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Determinants and constraints to household-level animal source food consumption in rural communities of Ethiopia

Published online by Cambridge University Press:  09 August 2021

Alemneh Kabeta Daba*
Affiliation:
School of Nutrition, Food Science and Technology, College of Agriculture, Hawassa University, Hawassa, Ethiopia School of Nursing, College of Medicine and Health Sciences, Hawassa University, Hawassa, Ethiopia
Mary Murimi
Affiliation:
Department of Nutritional Sciences, College of Human Sciences, Texas Tech University, Lubbock, TX, USA
Kebede Abegaz
Affiliation:
School of Nutrition, Food Science and Technology, College of Agriculture, Hawassa University, Hawassa, Ethiopia
Dejene Hailu
Affiliation:
School of Public Health, College of Medicine and Health Sciences, Hawassa University, Hawassa, Ethiopia
*
*Corresponding author: Alemneh Kabeta Daba, email: [email protected]

Abstract

Animal source foods (ASF) contain quality nutrients important for growth, development, immunity and behavioural outcomes. Plant-based foods also provide the nutrients, but with lower bioavailability than ASF. Evidence on household-level ASF consumption frequency, constraints and determinants are limited for Ethiopia. Therefore, the present study aimed to assess the consumption frequency of ASF and to identify determinants and constraints among rural households in Ethiopia. A cross-sectional study was conducted in 422 households. The consumption frequency of ASF was assessed using a food frequency screener over 30 days. Twelve statements with Likert scale responses were used to identify constraints to ASF consumption. Ordinal logistic regression was used to identify determinants of ASF consumption. About a quarter (26 %) of the households consumed milk one to two times per week. One out of five households consumed eggs one to two times per week (20 %) or one to two times per month (19 %). Poultry and meat were never consumed by 92 and 60 % of the households, respectively. Unavailability, unaffordability, consumption tradition and income generation priority were constraints identified. Food insecurity, livestock ownership, income, family size and women's education were associated (P < 0⋅05) with selected ASF consumption. Rural households in Ethiopia did not consume ASF on regular basis. Poor socio-demographic and economic conditions as determined by food insecurity, property ownership, income, educational achievement, family size and ASF unavailability and unaffordability contributed to the lower consumption frequency of ASF by households in rural Ethiopia. Nutrition policies and programmes should focus on nutrition-sensitive agricultural extension, livelihood improvement and women empowerment interventions integrated with nutrition education to improve ASF consumption in rural settings.

Type
Research Article
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 (http://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
Copyright © The Author(s), 2021. Published by Cambridge University Press on behalf of The Nutrition Society

Introduction

Malnutrition is a significant public health concern. Globally, out of 676 million children underfive(Reference Ritchie and Roser1), 155 million are stunted and 52 million are wasted(2,3) . Worldwide, almost three million children die before the age of 5 years and 45 % of those deaths are attributed to malnutrition(4). Africa is home to about fifty-nine million stunted and fourteen million wasted children in the world. Regionally, countries located in East Africa share 4⋅1 % of wasting and 24 % of stunting(3).

Undernutrition can be manifested as either growth failure or micronutrient deficiency, and a multitude of factors contribute to undernutrition(Reference Huybregts and Lachat5). For example, low animal source food (ASF) consumption has been reported to increase the risks of being undernourished(Reference Headey, Hirvonen and Hoddinott6Reference Kaimila, Divala and Agapova8). ASF are excellent sources of quality macro- and micro-nutrients(Reference Schönfeldt, Pretorius and Hall9) including all of the essential amino acids(Reference Hoffman and Falvo10), zinc, iron, calcium, selenium, vitamin A, vitamin B12(Reference Neumann, Harris and Rogers11) and vitamin D(Reference Schmid and Walther12). Having access to such foods is vital for bone health, growth, healthy blood cell production, immunity, neurological function and behavioural outcomes(Reference Murphy and Allen13Reference Eaton, Rothpletz-Puglia and Dreker15). Moreover, the addition of small quantities of ASF in a diet can improve the nutritional performance of plant-based diets and consumers’ nutritional status(Reference Eaton, Rothpletz-Puglia and Dreker15Reference Iannotti, Lutter and Stewart17). However, there are still many communities throughout the world that have poor or minimal access to ASF(Reference Adesogan, Havelaar and McKune18).

Ethiopia has a high burden of malnutrition. According to the 2016 Ethiopian Demographic and Health Survey, within half a decade small decrements in stunting (44–38 %), wasting (12–10 %) and underweight (29–24 %) for children underfive were reported. In addition, more than half (56 %) of children underfive suffer from iron deficiency anaemia(19). Ethiopia is committed to ending hunger and dramatically reducing stunting by 2030(20) and emphasised the need for a moderate increase in ASF consumption(Reference Gebregziabher21). Ethiopians consume on average one-tenths as much meat as people in developed countries. Dietary diversity and other food consumption pattern assessments also reported that a limited proportion of diets in Ethiopia contain ASF. For example, according to a survey on household-level dietary diversity, diets in more than 90 % of households were cereal-dominated with little inclusion of ASF(Reference Workicho, Belachew and Feyissa22). Evidence from the Ethiopian National Food Consumption Survey(23) and small area assessments reported that only a small proportion (11–16 %)(Reference Aemro, Mesele and Birhanu24Reference Forsido, Kiyak and Belachew27) of children met minimum dietary diversity recommendations(28), and investigations documented ASF as the most limiting food group(Reference Gatahun29,Reference Solomon, Aderaw and Tegegne30) .

