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Food security assessment in rural areas: evidence from Iran

Abstract

Background

Food security is considered a pivotal factor for the sustainable development of communities and focus on this issue in rural areas. More specifically, it is of paramount importance in developing countries. Accordingly, this descriptive-analytical study aimed to evaluate the status of food security in rural areas of Iran. The main originality of the present study is to assess the strategic future-oriented vision for food security in addition to the evaluation of the current status of the studied area.

Methodology

Data were collected using the standard questionnaire of U.S. Department of Agriculture (USDA) and a researcher-made close-ended questionnaire. The validity and reliability of the research instrument were confirmed by a panel of specialists and Cronbach’s alpha coefficients, respectively. In addition, data analysis was performed using SPSS24 (to analyze the descriptive statistics) and Fuzzy Technique for Order Preference by Similarity to Ideal Situation (FTOPSIS).

Results

According to the results, 80% of the villagers suffered from food insecurity (25% in low food insecurity situation, 42% in moderate food insecurity situation, and 13% in severe food insecurity situation). Evaluation of the factors affecting food insecurity demonstrated that economic (standardized weight of 0.566), stability (standardized weight of 0.559), and availability (standardized weight of 0.558) were the most important components affecting food insecurity. Moreover, in a systemic approach, the growth of migration from rural to urban areas, pressure on water and soil resources, and the occurrence of environmental hazards are of the most significant consequences of food insecurity. In addition, due to the excessive use of underground water for cucurbits, which is the dominant cultivation pattern in this region, the groundwater level has dropped sharply in some villages farther from the city which can be alarming for exacerbating food insecurity in the near future.

Conclusion

Since the low-income level of villagers, lack of job diversity, and lack of access to adequate food are the main reasons for food insecurity, in this respect, it is suggested that more attention be paid to the development of occupations and job diversity in these regions by decision-makers and policy-makers.

Background

Without a doubt, the safety of societies depends on “food security”. This concept has various interpretations in different countries, which makes it more complicated and extensive [1]. The term food security was first introduced at the World Food Summit in 1974. The meeting focused on the fact that food security is a mutual responsibility of all nations and its achievement requires international cooperation and serious measures [2].

In fact, food and safety are necessary for political stability and creating peace among people [1]. Scientifically, food security is defined as a planned method designed to solve food and nutrition problems in the framework of codified programs and development management [3, 4]. Accordingly, food security is a factor for national growth and development which its fulfillment requires practical strategies to reduce or eliminate barriers to the realization of global food security [5, 6]. Given the increased productivity and efficiency of agricultural crops in the world [7], especially over the last half-century, the need for food has increased dramatically due to the increasing growth of the world’s population. In this regard, researchers have found no direct relationship between food production and food security [8].

The necessity of food security establishment has been extensively emphasized in Iran through the 5-year economic, social, and cultural development programs and national plan of action for nutrition and food security (2012–2020). The Constitution of the Islamic Republic of Iran, in Principles 3, 29, and 43, emphasizes the need to meet the basic needs of different groups of society, alleviate poverty, and eliminate any kind of deprivation in the field of nutrition, and individual and social welfare. The 20-year Development Agenda also pays special attention to improving the food security situation. The most important executive policies of food supply based on The 20-year Development Agenda and The Constitution of the Islamic Republic of Iran include: (1) sustainable agriculture, food security, and rural development, (2) increasing production, improving productivity, and development of a comprehensive pest control system, (3) management of water resources and increasing efficiency of agricultural water consumption, (4) management of soil and prevention of its erosion, self-sufficiency of basic products, and achieving a dominant pattern of suitable food, and (5) developing a training, research, and extension system in the field of agricultural production process from farm to forest [9].

