

Anthropometric measurements were achieved for 4500 schoolchildren (46·2 % girls) in 50 schools. Academic scores of 3924 schoolchildren (45·7 % girls) from 46 schools, semester-based class attendance records of 1584 schoolchildren from 18 schools and annual enrolment records of 50 schools were gathered. Since schools were shut down following the COVID-19 incidence, it posed a challenge to access the academic recordings from all of the target schools. As a result, lower sample size was achieved than initially aimed at educational indicators.

Nutritional status

The prevalence of stunting and thinness during June 2019 and January 2020 has shown a significant difference among boys and girls of all age groups (P < 0·01), while the prevalence has generally declined over time. The changes in the sample size per age group in each semester are expected as age increases along with semesters count on (Table 1).

Table 1 Prevalence of stunting and thinness by age groups, sex and time

** P < 0·05.

*** P < 0·01.

χ 2 is Chi square, tests difference in prevalence between June 2019 and January 2020.

Academic performance

Average semester scores of boys and girls have increased during each semester between January 2019 and January 2020. ANOVA showed that the mean scores of girls were significantly higher than that of boys at all age groups and during each of the three semesters between 2019 and 2020 (Table 2).

Table 2 Mean and standard deviations of scores of schoolchildren by age and sex groups

*P < 0·1.

** P< 0·05.

*** P< 0·01.

ANOVA test for sex and age differences by semester.

A repeated measures ANOVA showed significant differences in the average scores of the schoolchildren over time (F (2,7846) = 108·9, P < 0·0001), indicating an increasing trend or improvement in the educational performance of schoolchildren over time. The estimated average effect size ( ${\eta ^2}$ ) was 0·03 (boys = 0·023, girls = 0·04), indicating that the SFP had above a minimum perhaps close to a medium effect on the average academic performance of the schoolchildren. An effect size ( ${\eta ^2}$ ) of 0·01, 0·06 or 0·14 is considered to be small, medium or large effect, respectively(16,Reference Maher, Markey and Ebert-May20) .

Effect size was minimum for boys of age 10–14 years old ( ${\eta ^2}$ = 0 02) and maximum for girls of age 15–19 years old ( ${\eta ^2}$ = 0 05) (online Supplementary Table 1).

Generalised Additive Mixed Model also showed that the average scores of the girls were consistently significantly higher than those of boys (P < 0·0001). Moreover, it was observed from the model that higher height-for-age Z-scores in all schoolchildren (P < 0·01) and higher BMI-for-age Z-scores in adolescent girls of age 15–19 years (P < 0·0001) were significantly related with higher average scores.

The overall progress in the academic performance is presented in Fig. 1. Among the 3924 schoolchildren followed for their average scores, the proportion of schoolchildren who scored below 50 average points decreased by half during January 2019 and January 2020, while that of those who scored 75 and above increased by about 8 % (3·1 percentage points).

Fig. 1 Proportion of schoolchildren by average scores from January 2019 to January 2020

Enrolment

The total number of boys and girls enrolled each year, the test for the mean size of classes/grade levels each year, the rate of changes from the base year enrolment, September 2018 (2011EC) and the tests for the mean of rates are presented in Table 3. The number of girls enrolled was higher than boys, each year, and t-tests confirmed that the average number of boys and girls enrolled were significantly different for each of the 3 years. Enrolment of boys in September 2019 (2012EC) had increased by 2·6 % of that in 2011 and 7·8 % higher number of boys were enrolled in 2020 (2013EC).

Table 3 Enrolment and rates of changes over the years by sex

EC: Ethiopian Calendar.

* P < 0·1.

*** P < 0·01.

The test for equality of the means of the differences between enrolments in 2019 (2012EC) or 2020 (2013EC) and that of the base year, 2018 (2011) showed that a significantly higher number of boys had registered each year than girls. A similar size of enrolment has been achieved in girls.

The enrolment trend, in number, by grade level and sex groups over the three academic years of 2018, 2019 and 2020 (or 2011, 2012, 2013EC) is presented in Fig. 2. Similar to the results shown in Table 3, the enrolment of all boys and girls in grades one to eight has shown a slight increment, and of these, those in grades five to eight had higher numbers. This highlights that SFP had encouraged adolescent children to come back to school. KII also pointed out that SFP attracted a number of adolescents to school since their parents could send them to school instead of demanding them to work and assist in supporting the family.