Women and children are more vulnerable to malnutrition as compared to the general population and it is estimated that almost 30 % of Ethiopian women of reproductive age had a body mass index (BMI) less than 18⋅5 kg/m2(31). A study(Reference Amare, Moges and Moges32) in Ethiopia with the majority (71 %) of female participants also estimated that the intakes of nutrients available from ASF were below the recommended levels for protein (11 %), calcium (90 %) and vitamin A (100 %). Furthermore, almost a quarter (23 %) of women in the country had iron deficiency anaemia(19) for which ASF have been found to be beneficial(Reference Hall, Ngu and Nga33). According to a study(Reference Weldehaweria, Misgina and Weldu34) from northern Ethiopia, the proportion of lactating women who ate ASF was also low, with 17 % consuming meat and fish, 18 % eggs and 12 % dairy products.

While ASF may protect against undernutrition, research on dietary patterns in Ethiopia has not addressed household-level ASF consumption patterns(Reference Workicho, Belachew and Feyissa22,Reference Beyene, Worku and Wassie25Reference Forsido, Kiyak and Belachew27,Reference Gatahun29,Reference Solomon, Aderaw and Tegegne30) . Furthermore, those published studies have not investigated constraints to and determinants of ASF consumption in the country. Hence, the purpose of the present study was to determine household- or family-level dietary behaviours related to the consumption of ASF and to identify facilitators, constraints to and determinants of ASF consumption. The findings of the present study can be a base to strategize and realise far-reaching food-based nutrition interventions and to reduce the magnitude of undernutrition among families in Ethiopia(35,36) .

Materials and methods

Study area and design

This cross-sectional study was conducted in rural kebeles (the lowest unit in Ethiopia's administrative structure) from the Milkshed region of Hawassa, districts of Oromia and Sidama regional states. The milkshed includes Arsi Negelle (Oromia), Dale, Wondo Genet and other districts (Sidama)(Reference Brandsma, Mengistu and Kassa37).

Sample size and sampling

Sample size was calculated using a single population proportion formula(Reference Lemeshow, Jr and Klar38) considering 50 % proportion (no findings on household-level ASF consumption frequency to base the estimate on), a 95 % confidence level, 0⋅05 of α and 10 % non-response rate. Data were collected from 422 households selected using a simple random sampling technique. Four kebeles were randomly selected from each district (twelve kebeles in total). An equal proportion allocation was applied to draw sample size from each of the selected kebeles. All the respondents were women who were responsible for food preparation for the family.

Data collection

Data were collected by individual interviews using a pre-tested questionnaire. The pre-test was done in districts from Oromia and Sidama regional states, but other than districts where the actual data were collected. The tool was constituted of four parts: (1) socio-demographic and economic characteristics, (2) household food-insecurity access scale(39), (3) selected ASF consumption frequency screener and (4) facilitators and constraints to the consumption of specific ASF questionnaire in Likert scales.

The ASF consumption frequency screener for household- (family-) level selected ASF consumption during the 30 days had closed-ended response options. These were ‘greater than once per day’, ‘once per day’, ‘three to six times per week’, ‘one to two times per week’, ‘one to two times per fortnight’, ‘one to two times per month’ and ‘never consumed in the last month’ for consumption frequencies of meat, poultry, fish, eggs, milk and milk products.

Data on facilitators and constraints to the consumption of ASF were collected using predefined statements with five-level Likert scale response options. The statements focused on quality, availability, affordability, price of ASF as compared to plant-based food, effort involved to prepare food products from the specific ASF, ASF storage facilities, health beliefs about specific ASF, medical concern related to the consumption of ASF, ASF consumption tradition during childhood, religious restrictions on the consumption of ASF, fasting restrictions to ASF consumption and income generation priority from livestock rearing. The twelve predefined statements included items such as ‘The quality of meat/fish/eggs/milk/milk products is important for me’, ‘I am able to afford meat/fish/eggs/milk/milk products’, ‘Eating plant-based foods is more affordable for us than eating meat/fish/eggs/milk/milk products’ and others. All statements were provided with response options of-‘strongly agree/ slightly agree/ neither agree nor disagree/ slightly disagree/ strongly disagree.’

The data collectors attended 3 days training on the basics of data collection methods, research ethics and the purpose of the present study. The principal investigator supervised data collection and reviewed the questionnaires for completeness.

Data analysis

Data were coded and entered into SPSS version 20 for Windows and cleaned. Frequencies, proportions, mean or median scores and standard deviations (sd) or inter-quartile ranges (IQR) were computed. After checking for the existence of multicollinearity, predictors of specific ASF consumption frequency were identified with the application of cumulative odds ordinal logistic regression with proportional odds model at significance set at P < 0⋅05. The regression analysis was not done for fish because it was consumed by a small proportion of households in 30 days before the survey.

Ethical consideration

The present study was conducted according to the guidelines laid down in the Declaration of Helsinki, and all procedures involving human subjects were approved by the Institutional Review Board of Hawassa University (Ref. No.: IRB/027/10). Verbal informed consent was obtained from all subjects before data collection. Verbal consent was witnessed and formally recorded.