In this regard, policies and measures such as the formation of the High Council for Health and Food Safety, the development and implementation of necessary training programs to promote the nutrition culture and literacy of the society, providing basic food items and ensuring a proper market, mandatory and optional enrichment of main and complementary foods, healthy food and safe in the supply, and the standard of food chain have been considered. Despite carrying out the mentioned plans and related policy-makings, there have been challenges to the realization of food security in Iran, especially in rural areas. This is more observed in the western regions of Iran and the villages in this part of the country, which is mostly due to their geographical location (being on the borders) and their distance from the effects of development in the Core Periphery System (CPS). Moreover, the economy and food security of this region are more vulnerable; since most of the human settlements are located on Zagros Mountains and their domain. In general, due to the mountainous nature of the region and the lack of fertile lands, the agricultural sector of this region has not grown sufficiently. Therefore, most people of the region focus on horticulture and animal husbandry. However, it is worth noting that the relative prosperity in agriculture can be seen in limited plains of this region [10]. In addition, villages in this part of the country have low population due to being mountainous and located on a borders. Given the fact that agriculture is seasonal in this region, population movements (migration) are extremely high in these areas in the second half of the year (autumn and winter), which results in reduced social capital and rural economic prosperity, weakened agricultural sector, and a threat to food security in western regions of Iran [11].

In this respect, villages of Dehgolan Township in Kurdistan Province (west of Iran) were selected as the study area. In addition to the above-mentioned challenges, issues, such as improper methods of resource utilization, low level of knowledge in rural households, increasing decline in water resources’ quality and quantity, increased inequality among rural families, environmental pollution, increased toxins, contamination of water and soil resources, and decreased soil fertility, have prevented sustainable food security. Meanwhile, maintaining and enhancing environmental, social, and economic grounds are crucial to achieve sustainable food security [12]. Therefore, the present study was performed to assess the food security situation of the study area with a comprehensive or systematic view. Its aim was also to identify the negative consequences for lack of food security and focus on the current situation of the study population using identifying the effective factors in sustainable food security. As such, the novelty of the present study, compared to other studies carried out at the international level, is to assess the strategic future-oriented vision for food security in addition to the evaluation of the current status of the studied area. In other words, the present study was one of the first applied research in this field. Moreover, primary assessments demonstrated a lack of research on the evaluation of food security in these regions. Meanwhile, assessing food security in these areas can greatly contribute to understanding the current status of food security, recognizing vulnerable individuals/groups in terms of food security, developing appropriate policies to improve food security, and implementing effective interventions in this area. With this background in mind, the present study aimed to evaluate food security in rural areas of western Iran. In the process of achieving this goal, an attempt was made to answer the following questions:

  1. 1.

    What are the elements and dimensions of food security in the study area?;

  2. 2.

    Which of the elements and dimensions of food security have the highest priority in the study area?;

  3. 3.

    What are the consequences of food insecurity in the study area?; and

  4. 4.

    Which of the consequences of food insecurity is more important in the study area?

Food security issues and the role of food security assessment in food security

The global food security situation and outlook remain delicately imbalanced amid surplus food production and the prevalence of hunger, due to the complex interplay of social, economic, and ecological factors that mediate food security outcomes at various human and institutional scales [13,14,15]. A growing population and rising incomes with the resultant nutritional transition of millions more people entering into the middle class are some of the unprecedented challenges that mankind has never handled before [16]. Food production outpaced food demand over the past 50 years due to expansion in crop area and irrigation, as well as supportive policy and institutional interventions that led to the fast and sustained growth in agricultural productivity and improved food security in many parts of the world [17, 18]. However, future predictions point to a slow-down in agricultural productivity and a food-gap mainly in areas across Africa and Asia which are having ongoing food security issues. The problem of food insecurity is expected to worsen due to, among others, rapid population growth and other emerging challenges such as climate change and rising demand for biofuels. To tackle this problems, some research priorities have been provided by international organizations. According to the researchers [19,20,21], food security assessment in the rural areas is one of the most significant research priorities which can have a great role in measuring the level of food security, identifying high-risk areas in terms of food security, and taking required measure to tackle food insecurity. Therefore, present study has an interwoven relationship with food security and its results can be very insightful in interventions aiming at reducing food insecurity.