Fig. 2 Enrolment by sex from 2011EC (2018) to 2013EC (2020)

Furthermore, a repeated measures ANOVA showed that the number of girls enrolled each year did not change significantly ( ${F_{\left( {2,{\rm{\;}}654} \right)}}$ = 0·27; $p$ = 0·76; effect size, ${\eta ^2} = \;$ 0·001), whereas a statistically significantly higher number of boys had been enrolled at each of the academic years ( ${F_{\left( {2,{\rm{\;}}654} \right)}}$ = 18·2; $p$ < 0·0001; effect size, ${\eta ^2} = $ 0·05). This indicates that SFP had nearly medium effect among boys’ enrolment while its effect for girls’ enrolment was nil or very little.

Attendance

Continuous full attendance (with no absenteeism) increased from 72·1 % (baseline) to 77·9 % (2nd assessment) and, finally, to 88·2 % (endline). Majority of schoolchildren were absent from school for less than 5 d. The number of schoolchildren absent for 5 d or more has declined from 46 in 2019 to 12 in 2020 (Table 4).

Table 4 Frequency of number of absent days during the three semesters each

For convenient description, the number of absentee days was grouped into ‘No absenteeism’ and ‘Any absence’.

The overall proportion of absenteeism was tabulated for the three consecutive periods/semesters of this study (Table 5). The rate of absenteeism declined from 27·9 % as of January 2019 to 11·9 % by January 2020 (drop off by 16 percentage points, or 57·4 %). Conversely, it implies that the attendance rate raised by 16 percentage points or 57·4 % during the same time of interval. The differences in absenteeism over the periods were significant (P < 0·0001) indicating that improvement in class attendance among schoolchildren. Effect size on attendance (Cramer’s V) is 0·2 which corresponds to moderate effect(Reference Rea and Parker21) in support of the Addis Ababa SFP had medium effect on attendance.

Table 5 Attendance rates and average absent days per student, over time

${\chi ^2}$ – Chi square.

Chi-square test showed that statistically significant differences in absenteeism among children of different age groups, regardless of differences in sex each year. However, the attendance rates had improved over time as absenteeism of boys and girls have declined during each semester between January 2019 and January 2020. But absenteeism did not vary significantly with sex (Table 6).

Table 6 Association between absenteeism and age groups and sex over three semesters of School Feeding Program period

* P < 0·1.

** P < 0·05.

*** P < 0·01.

Chi-square (χ 2) between absenteeism and age group by sex at each semester.

Chi-square (χ 2) between absenteeism and sex at each semester.

Mixed effects negative binomial regression showed that the estimated effect of a unit changes in height-for-age Z-scores resulted in 8% change in the number of class attendances (P = 0·021). Thus, better nutritional status might have reduced the frequency of absenteeism, showing that reduction in absenteeism was associated with the Addis Ababa SFP. The KII findings supported this empirical evidence that teachers and school directors noticed dramatic fall in absenteeism.

Findings from KII

According to the school directors and teachers participated in this study, SFP has reduced absenteeism and no student has been absent from school in connection with the inability to get a lunchpack from home or take breakfast at home. A teacher shared his experience in this as follows:

Sometimes, schoolchildren did not come to school. We asked their parents. They told us schoolchildren did not go to school because parents were not able to pack lunch for their children. But now parents send their children without any such problem. (Teacher)

Thus, SFP solved problems that caused absenteeism. In fact, key informants asserted that since the SFP provided both breakfast and lunch every day, schoolchildren rather came to school very early in the morning. This early arrival of the schoolchildren at the schools has now simplified even the teaching–learning process since monitoring and managing late comers and absentees were no more required.

Participants also witnessed that enrolment, attendance, dropout and academic performance of schoolchildren and overall educational activities have improved since the establishment of the SFP, which has resolved multiple problems, such as hunger manifestations at schools and avoiding late coming. According to a school director:

A five-grader girl, about 16 years old or below, used to be late. I always saw her standing outside the classroom. I asked her homeroom teacher and he said that he was not allowing her to get in because she came to class late. I asked her why she was always late. She showed me her arms putting up her sleeves soiled with dough. I saw that she came to school after baking injera the whole night. She had to finish baking injera before she came to school. She even did not take breakfast. Now it is solved. (School director).

Thus, the number of latecomers has decreased, schoolchildren attended classes regularly and the teaching–learning process has been smoothly facilitated.