Results

Socio-demographic and economic characteristics

Almost all of the women were married (96 %) and 81 % were homemakers. Regarding education, some of the respondents (34 %) had completed from grades one to five, while 43 % had completed from grades six to twelve. Respondents’ mean (sd) age was 25⋅55 (4⋅96) years. The majority of the participants identified themselves as Sidama (61 %) by ethnicity and protestant (67 %) (Table 1).

Table 1. Socio-demographic and economic characteristics of households and respondents from Hawassa Milkshed, Ethiopia (N 422)

More than half (57 %) of the households had four to six family members, and almost all (94 %) were male-headed. The median (IQR) annual household income was 6650 (3000, 15 000) Ethiopian Birr (ETB) [1USD ≈ Birr 30⋅50]. This monetary income is minor in the rural family settings, where their major living expenditures are derived in-kind from their own agricultural produce, and their lifestyle is associated with low-cost family labour and with natural utilities like fuel/energy, water and housing materials. The majority (80 %) of the households earned less than 15 000 ETB or $491 annually on top of farm goods and services that make their major living. Decisions on household needs were made by the women for 58 % of the households or by both husband and wife for 31 % of the households. Almost all (95 %) households owned different amounts of agricultural land with 48 % of the households owning less than 1 ha. Concerning domestic animal ownership, about 43 % of households owned cows and 41 % owned chickens. More than half (54 %) of the households were food insecure (Table 1).

Consumption frequency of animal source foods

Poultry products were not consumed in 92 % of households during the month before the survey. Meat from sheep or lamb, goat, beef or cattle and other large animals was consumed one to two times per month by 26 % of the households. Fish products were only consumed by 3 % of the households.

Milk was consumed once per day by less than one-quarter of the households (21 %) and by a quarter (26 %) one to two times per week. Milk products like yogurt and cheese were consumed one to two times per month by 15 % of the households. Eggs were consumed one to two times per week by 20 % and one to two times per month by 19 % of households (Table 2).

Table 2. Consumption frequency of ASF by households from Hawassa Milkshed, Ethiopia (N 422)

Facilitators to the consumption of animal source foods

Nearly all of the study participants (97 %) agreed with the statement ‘The quality of meat is important for me’, and 98 % agreed that eating meat is good for their health. About 64 % of the participants did not agree with the statement ‘It takes a lot of effort to prepare and cook meat’; and 70 % did not perceive lack of proper meat storage technologies as a barrier to meat consumption. The majority of the participants reported that they did not have religious prohibition on the consumption of meat (91 %), eggs (91 %) and dairy products (93 %). Nearly all of the respondents (92 % for meat, 94 % for egg and 94 % for dairy) disagreed with the statement ‘I don't eat meat/egg/dairy products when I am fasting.’

About two-thirds of the participants reported that they can afford eggs (60 %), and the majority reported that eggs are available (78 %) where they shop. Lack of proper egg storage facility did not prevent the majority of the study participants (76 %) from egg consumption.

The majority of participants (76 %) reported that milk and milk products were regular components of their diet while growing up as children. About 82 % of respondents agreed that milk and milk products are available where they usually shop, and more than two-thirds (70 %) agreed that they could afford milk and milk products (Supplementary Table S1).

Constraints to the consumption of animal source foods

Most of the participants (70 %) agreed that it is difficult to get meat where they usually shop, while the majority of them (80 %) indicated that they cannot afford meat (Supplementary Table S1). The majority reported that plant-based food products were more affordable than meat (92 %), eggs (93 %), dairy (90 %) and fish (91 %). About half (50 % for meat and 57 % for fish) of the participants disagreed with the statement ‘Meat or fish was a regular component of my diet while growing up.’ Almost all of the respondents (99 %) indicated that fish was not available where they usually shop, while more than half of the participants (58 %) reported that they could not afford fish (Supplementary Tables S1 and S2).

Determinants of household-level animal source food consumption frequency

Household food insecurity was significantly associated with consumption frequencies of all ASF types. Food-insecure households were less likely to consume poultry (adjusted odds ratio (AOR) 0⋅35, P 0⋅035), meat (AOR 0⋅25 P < 0⋅001), eggs (AOR 0⋅44, P < 0⋅001), milk (AOR 0⋅66, P 0⋅035) and milk products (AOR 0⋅52, P 0⋅005) than food-secure households (Tables 3 and 4).

Table 3. Ordinal logistic regression analysis on predictors of poultry, meat and egg consumption frequencies by households in Hawassa Milkshed, Ethiopia (N 422)

AOR, adjusted odds ratio; ha, hectare; ETB, Ethiopian Birr.

Maximum Variance inflation factor: poultry = 2⋅08, meat = 2⋅08 and eggs = 2⋅08; pseudo R 2: poultry = 0⋅32, meat = 0⋅28 and eggs = 0⋅34.

Table 4. Ordinal logistic regression analysis on predictors of milk and milk products consumption frequencies by households in Hawassa Milkshed, Ethiopia (N 422)

AOR, adjusted odds ratio; ha, hectare; ETB, Ethiopian Birr.

Maximum variance inflation factor: milk = 2⋅08 and milk products = 2⋅08; pseudo R 2: milk = 0⋅27 and milk products = 0⋅33.

Family size was a factor in poultry and meat consumption patterns. Households with four to six (AOR 0⋅34, P 0⋅029) or seven or more (AOR 0⋅11, P 0⋅002) members were more likely to have a low frequency of poultry consumption than households with three or fewer members. Family size of seven or more predicted reduced household probability of meat consumption by 62 % (AOR 0⋅38, P 0⋅007). An estimated annual income of 5000 ETB or less also reduced meat consumption probability of households by 81 % (AOR 0⋅19, P < 0⋅001) compared to those earning more than 30 000 ETB annually (Table 3).