Theoretical framework

The intellectual origins of food security, as one of the most important components of global security, date back to the food crisis of the early 1970s. At the World Food Conference in 1975, the United Nations defined food security as the adequate supply of basic foodstuffs worldwide and at all times; in a way that increases or stabilizes consumption and compensates for fluctuations in production and prices. In 1983, FAO introduced a broader concept of food security, stating that everyone has physical and economic access to essential food at all times. This definition included three basic components: food availability, access, and utility [22, 23]. Later, another dimension called “stability” was added to food security. Therefore, the definitions of food security now consist of four main dimensions. Food availability is basically physical availability through national food stocks and commercial food imports, farming, community gardens and harvesting (own production and storage), purchasing (the market) or bartering, etc. [21, 24]. Financial and physical access to food refers to the equal distribution of the available food using existing structures and resources. Food utilization refers to the extent to which households are maximizing the consumption of sufficient nutrition and energy. The fourth dimension of food security or food stability refers to consistent food security over time [25]. Evaluation of the trend of agricultural production along with the trend of world population growth over the last 50 years shows that agricultural production has increased in proportion to the population due to increased cultivated area [26, 27]. However, access of people of different countries to the food has decreased, which has led to hidden hunger and food insecurity in a large scale [6, 28,29,30,31].

Today, 13% of the population of developing countries are dealing with food insecurity [32, 33]. In other words, about 98% of those who face malnutrition and food insecurity in the world are living in developing countries [18, 30]. Since a considerable part of these people live in rural regions, improving the food security of rural households is of great importance [34,35,36]. Today, rural areas are facing food insecurity due to various reasons, including rapid growth in the population, low productivity in agriculture, lack of sustainable policies related to food security, macroeconomic instability, and sharp fluctuations in agricultural prices [37,38,39]. The great importance of food security in rural areas has made it a core issue in global decision-makings. In addition, this notion is recognized as a fundamental challenge for national policies and public concerns [17, 40, 41]. Therefore, ensuring villagers’ food security, which is a pre-requisite for national security, is one of the main responsibilities of government in all countries [42].

Notably, rural food security is realized by taking the novel aspects of sustainable development (e.g., social, economic, environmental, institutional, structural, and technological dimensions) into account. In this context, a number of factors affecting rural food security, such as agricultural production policies, food distribution system, natural resources, nutrition and consumption pattern, occupational status and income distribution, business policy, and nutrition culture should be considered [43]. There is a scarcity of research on food security at the level of villages in Iran. Meanwhile, those conducted at the international level have solely focused on specific aspects of food security. Some of these studies are pointed out below.

Some researchers [see 44, 45] believe that economic and income factors play a key and determining role in food security and the potential ability of the household in meeting their needs. In addition, cultural and social issues significantly influence the effective management of the family budget and choosing the right food at the right price. Moreover, the production of agricultural products has decreased due to the growth of urban population and decrease of the rural population (especially in developing countries), which has made access to food more difficult for the growing urban, and even rural populations. Furthermore, there is a higher demand for food supply with an increase in relative population density, which is the ratio of population to the area of a region in terms of people per km2. Increasing demands for food has caused more challenges in the area of the food supply. Other researchers [see 46, 47] in the field of diet have analyzed food security in some countries (including India, the Philippine, and Mozambique) using a linear regression method. In the end, the mentioned scholars confirmed the presence of a relationship between food diversity with food security and access to calories and food at the individual and household levels. In a study, Ojeleye [48] evaluated the indicators of food security of farming households in Nigeria. According to the results, about one-third of rural farmer families (the average size of their family farm was 2.05 hectares), dealt with food insecurity. In another research, Patel et al. [19] evaluated the interplay between household food security and wellbeing among small-scale farmers in the context of rapid agrarian change in India. The research focused on the analysis of food security with three approaches of “food availability”, “livelihood”, and “food governance”. By analyzing the food security status of farmer households in arid regions of Sudan, Abdalla et al. [49] reported that 82% of the participants faced food security problems. In a qualitative research, Norhasmah et al. [50] evaluated the coping strategies of female household heads in conditions of food insecurity in the Salangar and Similan region of Nigeria, and concluded that each strategy showed a different level of severity.