The SFP has created convenient teaching–learning environment. Teachers said that unlike the previous academic environment before the establishment of the SFP, nowadays, teachers could strictly follow-up schoolchildren to attend classes actively and do their homework regularly. Teachers added that they compromised follow-up of the schoolchildren earlier because they knew that schoolchildren from destitute families had to use the time out of school to work or beg along the streets for their lunch or dinner, instead of doing homework and reading at home. Thus, previously, teachers and school directors had difficulty to demand a student, who was under such deprivation, for active class activity and regular homework delivery. A teacher said that:

I teach Biology. I have seen the difference between teaching well-fed and starved schoolchildren. I was able to read their feelings and pain when they were hungry. We observed that even clever schoolchildren could not participate actively in class activities due to the hunger effect. But now, even the so-called lazy schoolchildren actively participate. (Teacher).

Another teacher said that:

The difference is visible before and after SFP was started. Dropout has declined. Teachers used to be too frustrated to give classwork, homework, etc. But now teachers teach without any frustration since they do not see any bad feeling from the schoolchildren’ face as a result of hunger. (Teacher).

Teachers and school directors also pointed out that the SFP has helped the schoolchildren to improve their academic performance. A school director expressed his experience that:

I myself have studied the problem with colleagues and found that radical enhancement of some schoolchildren in academic performance with SFP. This showed us that the schoolchildren had the capacity to perform satisfactorily but due to burden of economy and livelihood, their capacity was undermined. Thus, SFP definitely boosted performance of schoolchildren. There were schoolchildren whose parents were at low economy level but academically sound. There were many schoolchildren who had the knowledge and skill, however due to their poor livelihood they dropped out. There were schoolchildren missing from schools at lunch time before SFP. Later on in those days, we saw them along the streets in Merkato begging for money. However, when the SFP reduced their economic burden, they completely stopped disappearing from school at lunch time. They attended all class of the day with full attention and participation. (School director).

This is indicative that the provision of school meals has a lot of merits and drives smooth delivery of education in schools.

Discussion

The current finding showed that the Addis Ababa SFP had significantly improved academic outcomes. The program had at least a minimal effect on the average academic performance of the schoolchildren, which is concurrent to findings of other studies. This study has also shown that the Addis Ababa SFP had a positive effect in academic performances of schoolchildren boys of age 10–14 years, but the effect was more noticeable for late adolescent girls of 15–19 years.

Similar effect sizes, measured in terms of Cohen’s f, in academic performance of SFP were reported in Kenya ( $\varepsilon $ = 0·26) and Senegal ( $\varepsilon $ = 0·14) from studies on test scores of schoolchildren served school lunch(Reference Bashir, Lockheed and Ninan10). An effect size (Cohen’s f) of 0·1, 0·25 or 0·4 was considered to be small, medium or large effect, respectively(16).

Overall, a significant increment of enrolment each year has been noted among boys in the 3 years considered in this study. This is in agreement with the education statistics for the year 2019–2020 by the MoE–Ethiopia that the net intake rate at grade one was higher for males than females, where the national target of net intake rate was shown to be met for males(23). Thus, the Addis Ababa SFP that has been going on since February 11, 2019 (Yekatit 2011 EC)(24) might have attracted more boys for schooling.

Despite the fact that SFP have potential impacts on education outcomes, the so called low- and middle-income countries focus only on the assessment of its impact on enrolment and attendance(Reference Drake, Fernandes and Aurino25).

Nevertheless, the findings in this study are comparable to the existing scanty literature about the effect of school meals on academic performance. For instance, better status in height-for-age was linked to academic performance among schoolchildren in Goba town, South East Ethiopia(Reference Haile, Nigatu and Gashaw26). In another study in Ethiopia, a significant but small 2·4 percentage points increase in academic performance was observed in SFP beneficiaries(Reference Desalegn, Gebremedhin and Alemayehu13). In Northwest Ethiopia, low educational performance was significantly associated with stunting, underweight and wasting(Reference Asmare, Taddele and Berihun27). Conversely, weekend feeding programs improved academic performance in the United States(Reference Fiese, Gundersen and Koester28,Reference Kurtz, Conway and Mohr29) .

Unlike the finding in this study, the impact of Chile’s SFP had not been shown to increase scores of national mathematics and language tests(Reference McEwan11).