Households with an estimated annual income of 5000 ETB or less (AOR 0⋅38, P 0⋅013), four to six family sizes (AOR 0⋅57, P 0⋅031) and no chicken ownership (AOR 0⋅33, P < 0⋅001) were less likely to consume eggs. Households that did not own donkey were less likely to consume poultry (AOR 0⋅25, P 0⋅017), meat (AOR 0⋅38, P 0⋅008) and eggs (AOR 0⋅55, P 0⋅06) than their counterparts (Table 3).

Table 4 shows that households with more than 2 ha of agricultural land were more likely to report consuming milk on a daily basis than households with 1 ha or less (AOR 0⋅48, P 0⋅039). Households who owned cows were more likely to consume milk (AOR 0⋅42, P < 0⋅001) and milk products (AOR 0⋅35, P < 0⋅001) frequently than households that did not own cows. Households with no cash crop production were more likely (AOR 3⋅01, P 0⋅003) to consume milk products more frequently than households producing cash crops. In contrast to households with an estimated annual income of more than 30 000 ETB, those with an annual income of less than 5000 ETB were less likely (AOR 0⋅37, P 0⋅017) to consume milk products.

Discussion

The purpose of the present study was twofold: (1) to assess household-level dietary behaviours related to the consumption of animal products and (2) to identify facilitators, constraints to and determinants of household-level ASF consumption. We found that poultry was not consumed by 92 % of the the households, and meat was not consumed by 60 % of the households over a one-month period. This is in agreement with other papers(Reference Abegaz, Hassen and Minten40,Reference Delgado, Rosegrant and Steinfeld41) those described limited inclusion of ASF in diets of families in low- and middle-income countries (India, China and Latin America). However, there are studies in which better ASF consumption patterns were reported. In south Ethiopia, once per month consumption of meat was reported for 80, 72 and 26⋅8 % of households in Wolaita Sodo town(Reference Amistu, Ermias and Asrat42), Mirab Abaya(Reference Yibrah and Esheti43) and Hawassa city(Reference Lijalem, Beyan and Banerjee44). As the studies were conducted in towns, the difference in consumption practice from the present study could be subject to the availability of retailer butcher houses and households’ interest to pay and purchasing power. The habit of frequent meat consumption in the immediate local culture may also have contributed. A study from Sudan(Reference Khalid, Ali and Ali45) also reported once per week meat consumption frequency for more than two-thirds (68 %) of the studied households. Overall, in the present study, meat consumption was constrained by the reported unavailability (70 %) and unaffordability (80 %) of the food product.

About a quarter of the studied households consumed milk once per day (21 %) or one to two times per week (26 %). According to a study conducted in East Shoa Zone in Ethiopia, 67–100 % of households from urban areas and 67–87 % of households from peri-urban areas consumed milk three to six times per week(Reference Melesse and Beyene46). The variations could be due to study setting, socio-economic and food habit differences in urban and rural scenarios. A study conducted in China identified that urban dwellers consume more animal products than those in rural areas(Reference Streeter47). Animal product consumption also increased in response to income growth.

Eggs were consumed one to two times per week (20 %) or one to two times per month (19 %) by about one-fifths of the households during the 1-month period prior to the day of assessment. In the present study, egg consumption was found to be better than poultry, meat and fish. This could be because of relative availability (78 %) and affordability (60 %) of eggs, as many of the participants reported. However, egg consumption frequency in the present study was lower than a report from Hyderabad district in India, where daily egg consumption was reported for half (51 %) of the households(Reference Memon, Memon and Soomro48). Egg consumption habit, higher price as compared to plant-based food items and poultry production primarily for income generation(Reference Haileselassie, Redae and Berhe49,Reference Hundie, Goshu and Tamir50) might have constrained the consumption of eggs.

Meat was unavailable in the rural settings to more than two-thirds of research participants (70 %), where they usually shop, while 80 % could not afford the price. Plant-based food products were more affordable than meat for 92 % of the respondents. The present findings are supported by reports(Reference Haileselassie, Redae and Berhe49,Reference Pachón, Simondon and Fall51) that identified poverty and high price of nutritious foods including animal products as constraints to ASF consumption. A study from Ghana(Reference Colecraft, Marquis and Aryeetey52) identified low income and lack of market access as contributing factors for low ASF consumption.

Availability, positive attitudes to its quality, relative affordability, less effort needed to prepare and cook, storage and favourable beliefs about health benefits were found to be facilitators to the consumption of eggs. However, income generation priority from poultry rearing and higher price of egg (93 %) as a compared to plant-based food were the constraints identified. A large proportion of households (91 %) in Ethiopia rear chickens for the sake of income generation and savings(Reference Haileselassie, Redae and Berhe49,Reference Hundie, Goshu and Tamir50) rather than household-level consumption similar to the present findings.

Unlike the findings from the Amhara(Reference Kim, Nguyen and Tran53) and Tigray(Reference Haileselassie, Redae and Berhe49) regions of Ethiopia with more Orthodox Christians and from a review on meat consumption(Reference Seleshe, Jo and Lee54), religion and related fasting did not hinder the use of ASF in the present study. This could be because of the dominating Protestant (67 %) and Muslim (28 %) religion followers in the present study areas, who do not abstain from the consumption of ASF during their fasting seasons.