In a study, Belay Bedeke [51] evaluated the factors affecting the status of food security in Kersa district, east Hararghe Ethiopia, and found a negative association between food security and factors such as the size of the family and gender of the head of the household (women). In addition, Zhai [52] explored the concept of food security in China based on the framework of structure, system, and resources. The results of employing the system theory revealed that food realization in China must be based on specific national conditions, optimal resource allocation, and structural optimization. Regmi and Meade [53] assessed food security stimuli based on demand in the society and determined how consumers’ preferences change in this context. By estimating price and income elasticities in several countries, they concluded that consumers in low-income countries allocate a major part of their income to the food. In a study entitled “factors affecting food security in rural families in Punjab, India”, Bashir et al. [54] marked that while the national food security level of the region is on par with the level of food security at the international level, 26% of families experience food insecurity at the household level. Furthermore, they indicated that monthly income, household livestock assets, and family size had a positive effects on the food security of villagers. Assessing agricultural productivity and food insecurity in Brazil, Costa et al. [55] observed a significant relationship between the level of education of household heads and the presence of people under 18 years with farmers’ productivity and food insecurity. van Meijl et al. [56] evaluated the modeling of the future of world food security and concluded that the concept is affected by two factors of inequality and sustainability. In the end, these scholars presented some practical scenarios for evaluating complex and multidimensional food security conditions. Furthermore, Cooper et al. [57] claimed that food security indicators have been defined differently over time in different countries. According to this research, food security was assessed based on governments' economic policies and global issues in the past, but today, other components such as health and welfare have received more attention in this field. Figure 1 is presented as the theoretical framework of the research to assess variables affecting the realization of food security, including economic, social, structural-spatial, stability, availability and achievement factors, and consequences of food insecurity at economic, social, environmental, and physical dimensions in rural areas.

Fig. 1
figure 1

Theoretical framework for assessing rural food security

Material and methods

Research design

This study was an applied, qualitative, non-experimental, and descriptive-analytical research in terms of its orientation, the nature of the issue, extent and degree of control over variables, and methodology, respectively. The study was conducted using multi-criteria decision analysis methods and survey techniques.

Study area

The research setting was five administrative divisions of Homeh, North Eylagh, South Eylagh, Sis, and Ghoruchaie) in Dehgolan county of Kurdistan Province, Iran (Fig. 2).

Fig. 2
figure 2

The site of the study area (location map of Dehgolan Township)

Statistical population and sampling method

In total, 60 individuals were selected from the councils and village administers of the mentioned villages by a multi-staged stratified sampling method. For this purpose, the study area was first divided into 104 villages based on national geographical divisions. Then, according to the information of the Statistics Center of Iran, these villages were classified into four strata (Homeh, North Eylagh, South Eylagh, Sis, and Ghoruchaie). In the next stage, 30 villages were randomly selected according to the number of available villages in each category. Given that each of the selected villages had two village administrators, the total population was estimated to be 60. Finally, all 60 village administrators were selected as a sample using the census method. The subjects were selected from these people, since they were reliable and key informants who are constantly informed of villages’ challenges and problems. In addition, due to their key responsibilities in rural governance, they can play an effective role in problem defining in a rural community. As community representatives in the local governance process, they were also aware of programs and policies to improve food security and were able to provide reliable information.

The instrument of data collection and survey

The instrument for data collection included the standard questionnaire of the U.S. Department of Agriculture (USDA) and a researcher-made close-ended questionnaire. The face and content validities of the researcher-made questionnaire were confirmed by a panel of thematic specialists in Kharazmi and Tarbiat Modares universities. The panel members included researchers and specialists who had carried out extensive research on food security and its measurement and assessment. First, we searched international and Farsi journals to find works published on food security/assessment of food security by Iranian researchers to ensure their acquaintance with the issue and expertise for assessing the questionnaire. Following the meticulous assessment of the documents, the most related works were selected, and then, a number of researchers and authors, whose works were mostly related to the present research, were selected as the members of the specialist panel. Following that, the initial version of the designed questionnaire was provided to them in person/electronically, and after receiving the opinions and feedbacks of the panel members regarding the questionnaire’s face and content validities, the research team conducted two meetings to achieve a consensus in this regard. Therefore, the instrument was prepared for the pilot and reliability analysis steps after corrections made in the tool based on the specialists’ opinions.