Long-term access to school meals influences positive learning achievements. The Indian midday meals is an example that resulted in robust positive effect on learning achievement in India(Reference Chakraborty and Jayaraman30).

Similarly, SFP beneficiary children had better performance on national academic assessment tests in Guyana(Reference Ismail, Jarvis and Borja-Vega31), while in Egypt, school meal improved visual memory, auditory vigilance, afternoon attentiveness and working memory(Reference Metwally, El-Sonbaty and El Etreby32). In contrast, Argentina recorded only partial improvement in school performance due to the nutritional deficit of the meal(Reference Adrogue and Orlicki33). In Ghana, SFP improved academic performance and health outcomes,(Reference Awojobi34) and in the United Kingdom, school meals improved educational outcomes significantly(Reference Belot and James35). Therefore, consistent with the majority of these studies, the findings in the current study, where academic performance has been at least minimally boosted, would be attributed to an outstanding contribution of SFP of Addis Ababa.

On the other hand, the increase in boys’ enrolment is consistent with that in rural Bangladesh where THR program resulted in an 8% increase in primary school enrolment(Reference Alderman, Gilligan and Lehrer36). SFP studies in Ghana consistently reported that an increased enrolment has been linked to school meal provisions(Reference Tette and Enos37).

SFP particularly raised girls’ enrolment by 3·2 percentage points in Burkina Faso(Reference Nikiema38) which was higher than that in our finding (0·9 %). In Uganda, SFP helped girls to timely begin/enroll at first day of schooling(Reference Ahmed and del Ninno39).

The Chile’s SFP had also shown no evidence in favour of enrolment and attendance(Reference McEwan11). The highest earliest baseline enrolment in the education outcomes of Chile and the larger context of Chilean development seem to have dominantly influenced the positive educational outcomes over the SFP(Reference McEwan11). However, the researchers further explained that Chile’s SFP significantly influenced educational outcomes when poverty and malnutrition rates were high during which enrolment was also low(Reference McEwan11).

In a different study, the overall impact of school meal interventions on education was reported to be strongest where enrolment is low and food insecurity was high(Reference Snilstveit, Stevenson and Menon40). An experimental study also revealed that higher attendance has been recorded as a result of SFP among lower-income countries(Reference Kristjansson, Robinson and Petticrew41). In Mali, SFP motivated child labour reduction, increased enrolment by 10 percentage points and reduced workload and time spent on work among girls(Reference Aurino, Tranchant and Sekou Diallo42).

As the findings in this study indicated, the baseline high enrolment rate of girls and lower rate of enrolment of boys might have influenced the significant cumulative difference. While the key message here might be that boys had been deprived of education earlier and might have been forced to dropout or did not enrol at all due to poverty, child labour or hunger. Thus, it can be concluded that the recent progressive rise in the enrolment among boys is associated with the Addis Ababa SFP which avoided the need for child labour and hunger risks among boys. The KII employed in this study confirmed that many schoolchildren used to casually work in the streets or sold small things in local market places to generate income for themselves and their parents as well.

Thus, in sum, it is conclusive that the Addis Ababa SFP contributed to a significant but medium enrolment rate among middle- and late adolescent age boys.

The current findings also showed that the Addis Ababa SFP had medium effect size on school attendance. The finding here varies from that reported by other studies in Ethiopia and elsewhere. In Boricha district, Southern Ethiopia, significantly lower average absentee days were noted among SFP beneficiaries than non-beneficiaries perhaps the mean absent days were larger(Reference Zenebe, Gebremedhin and Henry14).

On the other hand, evidence shows that school absenteeism was linked to child labour on farms and households to generate income for family food consumption(Reference Walingo43) in Malawi. The rise of attendance rate in this study is at least twice as higher as the rate gained among other thirty-two African countries, where school meal provision contributed for 28 % and 22 % rise of girls’ and boys’ school attendances, respectively(Reference Gelli, Meir and Espejo7). It is also noted in Burkina Faso that THR increased average school attendance rate for both boys and girls by 8·4 percentage points(Reference Nikiema38).

The percentage points of attendance gained in this study was higher than that found in Guyana, where 4·3 % increase of attendance was noted as a result of SFP(Reference Ismail, Jarvis and Borja-Vega31). Similarly, in the United Kingdom, school meals contributed for drops in absenteeism by about 0·6 percentage points(Reference Belot and James35). In addition, in the United Kingdom, school meals were also credited for the decline of authorised absences by 14 %, which may be, they argue, linked to illness and health, as well(Reference Belot and James35).