Household food insecurity and ASF consumption pattern were associated. Food-insecure households were less likely to consume poultry, meat, eggs, milk and milk products than food-secure households. In Ethiopia, a 40–70 % price increment was documented for nutritious food commodities like eggs, meat, dairy and other products since the year of 2005(Reference Minten and Fantu55). Studies from Jimma in Ethiopia(Reference Asesefa Kisi, Tamiru and Teshome56) and Sierra Tarahumara in Mexico(Reference Cordero-Ahiman, Santellano-Estrada and Garrido57) identified households’ shifting to inexpensive food items as a coping strategy for food insecurity. This could explain the inverse association between household food insecurity and ASF consumption frequencies observed in the present study districts.

The consumption of ASF is expected to increase when a household owns domestic animals as a source of food commodities and income for diversified diets. According to the results of the present study, households owning cows were likely to consume milk and milk products more frequently than households not owning cows. Households with chickens were also more likely to consume eggs than households with no chickens. Households with donkeys were more likely to consume poultry, meat and eggs than households without donkeys. Studies(Reference Geiger, Hockenhull and Buller58Reference Angara, Ismail and Ibrahim61) from Ethiopia have identified that donkeys contribute to human livelihood and household food security through their role in income generation and gender empowerment. This might have contributed to the observed positive association between donkey ownership and ASF consumption frequencies.

Lesser farmland size and cash crop production practice were inversely associated with households’ dairy product consumption frequency. Land size is an important asset for farming households in the study districts. Larger land allows households to rear cows on free grazing(Reference Duressa, Kenea and Keba62) to serve as a source of dairy products(Reference Rahman, Hashan and Shahjahan63). On the other hand, cash crops may constantly take over the limited landholding and make it unfit for traditional livestock farming that would contribute to ASF availability and access.

Education is an important tool for empowering human beings to positively influence livelihood(Reference Tran, Tran and Tran64,Reference Miller, Joshi and Lohani65) . In the present study, households with women with better education achievements were more likely to consume eggs than households with women who never attended formal education.

Larger family size has been discussed for its negative effect on household food security(Reference Harris-Fry, Shrestha and Costello66,Reference Agidew and Singh67) and that may be because it constrains households’ food purchasing power and challenges intra-household food distribution. Correspondingly, in the present study, more family size was negatively associated with household-level poultry, meat and egg consumption. This may call for food-based interventions on the improvement of diversified agricultural production, family planning and income generation with nutrition education for the public at large.

Less eggs, meat and milk product consumption frequencies were associated with an estimated annual income of 5000 ETB or less. In line with the observed negative association between low income and ASF consumption in the present study, a global analysis on the affordability of dietary recommendations(Reference Hirvonen, Bai and Headey68) mentioned that diets in low- and middle-income countries might face limitations for nutritious foods like eggs, meat, fish, dairy, fruits and vegetables, as they are high-cost food groups.

Despite comprehensively addressing evidence gaps related to ASF consumption patterns, because the present study is cross-sectional, it cannot identify causal relationships between the identified predictors and respective ASF consumption(Reference Jorn, Kaare, Jeff, Wolfgang and Iris69,Reference Mark, Chris and Jim70) . Interpretation of the results must also consider the unavoidable methodologic limitations(Reference Gibson71) of consumption frequency assessment like an increased probability of recall bias, as the period for which respondents had to remember was a full month. It is also good to consider the possibility of respondents’ desire to show being needy regardless of status.

Conclusions

Meat, poultry and fish were consumed less frequently than dairy and eggs. The consumption of poultry, meat and fish was nutritionally negligible. In general, ASF were not consumed often by households in the studied rural districts of Ethiopia. Unavailability, unaffordability, limited ASF consumption tradition, income generation priority from livestock rearing and higher price of ASF than plant-based foods were constraints identified.

Poverty as determined by food insecurity, income and property ownership hampered ASF consumption frequencies. Cow, chicken and donkey ownership amplified selected ASF consumption frequencies. Poultry, meat and eggs were less frequently consumed by households with the lowest estimated annual income category. Women's lack of formal schooling and larger family size also contributed to the less frequent consumption of some types of ASF. Policies and programmes on food-based nutrition interventions should focus on the improvement of diversified agricultural production through nutrition-sensitive agricultural extension, family planning, livelihood improvement, women's empowerment and job opportunities to generate income integrated with nutrition education and evaluate their effects on the nutritional status of the public at general and on ASF consumption patterns in particular.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/jns.2021.52.

Acknowledgments

The authors acknowledge the School of Nutrition, Food Science and Technology-Hawassa University, Livestock System Intensification Lab-Project and administrative bodies of the study districts for the assistance they provided throughout the study process. We also forward our thanks to Professor Stoecker J. Babara, Professor Daniel J. Hoffman and Professor Martha Archuleta for the academic help they provided by editing the present paper for language.

This work was funded by the United States Agency for International Development (USAID) Bureau for Food Security under Agreement No. AID-OAA-L-15-00003 as part of Feed the Future Innovation Lab for Livestock Systems. Any opinions, findings, conclusions or recommendations expressed here are those of the authors alone. United States Agency for International Development (USAID) Bureau for Food Security had no role in the design, analysis or writing of the present article.