The pilot study had several important achievements and results; the first result was that some variables had Cronbach's alpha values less than 0.7. However, the alpha values reached an acceptable level with the removal of some items. The second result was related to the difficulties of some of the participants in understanding specific concepts and terms used in the questionnaire. To solve this problem, we simplified the writing structure of the items to be more comprehensible. The third result was related to the significant contribution of the pilot study to estimation of the required time and costs for the research. Moreover, the Cronbach’s alpha reliability scores of the items used to evaluate food security in Dehgolan Township villages were at an acceptable level (0.92). We also used the standard USDA questionnaire to evaluate food security within the area under study [58, 59]. It is notable that some of the indicators expressed in the questionnaire were localized based on the demographic characteristics of the Iranian rural community, and some other indicators were developed according to the knowledge of the target community. In addition, a researcher-made questionnaire was exploited to evaluate the consequences of food security. This instrument was able to measure the severity of food insecurity and family hunger. This instrument divided the studies’ community into four groups/categories (with food security, with food insecurity without hunger, with food insecurity with moderate hunger, and with food insecurity with severe hunger) (Table 1).

Table 1 Typology of food security/insecurity

Due to the time constraints and the extensiveness of the statistical population, council members and village administers who had complete knowledge of their village were requested to score the rural status of their residence based on Table 1.

In the end, the food security status of the villages was determined based on descriptive statistics. Data analysis was performed using SPSS and FTOPSIS (which is one of the latest and most accurate analytical methods in studies with the nature of measuring multiple judgments in different societies). This technique increases the accuracy of analysis and facilitates the assessment of relations when the variance between the data in the studied samples is very low and the relationships between the variables are ambiguous and have degree of uncertainty. Moreover, it puts the effects level of indicators in the range between zero and one and a fraction of one leading to its high accuracy. This integrated method is able to mathematically formulate several vague concepts and variables as is the case in the real world and lay the foundation for reasoning, inferring, controlling, and decision-making in uncertainty conditions.

Therefore, due to the fact that multiple variables with different nature were studied in present research, the application of this method was useful owing to its high accuracy. The variables studied in this study (e.g., components affecting the realization of food security and the consequences of food insecurity) were identified based on the previous research studies and field visits (Tables 2 and 3). As presented below, items and questions were designed for each variable in the form of a five-point Likert type scale, which was provided to the research population to use the results in achieving the study’s objective.

Table 2 Components and indicators affecting the realization of food security
Table 3 Consequences of food insecurity in the villages of Dehgolan Township

In this study, the FTOPSIS method was applied to identify the most important components and prioritize variables to achieve the research objectives based on the designed questionnaires. In fact, a generalization of the TOPSIS method in management science led to expressing the predictions made by elites and specialists in the form of definite numbers for the first time. The theory is able to express many inaccurate phases and concepts into mathematical language and lay the ground for reasoning, inference, control, and decision-making in conditions of uncertainty. The theory is a specific fuzzy set known as \(\tilde{A} = x \in R/\mu_{{\tilde{A}}} (x)\), where x accepts actual values of the member of R series, and its membership function is presented as \(\mu_{{\tilde{A}}} (x)\). The most commonly used fuzzy numbers are triangular and trapezoidal fuzzy numbers. However, triangular fuzzy numbers are more commonly used due to simpler calculations. Therefore, the mentioned type of numbers was applied in the current research. A triangular fuzzy number A is defined as Formula 1 with the membership function of linear fractions µA:

$$\mu_{x} (x) = \left\{ {\begin{array}{*{20}l} {\left( {x - a^{l} } \right)/\left( {a^{m} - a^{l} } \right),} & {a^{l} \le x < a^{m} } \\ {1,} & {x = a^{m} } \\ {\left( {a^{r} - x} \right)/\left( {a^{r} - a^{m} } \right),} & {a^{m} < x \le a^{r} } \\ {0,} & {{\text{otherwise}}} \\ \end{array} } \right.,$$
(1)

which can be shown in the form of (al, am, ar) triangular fuzzy number. Figure 3 shows the membership function.