Relatively closer to the current findings is that in rural Bangladesh where THR program resulted in a 12 % increase in school attendance(Reference Alderman, Gilligan and Lehrer36), and in another study of the same programme, the THR increased school participation by 19 percentage points for boys and 18 percentage points for girls on average(Reference Ravallion and Wodon44). In contrast, little improvement in attendance was reported in Ghana(Reference Tette and Enos37).

THR and SFP schemes in Uganda achieved large impacts on school attendance and reduced grade repetition(Reference Ahmed and del Ninno39). Further, in Lao, there was minimal evidence in support of the school feeding schemes increasing enrolment(Reference Buttenheim, Alderman and Friedman45).

The discrepancy between the higher impact on attendance in Addis Ababa and lower in other studies may be associated with different reasons. The first reason goes for the difference in the study design. The findings in the other studies were mainly based on cross-sectional comparative settings between beneficiaries and non-beneficiaries. Our study, however, made repeated measurements of a single group. Our findings were limited to the intervention group, however, since the Addis Ababa SFP was universal to establish control group and compare changes in academic performance, attendance and enrolment.

The other reason may be related to socio-economic variations between the countries. For instance, in the United Kingdom, wide difference in the effect size on attendance rate seems plausibly attributed to the larger difference in economic development and initial status of educational outcomes(Reference Belot and James35). Similarly, in Chile, insignificant effect on educational outcomes was attached to the country’s progressive economic and educational development(Reference McEwan11).

In Ethiopia, poverty is among the leading factors responsible for limited school attendance and higher dropout rates. Ceasing a SFP in the rural Ethiopia resulted with 7 % higher dropout rate for girls than the control group supporting the fact that SFP in Ethiopia results in better education outcomes(Reference Gallenbacher46).

In many developing countries, primary school enrolment rates are high, but attendance is consistently low(Reference Adelman, Gilligan and Lehrer47). On top of poor health and short-term hunger, poor households fail to send children to school since they need them to work on farm or give care to siblings(Reference Adelman, Gilligan and Lehrer47).

A similar qualitative study in Ghana confirmed that teachers, caterers, parents and school administrators agreed with the fact that SFP had an impact on enrolment, attendance, completion and the academic performances of primary schoolchildren, in addition to cognitive development and the reduction of hunger(Reference Tagoe48).

This study showed that the Addis Ababa SFP had an outstanding medium effect on educational performance of beneficiary students. Stunting and wasting were hindering conditions that determined educational performance. Thus, the longer the school meals provision the better will likely be long-term nutritional and educational outcomes among the beneficiaries.

The Addis Ababa SFP also had similar marginal medium effect among boys’ enrolment while its effect for girls’ enrolment was nil or too little to claim. An overall enrolment through time and mainly attraction of a higher number of boys each year is most likely associated with that significant number of boys in Addis Ababa go for search of income, child labour or other means than going to school as findings out of KII also support.

Potential reduction in absenteeism or consistent school attendance observed among schoolchildren without heterogeneity between sexes was a commendable effect of the Addis Ababa SFP. Better nutritional status and dropping absenteeism went parallel, reflecting the effect of the Addis Ababa SFP.

The SFP has helped girls to attentively attend class and attracted more boys, especially in the adolescent age, to schools while removing them out of child labour or street begging, and improved convenient environment for effective teaching–learning process.

The KIIs findings support this empirical evidence that teachers and school directors have noticed a potential improvement in absenteeism.

Conclusion

The current findings highlighted notable effects of the Addis Ababa SFP on educational outcomes, specifically, on enrolment, academic performance and attendance, while reducing the prevalence of malnutrition. Thus, the programme would support to build the physical, mental and cognitive conditions of school-age children and adolescents as well as maintain their socio-economic wellbeing in later ages, of adulthood, as better health, nutrition and education contribute to productivity. This also implies that SFP could serve efforts toward the global sustainable development agenda as it can reach schoolchildren through human development-related interventions, including health, nutrition and education. Apart from alleviating hunger in schools and enhance nutritional outcomes, strengthening the program would inevitably help efforts to diminish educational inequalities.