A.K.D., M.M., K.A. and D.H. conceptualised and designed the study; AKD involved in the supervision of data collection, data analysis, interpretation of results and manuscript drafting. A.K.D., M.M., K.A. and D.H. reviewed the manuscript. All authors read and approved the final manuscript.

There are no conflicts of interest.

References

Ritchie, H & Roser, M (2019) Age structure. https://ourworldindata.org/age-structure (accessed March 2020).Google Scholar
UNICEF/WHO/World Bank (2017) Levels and Trends in Child Malnutrition.Google Scholar
UNICEF/WHO/World Bank (2019) Levels and Trends in Child Malnutrition.Google Scholar
World Health Organization (2020) Children: reducing mortality. https://www.who.int/news-room/fact-sheets/detail/children-reducing-mortality#_ftnref1 (accessed October 2020).Google Scholar
Huybregts, L & Lachat, C (2019) Drivers of under-five stunting trend in 14 low- and middle-income countries since the turn of the demographic and health surveys. Nutrients 11, 112.Google Scholar
Headey, D, Hirvonen, K & Hoddinott, J (2018) Animal sourced foods and child stunting. Am J Agric Econ 100, 13021319.CrossRefGoogle ScholarPubMed
Krasevec, J, An, X, Kumapley, R, et al. (2017) Diet quality and risk of stunting among infants and young children in low- and middle-income countries. Matern Child Nutr 13, 111.CrossRefGoogle ScholarPubMed
Kaimila, Y, Divala, O, Agapova, SE, et al. (2019) Consumption of animal-source protein is associated with improved height-for-age Z scores in rural Malawian children aged 12–36 months. Nutrients 11, 121.CrossRefGoogle Scholar
Schönfeldt, HC, Pretorius, B & Hall, N (2013) The impact of animal source food products on human nutrition and health. South African J Anim Sci 43, 394412.CrossRefGoogle Scholar
Hoffman, JR & Falvo, MJ (2004) Protein – which is best? J Sport Sci Med 3, 118130.Google ScholarPubMed
Neumann, C, Harris, DM & Rogers, LM (2002) Contribution of animal source foods in improving diet quality and function in children in the developing world. Nutr Res 22, 193220.CrossRefGoogle Scholar
Schmid, A & Walther, B (2013) Natural vitamin D content in animal products. Adv Nutr 4, 453462.CrossRefGoogle ScholarPubMed
Murphy, SP & Allen, LH (2003) Nutritional importance of animal source foods. J Nutr 133, 39653971.CrossRefGoogle ScholarPubMed
Neumann, CG, Murphy, SP, Gewa, C, et al. (2007) Meat supplementation improves growth, cognitive, and behavioral outcomes in Kenyan children. J Nutr 137, 11191123.CrossRefGoogle ScholarPubMed
Eaton, JC, Rothpletz-Puglia, P, Dreker, MR, et al. (2019) Effectiveness of provision of animal-source foods for supporting optimal growth and development in children 6 to 59 months of age. Cochrane Database Syst Rev 2, CD012818.Google ScholarPubMed
Darapheak, C, Takano, T, Kizuki, M, et al. (2013) Consumption of animal source foods and dietary diversity reduce stunting in children in Cambodia. Int Arch Med 6, 1.CrossRefGoogle ScholarPubMed
Iannotti, LL, Lutter, CK, Stewart, CP, et al. (2017) Eggs in early complementary feeding and child growth: a randomized controlled trial. Pediatrics 140, 1.CrossRefGoogle ScholarPubMed
Adesogan, AT, Havelaar, AH, McKune, SL, et al. (2020) Animal source foods: sustainability problem or malnutrition and sustainability solution? Perspective matters. Glob Food Sec 25, 17.Google Scholar
Central Statistical Agency (CSA) of Ethiopia and ICF (2016) Demographic and Health Survey Key Indicators. Addis Ababa, Ethiopia: CSA and ICF.Google Scholar
Federal Democratic Repulic of Ethiopia (2019) The Seqota Declaration committed to ending stunting in children under two by 2030. https://www.bigwin.org/nm_pent_bigwp/wp-content/uploads/2019/10/Extended Note.pdf (accessed March 2020).Google Scholar
Gebregziabher, G (2019) Healthy sustainable diets for all: a view from Ethiopia. https://news.trust.org/item/20190207154412-p07kz/ (accessed September 2020).Google Scholar
Workicho, A, Belachew, T, Feyissa, GT, et al. (2016) Household dietary diversity and animal source food consumption in Ethiopia: evidence from the 2011 welfare monitoring survey. BMC Public Health 16, 111.CrossRefGoogle ScholarPubMed
Ethiopian Public Health Institute (2013) Ethiopia National Food Consumption Survey. Addis Ababa, Ethiopia: Ethiopian Public Health Institute (EPHI).Google Scholar
Aemro, M, Mesele, M, Birhanu, Z, et al. (2013) Dietary diversity and meal frequency practices among infant and young children aged 6-23 months in Ethiopia: a secondary analysis of Ethiopian Demographic and Health Survey 2011. J Nutr Metab 2013, 18.CrossRefGoogle Scholar
Beyene, M, Worku, AG & Wassie, MM (2015) Dietary diversity, meal frequency and associated factors among infant and young children in Northwest Ethiopia: a cross-sectional study. BMC Public Health 15, 1.CrossRefGoogle Scholar