Fig. 3
figure 3

Presentation of a triangular fuzzy number

If A = (al, am, ar) and B = (bl, bm, br) are two triangular fuzzy numbers, d(A, B) distance function is defined as Formula 2:

$$d(A,B) = \sqrt {\frac{1}{3}\left[ {\left( {a^{l} - b^{l} } \right)^{2} + \left( {a^{m} - b^{m} } \right)^{2} + \left( {a^{r} - b^{r} } \right)^{2} } \right]} .$$
(2)

In this model, the (\({\stackrel{\sim }{a}}_{ij}\)) fuzzy numbers were estimated after receiving the opinions of specialists in the first stage. The mentioned numbers were defined in the form of four equations based on selecting the triangular fuzzy numbers in the research model:

$$a_{ij} = \left( {\alpha_{ij} , \beta_{ij} , \gamma_{ij} } \right)$$
(3)
$$\alpha_{ij} = {\text{Min}}\left( {\beta_{ijk} } \right),k = 1, \ldots ,n$$
(4)
$$\delta_{ij} = \left( {\mathop \prod \limits_{k = 1}^{n} \beta_{ijk} } \right)^{1/3}$$
(5)
$$\gamma_{ij} = {\text{Max}}\left( {\beta_{ijk} } \right),k = 1, \ldots ,n.$$
(6)

In the mentioned equations, \({\beta }_{ij}\) shows the relative importance of parameter I to parameter j from the perspective of specialist k, \({\gamma }_{ij}\) is the upper limit of specialists’ opinions, and \({\alpha }_{ij}\) is the lower limit of specialists’ opinions for research variables. In these equations, \({\delta }_{ij}\) is the geometric mean of experts’ opinion. Evidently, the fuzzy components are defined in a way that they are in the form of \(\gamma_{ij} \le \delta_{ij} \le \alpha_{ij}\). Moreover, the values of the components or fuzzy numbers for the valuation of specialists to the research indicators presented in Table 4.

Table 4 Linguistic variables to assess the importance of indicators

After quantifying the indicators according to Table 4, the required matrix of indicators was constructed, similar to the following matrix:

$$G = \left[ {G_{ij} } \right]_{m*n} = \begin{array}{*{20}c} {A_{1} } \\ {A_{2} } \\ . \\ . \\ . \\ {A_{m} } \\ \end{array} \mathop {\left[ {\begin{array}{*{20}c} {G_{11} } & {G_{12} } & . & . & . & {G_{1n} } \\ {G_{21} } & {G_{22} } & . & . & . & {G_{2n} } \\ . & . & . & . & . & . \\ . & . & . & . & . & . \\ . & . & . & . & . & . \\ {G_{m1} } & {G_{m2} } & . & . & . & {G_{mn} } \\ \end{array} } \right]}\limits^{{\mathop {\begin{array}{*{20}c} {C_{1} \, } & {C_{2} \, } & . & . & . & {C_{n} } \\ \end{array} }\limits^{{}} }} .$$

Here, A1, A2, …, Am are possible options that should be assessed by the specialists. In addition, Cn C1, C2, …, Cn are criteria considered relative to the options. Gij is the rank of Ai option against Cj and Wj criteria of Cj weight. In the process of evaluating these weights, the degree of importance of the criteria provided by experts (in this study, council members) is indicated by fuzzy numbers.

It is assumed that bij(e) shows the value of representative index j in course e, where i = 1,2,…,m, i = 1,2,…,m, and e = 1,2,…,t. Gij is defined according to the concept of triangular fuzzy numbers:

$$G_{ij} = \left( {g_{ij}^{l} ,g_{ij}^{m} ,g_{ij}^{r} } \right),$$
(7)

where:

$$\begin{gathered} g_{ij}^{l} = \min \left\{ {b_{ij} (e)|e = 1,2,...,t} \right\} \hfill \\ g_{ij}^{m} = \frac{1}{t}\sum\limits_{e = 1}^{t} {b_{ij} } (e) \hfill \\ g_{ij}^{r} = \max \left\{ {b_{ij} (e)|e = 1,2,...,t} \right\}. \hfill \\ \end{gathered}$$
(8)

Therefore, [Gi1, Gi2, …, Gin] shows the performance rankings of option Ai on criteria n.