Acknowledgements

The manuscript is based on the doctoral research of ZD. The Centre for Food Security Studies, Addis Ababa University and Addis Ababa Education Bureau are acknowledged for facilitating the study.

Financial support:

We thank the Addis Ababa Health Bureau and the Ministry of Health for funding the study.

Conflict of interest:

There are no conflicts of interest.

Authorship:

Z.D. and M.A. conceptualised the research. Z.D., M.A., and E.W. developed study design. Z.D., M.T. and M.T. facilitated data collection. Z.D. and M.A. employed data curation and formal analysis. Y.C., S.K., M.E., D.S., M.T., M.T. and H.S. led project administration. M.A. supervised the study. E.W. co-supervised the study and reviewed statistical analysis. Z.D. wrote original draft. M.A. edited and approved the final version of the Article. All authors reviewed the manuscript and agreed to its submission. Z.D. and M.A. had accessed and verified the underlying data.

Ethics of human subject participation:

This study was conducted according to the guidelines laid down in the Declaration of Helsinki and all procedures involving research study participants were approved by the Institutional Review Board (IRB) of the Addis Ababa Health Bureau with Ref. no. 36552/227. Permission was obtained from the Addis Ababa Education Bureau. Written informed consent was obtained from parents to take anthropometric measurements and academic recordings of their children. Confidentiality of information and anonymity of participants were maintained. Consents to take part and for recordings were granted from all the school directors and teachers who participated in the KIIs.

Supplementary material

For supplementary material accompanying this paper visit https://doi.org/10.1017/S1368980022000799