Dangura, D & Gebremedhin, S (2017) Dietary diversity and associated factors among children 6-23 months of age in Gorche district, Southern Ethiopia: cross-sectional study. BMC Pediatr 17, 17.CrossRefGoogle ScholarPubMed
Forsido, SF, Kiyak, N, Belachew, T, et al. (2019) Complementary feeding practices, dietary diversity, and nutrient composition of complementary foods of children 6-24 months old in Jimma Zone, Southwest Ethiopia. J Health Popul Nutr 38, 14.CrossRefGoogle ScholarPubMed
Working Group on Infant and Young Child Feeding Indicators (2007) Developing and Validating Simple Indicators of Dietary Quality of Infants and Young Children in Developing Countries: Additional Analysis of 10 Data Sets. Report submitted to the Food and Nutrition Technical Assistance Project. FHI 360.Google Scholar
Gatahun, EA (2015) Dietary diversity feeding practice and determinants among children aged 6-23 months in Kemba Woreda, Southern Ethiopia implication for public health intervention. J Nutr Food Sci. S13. doi: 10.4172/2155-9600.S13-003.Google Scholar
Solomon, D, Aderaw, Z & Tegegne, TK (2017) Minimum dietary diversity and associated factors among children aged 6-23 months in Addis Ababa, Ethiopia. Int J Equity Health 16, 19.CrossRefGoogle ScholarPubMed
Central Statistical Agency (CSA) of Ethiopia and ICF (2016) Demographic and Health Survey. Addis Ababa, Ethiopia: CSA and ICF.Google Scholar
Amare, B, Moges, B, Moges, F, et al. (2012) Nutritional status and dietary intake of urban residents in Gondar, Northwest Ethiopia. BMC Public Health 12, 1.CrossRefGoogle ScholarPubMed
Hall, AG, Ngu, T, Nga, HT, et al. (2017) An animal-source food supplement increases micronutrient intakes and iron status among reproductive-age women in rural Vietnam. J Nutr 147, 12001207.CrossRefGoogle ScholarPubMed
Weldehaweria, NB, Misgina, KH, Weldu, MG, et al. (2016) Dietary diversity and related factors among lactating women visiting public health facilities in Aksum town, Tigray, Northern Ethiopia. BMC Nutr 2, 19.CrossRefGoogle Scholar
Federal Democratic Republic of Ethiopia (2018) Food and Nutrition Policy. Food and Nutrition Bulletin. https://www.nipn.ephi.gov.et/sites/default/files/2020-05/Food%20and%20Nutrition%20Policy.pdfGoogle Scholar
Government of Ethiopia (2016) National Nutrition Program 2016–2020. Addis Ababa, Ethiopia: Federal Democratic Republic of Ethiopia.Google Scholar
Brandsma, W, Mengistu, D, Kassa, B, et al. (2012) The Major Ethiopian Milksheds; Wageningen. Wageningen UR (University & Research Centre) Livestock Research. Livestock Research Report 735, 245 blz. Wageningen University, pp. 1245.Google Scholar
Lemeshow, S, Jr, DWH, Klar, J, et al. (1991) Adequacy of sample size in health studies. Biometrics 47, 347.Google Scholar
Food and Nutrition Technical Assistance Project (FANTA) (2007) Household food insecurity access scale (HFIAS) for measurement of food access: indicator guide. J Chem Inf Model 53, 16891699.Google Scholar
Abegaz, GA., Hassen, IW. & Minten, B. (2018) Consumption of Animal-Source Foods in Ethiopia: Patterns, Changes, and Determinants. ESSP Working Papers 113, International Food Policy Research Institute (IFPRI).Google Scholar
Delgado, C, Rosegrant, M, Steinfeld, H, et al. (1999) Livestock to 2020 the Next Food Revolution. Report No.: 28.Google Scholar
Amistu, K, Ermias, B & Asrat, A (2017) Consumer preference of raw beef (‘Kurt’) in Wolaita Sodo Town, Southern Ethiopia. J Food Dairy Technol 5, 713.Google Scholar
Yibrah, T & Esheti, A (2017) Assessment of meat consumption pattern in Mirab Abaya Woreda, Southern Ethiopia. Arch Vet Sci Technol 2017, 16.Google Scholar
Lijalem, T, Beyan, M & Banerjee, S (2013) Meat consumption patterns in Hawassa City, Southern Ethiopia. Am Sci Res J Eng Technol Sci 3, 23134410.Google Scholar
Khalid, FA, Ali, AKM, Ali, SA, et al. (2017) Households’ dietary habits and food consumption patterns in Hamishkoreib locality, Kassala State. Sudan J Ethn Foods 4, 181186.CrossRefGoogle Scholar
Melesse, K & Beyene, F (2009) Consumption pattern of milk and milk products in Ada'a woreda, East Shoa Zone, central Ethiopia. Livest Res Rural Dev 21, 4.Google Scholar
Streeter, JL (2017) Socioeconomic factors affecting food consumption and nutrition in China: empirical evidence during the 1989–2009 period. Chinese Econ 50, 168192.CrossRefGoogle Scholar
Memon, A, Memon, AS, Soomro, AH, et al. (2009) Study on consumption of chicken eggs in Hyderabad District. Pak J Nutr 8, 14801485.CrossRefGoogle Scholar
Haileselassie, M, Redae, G, Berhe, G, et al. (2020) Why are animal source foods rarely consumed by 6-23 months old children in rural communities of Northern Ethiopia? A qualitative study. PLoS One 15, e0230527.CrossRefGoogle ScholarPubMed
Hundie, D, Goshu, G, Tamir, B, et al. (2019) Assessment on rural poultry production and marketing system of Horro chicken ecotypes in Western Ethiopia. J Agric Ext Rural Dev 11, 248259.Google Scholar