References

Drake, L, Lazrak, N, Fernandes, M et al. (2020) Establishing global school feeding program targets: how many poor children globally should be prioritized, and what would be the cost of implementation? Front Public Health 8, 530176.CrossRefGoogle ScholarPubMed
Bundy, D, Burbano, C, Grosh, ME et al. (2009) Rethinking School Feeding. Washington, DC: The World Bank.CrossRefGoogle Scholar
Jomaa, LH, McDonnell, E & Probart, C (2010) School feeding programs in developing countries: impacts on children’s health and educational outcomes. Nutr Rev 69, 8398.CrossRefGoogle Scholar
Babu, SC, Gajanan, SN & Hallam, JA (2017) Economics of school nutrition. Nutr Econ 1, 257277.CrossRefGoogle Scholar
Devereux, S, Hochfeld, T, Karriem, A et al. (2018) School Feeding in South Africa: What We Know, What We Don’t Know, What We Need to Know, What We Need to Do. Food Security SA. Working Paper Series Number. Pretoria: DSTNRF Centre of Excellence in Food Security.Google Scholar
Mostert, CM (2021) The impact of the school feeding programme on the education and health outcomes of South African children. Child Youth Serv Rev 126, 110.CrossRefGoogle Scholar
Gelli, A, Meir, U & Espejo, F (2007) Does provision of food in school increase girls’ enrollment? Evidence from schools in sub-Saharan Africa. Food Nutr Bull 28, 149155.CrossRefGoogle ScholarPubMed
Morgan, K & Sonnino, R (2013) The School Food Revolution: Public Food and the Challenge of Sustainable Development. London: Taylor and Francis.CrossRefGoogle Scholar
Mundy, K & Proulx, K (2021) Making Evaluation Work for the Achievement of SDG 4.5 Equality and Inclusion in Education. UNESCO/IOS Evaluation Office, 2019. https://www.norad.no/en/toolspublications/publications/2019/making-evaluation-work-for-the-achievement-of-sdg-4.5-equality-and-inclusion-in-educationy-side/ (accessed June 2021).Google Scholar
Bashir, S, Lockheed, M, Ninan, E et al. (2018) Facing Forward: Schooling for Learning in Africa. Washington, DC: World Bank.CrossRefGoogle Scholar
McEwan, PJ (2012) The impact of Chile’s school feeding program on education outcomes. Econ Educ Rev 32, 122139.CrossRefGoogle Scholar
Dheressa, DK (2021) Education in Focus: Impacts of School Feeding Program on School Participation : A Case Study in Dara Woreda of Sidama Zone, Southern Ethiopia. Norwegian: University of Life Sciences; available at http://hdl.handle.net/11250/187763 (accessed June 2021).Google Scholar
Desalegn, TA, Gebremedhin, S, Alemayehu, FR et al. (2021) The effect of school feeding programme on class absenteeism and academic performance of schoolchildren in Southern Ethiopia: a prospective cohort study. Public Health Nutr 24, 30663074.CrossRefGoogle ScholarPubMed
Zenebe, M, Gebremedhin, S, Henry, CJ et al. (2018) School feeding program has resulted in improved dietary diversity, nutritional status and class attendance of school children. Ital J Pediatr 44, 16.CrossRefGoogle ScholarPubMed
Ayehu, SM & Sahile, AT (2021) Body mass index and associated factors of school absenteeism by school feeding program at selected primary schools in Addis Ababa, Ethiopia: a comparative study. Scientifica 2021, 6671468.CrossRefGoogle Scholar
Cohen (1988) Statistical Power Analysis for the Behavioral Sciences, 2nd ed. New York: Routledge.Google Scholar
Hedeker, D, Gibbons, RD & Waternaux, C (1999) Sample size estimation for longitudinal designs with attrition: comparing time-related contrasts between two groups. J Educ Behav Stat 24, 7093.CrossRefGoogle Scholar
Diggle, PJ, Heagerty, PJ, Liang, KY et al. (2002) Analysis of Longitudinal Data. Oxford Statistical Science Series, 2nd ed. Oxford: Oxford University Press.Google Scholar
Destaw, Z, Wencheko, E, Zemenfeskidus, S et al. (2021) Use of modified composite index of anthropometric failure and MUAC-for-age to assess prevalence of malnutrition among school-age children and adolescents involved in the school feeding program in Addis Ababa, Ethiopia. BMC Nutr 7, 81.CrossRefGoogle ScholarPubMed
Maher, JM, Markey, JC & Ebert-May, D (2013) The other half of the story: effect size analysis in quantitative research. CBE Life Sci Educ 12, 345351.CrossRefGoogle ScholarPubMed
Rea, L & Parker, A (2014) Designing and Conducting Survey Research: A Comprehensive Guide, 4th ed. CA, USA: John Wiley & Sons, Inc., Jossey-Bass.Google Scholar
O’Reilly, M & Parker, N (2013) ‘Unsatisfactory saturation’: a critical exploration of the notion of saturated sample sizes in qualitative research. Qual Res 13, 190197.CrossRefGoogle Scholar
MoE (2020) Education Statistics Annual Abstract: September 2019 – March 2020. www.moe.gov.et (accessed September 2021).Google Scholar
AAEB (2019) Education Statistics Annual Abstract. Addis Ababa: Addis Ababa Education Bureau (AAEB).Google Scholar
Drake, L, Fernandes, M, Aurino, E et al. (editors) (2017) School feeding programs in middle childhood and adolescence. In Child and Adolescent Health and Development, pp. 147164. Washington, DC: The International Bank for Reconstruction and Development, The World Bank.Google ScholarPubMed
Haile, D, Nigatu, D, Gashaw, K et al. (2016) Height for age Z score and cognitive function are associated with Academic performance among school children aged 8–11 years old. Arch Public Health 74, 17.CrossRefGoogle ScholarPubMed