Pachón, H, Simondon, KB, Fall, ST, et al. (2007) Constraints on the delivery of animal-source foods to infants and young children: case studies from five countries. Food Nutr Bull 28, 215220.CrossRefGoogle ScholarPubMed
Colecraft, E, Marquis, GS, Aryeetey, R, et al. (2006) Constraints on the use of animal source foods for young children in Ghana: a participatory rapid appraisal approach. Ecol Food Nutr 45, 351377.CrossRefGoogle Scholar
Kim, SS, Nguyen, PH, Tran, LM, et al. (2019) Maternal behavioural determinants and livestock ownership are associated with animal source food consumption among young children during fasting in rural Ethiopia. Matern Child Nutr 15, 19.CrossRefGoogle ScholarPubMed
Seleshe, S, Jo, C & Lee, M (2014) Meat consumption culture in Ethiopia. Korean J Food Sci Anim Resour 34, 713.CrossRefGoogle ScholarPubMed
Asesefa Kisi, M, Tamiru, D, Teshome, MS, et al. (2018) Household food insecurity and coping strategies among pensioners in Jimma Town, South West Ethiopia. BMC Public Health 18, 18.CrossRefGoogle ScholarPubMed
Cordero-Ahiman, OV, Santellano-Estrada, E & Garrido, A (2018) Food access and coping strategies adopted by households to fight hunger among indigenous communities of Sierra Tarahumara in Mexico. Sustain 10, 114.CrossRefGoogle Scholar
Geiger, M, Hockenhull, J, Buller, H, et al. (2020) Understanding the attitudes of communities to the social, economic, and cultural importance of working donkeys in rural, peri-urban, and urban areas of Ethiopia. Front Vet Sci 7, 113.CrossRefGoogle Scholar
Marshall, K & Ali, Z (2000) Gender issues in donkey use in rural Ethiopia. Nerthel, 224.Google Scholar
Valette, D (2015) Invisible workers. The economic contributions of working donkeys, horses and mules to livelihoods. https://www.thebrooke.org/sites/default/files/Advocacy-and-policy/Invisible-workers-report.pdfGoogle Scholar
Angara, TEE, Ismail, AA & Ibrahim, AM (2011) The role of donkeys in income generation and the impact of endoparasites on their performance. J Veternary Med Anim Prod 2, 6589.Google Scholar
Duressa, D, Kenea, D, Keba, W, et al. (2014) Assessment of Livestock Production System and Feed Resources Availability in Three Villages of Diga District Ethiopia. Nairobi, Kenya: International Livestock research Institute.Google Scholar
Rahman, SMR, Hashan, S, Shahjahan, MD, et al. (2001) Ownership of livestock and land size. J Biol Sci 1, 960962.Google Scholar
Tran, TA, Tran, TQ, Tran, NT, et al. (2020) Nguyen HT. The role of education in the livelihood of households in the Northwest region. Vietnam Educ Res Policy Pract 19, 6388.CrossRefGoogle Scholar
Miller, LC, Joshi, N, Lohani, M, et al. (2017) Women's education level amplifies the effects of a livelihoods-based intervention on household wealth, child diet, and child growth in rural Nepal. Int J Equity Health 16, 117.CrossRefGoogle ScholarPubMed
Harris-Fry, H, Shrestha, N, Costello, A, et al. (2017) Determinants of intra-household food allocation between adults in South Asia: a systematic review. Int J Equity Health 16, 121.CrossRefGoogle ScholarPubMed
Agidew, AA & Singh, KN (2018) Determinants of food insecurity in the rural farm households in South Wollo Zone of Ethiopia: the case of the Teleyayen sub-watershed. Agric Food Econ 6, 1.CrossRefGoogle Scholar
Hirvonen, K, Bai, Y, Headey, D, et al. (2020) Affordability of the EAT–Lancet reference diet: a global analysis. The Lancet Global Health 8, e59e66.CrossRefGoogle ScholarPubMed
Jorn, O, Kaare, C, Jeff, M, et al. (2010) Design options. In An Introduction to Epidemiology for Health Professinals, 2nd ed. [Wolfgang, A and Iris, P, editors], pp. 51–57. New York: Springer Science + Business Media, LLC.Google Scholar
Mark, W (1999) Assessing risk factors. In Epidemiology: Study Design and Data Analysis. [Chris, C and Jim, VZ, editors], pp. 107–141. New York/Washington, D.C.: Chapman & Hall/CRC.Google Scholar
Gibson, RS (2005) Principles of Nutritional Assessment. 2nd ed. New York: Oxford University Press.Google Scholar
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Table 1. Socio-demographic and economic characteristics of households and respondents from Hawassa Milkshed, Ethiopia (N 422)

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Table 2. Consumption frequency of ASF by households from Hawassa Milkshed, Ethiopia (N 422)

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Table 3. Ordinal logistic regression analysis on predictors of poultry, meat and egg consumption frequencies by households in Hawassa Milkshed, Ethiopia (N 422)

Figure 3

Table 4. Ordinal logistic regression analysis on predictors of milk and milk products consumption frequencies by households in Hawassa Milkshed, Ethiopia (N 422)

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