Asmare, B, Taddele, M, Berihun, S et al. (2018) Nutritional status and correlation with academic performance among primary school children, northwest Ethiopia. BMC Res Notes 11, 805.CrossRefGoogle Scholar
Fiese, BH, Gundersen, C, Koester, B et al. (2020) School-based weekend feeding program: a comparison group design documents selection efficacy and appreciable effects on school attendance. J Hunger Environ Nutr 15, 220229.CrossRefGoogle Scholar
Kurtz, MD, Conway, KS & Mohr, RD (2020) Weekend feeding (“backpack”) programs and student outcomes. Econ Educ Rev 79, 102040.CrossRefGoogle Scholar
Chakraborty, T & Jayaraman, R (2018) School feeding and learning achievement: evidence from India’s midday meal program. J Dev Econ 139, 249265.CrossRefGoogle Scholar
Ismail, SJ, Jarvis, EA, Borja-Vega, C et al. (2014) Guyana’s Hinterland Community-Based School Feeding Program (SFP). Italy: CABI.CrossRefGoogle Scholar
Metwally, AM, El-Sonbaty, MM, El Etreby, LA et al. (2020) Impact of national Egyptian school feeding program on growth, development, and school achievement of school children. World J Pediatr 16, 393400.CrossRefGoogle ScholarPubMed
Adrogue, C & Orlicki, ME (2013) Do in-school feeding programs have an impact on academic performance and dropouts? The case of public schools in Argentina. Educ Policy Anal Arch 21, 50.CrossRefGoogle Scholar
Awojobi, ON (2019) A systematic review of the impact of Ghana’s school feeding programme on educational and nutritional outcomes. Agro-Science 18, 42.CrossRefGoogle Scholar
Belot, M & James, J (2011) Healthy school meals and educational outcomes. J Health Econ 30, 489504.CrossRefGoogle ScholarPubMed
Alderman, H, Gilligan, DO & Lehrer, K (2012) The impact of food for education programs on school participation in northern Uganda. Econ Dev Cult Change 61(1), 187218. doi: 10.1086/666949.CrossRefGoogle Scholar
Tette, EMA & Enos, JY (2020) Review effect of the Ghana school feeding programme on nutrient intake, nutritional status and education of children: a review. Asian J Diet 2(2), 4957.Google Scholar
Nikiema, PR (2019) The impact of School feeding programmes on educational outcomes: evidence from Burkina Faso. J Afr Econ 28, 323341.CrossRefGoogle Scholar
Ahmed, AU & del Ninno, C (2002) Food for Education Program in Bangladesh: An Evaluation of Its Impact on Educational Attainment and Food Security. Washington, DC: IFPRI.Google Scholar
Snilstveit, B, Stevenson, J, Menon, R et al. (2016) The Impact of Education Programmes on Learning and School Participation in Low- and Middle-Income Countries. Systematic Review Summary 7. London: International Initiative for Impact Evaluation.CrossRefGoogle Scholar
Kristjansson, EA, Robinson, V, Petticrew, M et al. (2007) School feeding for improving the physical and psychosocial health of disadvantaged students. Cochrane Database Syst Rev 1, CD004676.Google Scholar
Aurino, E, Tranchant, JP, Sekou Diallo, A et al. (2019) School feeding or general food distribution? Quasi-experimental evidence on the educational impacts of emergency food assistance during conflict in Mali. J Dev Stud 55, Suppl. 1, 728.CrossRefGoogle Scholar
Walingo, M (2012) School feeding programmes for improvement of school children’s nutrition status and school attendance. Nutr Educ 1, 151162.Google Scholar
Ravallion, M & Wodon, Q (2000) Does child labour displace schooling? Evidence on behavioural responses to an enrollment subsidy. Econ J 110, 158175.CrossRefGoogle Scholar
Buttenheim, A, Alderman, H & Friedman, J (2011) Impact evaluation of school feeding programmes in Lao People’s Democratic Republic. J Dev Effect 3, 520542.CrossRefGoogle Scholar
Gallenbacher, R (2021) Impact of School Feeding on Primary School Education in Ethiopia. Vienna: University of Vienna; available at https://resolver.obvsg.at/urn:nbn:at:at-ubw:1-18498.67525.402858-2 (accessed June 2021).Google Scholar
Adelman, S, Gilligan, DO & Lehrer, K (2007) How effective are food-for-education programs? IFPRI 1, 14.Google Scholar
Tagoe, I (2018) The Ghana National School Feeding Program: Peoples’ Perceptions About the Program’s Impact on School Enrolment, Attendance and Completion. ProQuest Dissertations and Theses. Bowling Green State University. http://ezproxy2.library.drexel.edu/login?url=https://search.proquest.com/docview/2058140435?accountid=10559 (accessed June 2021).Google Scholar
Figure 0

Table 1 Prevalence of stunting and thinness by age groups, sex and time

Figure 1

Table 2 Mean and standard deviations of scores of schoolchildren by age and sex groups

Figure 2

Fig. 1 Proportion of schoolchildren by average scores from January 2019 to January 2020

Figure 3

Table 3 Enrolment and rates of changes over the years by sex

Figure 4

Fig. 2 Enrolment by sex from 2011EC (2018) to 2013EC (2020)

Figure 5

Table 4 Frequency of number of absent days during the three semesters each

Figure 6

Table 5 Attendance rates and average absent days per student, over time

Figure 7

Table 6 Association between absenteeism and age groups and sex over three semesters of School Feeding Program period

Supplementary material: File

Destaw et al. supplementary material

Destaw et al. supplementary material

Download Destaw et al. supplementary material(File)
File 15.6 KB