Next, using the MAX and MIN operators, the positive ideal (A+) and negative ideal (A) solutions for the set of options are identified:

$$A^{ - } = \, \left[ {G_{1}^{ - } , \, G_{2}^{ - } , \ldots , \, G_{n}^{ - } } \right]$$
$$A^{ + } = \, \left[ {G_{1}^{ + } , \, G_{2}^{ + } , \ldots , \, G_{n}^{ + } } \right].$$

In the equations above, Gn and Gn+, which are triangular fuzzy numbers in the form of Formula 9, form the lowest and highest values of glij, gmij, and grij for the nth option. Furthermore, dij and dij+ show the distance of Gij from Gj and Gj+, which is estimated using the formula below:

$$\begin{gathered} d_{ij}^{ - } = d\left( {G_{ij} ,G_{j}^{ - } } \right) = \sqrt {\frac{1}{3}\left[ {\left( {g_{ij}^{l} - g_{j}^{l - } } \right)^{2} + \left( {g_{ij}^{m} - g_{j}^{m - } } \right)^{2} + \left( {g_{ij}^{r} - g_{j}^{r - } } \right)^{2} } \right.} \hfill \\ \, \left( {i = 1,2,...,m} \right),\left( {j = 1,2,...,n} \right) \hfill \\ d_{ij}^{ + } = d\left( {G_{ij} ,G_{j}^{l + } } \right) = \sqrt {\frac{1}{3}\left[ {\left( {g_{ij}^{l} - g_{j}^{l + } } \right)^{2} + \left( {g_{ij}^{m} - g_{j}^{m + } } \right)^{2} + \left( {g_{ij}^{r} - g_{j}^{r + } } \right)^{2} } \right.} \hfill \\ \, \left( {i = 1,2,...,m} \right),\left( {j = 1,2,...,n} \right). \hfill \\ \end{gathered}$$
(9)

Fuzzy numbers are used to determine the coefficient of the importance of different decision criteria. In this way, \(W_{jk} = (w_{jk}^{l} ,w_{jk}^{m} ,w_{jk}^{r} )\) is a triangular fuzzy number that expresses the linguistic weights expressed by specialist Ek about Cj criterion in the form of fuzzy (k = 1,2, …, p and j = 1,2,…, n).

Wj is considered the mean weight of Cj criteria, estimated using the equation below:

Symbols \(\otimes { , } \oplus\) and \(\otimes { , } \oplus\) show the fuzzy multiplication and addition. Ultimately, the proximity coefficient of Ai option shown as Ai* is estimated using the equation below.

Results and discussion

Evaluation of food security status showed that 20% of villagers in the studied area had food security, whereas 25, 42, and 13% had food insecurity without hunger, food insecurity with moderate hunger, and food insecurity with severe hunger, respectively (Table 5). Given the fact that a large part of the studies community had food insecurity, it is crucial to recognize the most important indicators and components that lead to the formation of food insecurity.

Table 5 Food security status in Dehgolan Township

In this study, we used a multi-criteria decision analysis method to more efficiently recognize the most important variables that had the most powerful impact on food insecurity. According to the results, the economic (standardized weight of 0.566), stability (standardized weight of 0.559) and availability (standardized weight of 0.558) were the most important components affecting food insecurity (Figs. 4 and 5). In addition, the factors with the highest influence on the phenomenon were as follows: in the economic component, indexes E6 (the amount of income earned from the agricultural sector), E4 (the amount of savings), and E3 (arable land area) had the most impact. In the social component, the indexes E9 (age of household heads), E10 (level of education), and E12 (size of family) had the greatest importance, whereas in structural-spatial component, indexes E19 (visit the city to provide public services (educational, health, cultural, and welfare), E17 (visit the city for employment purposes), and E20 (the number of visits to buy food in the city) obtained the greatest weight (importance). In the availability component, indexes E23 (lack of availability of various foods), E28 (high cost of access to food), and E22 (lack of access to food required by households) were the most important indicators, while in the availability component, indexes E33 (lack of sense of social justice in access to food among the people), E29 (insufficient income to buy food), and E32 (lack of access to food without suffering psychological damage) were of paramount importance. In the consumption component, the indexes E38 (lack of proper diet for children during the week), E37 (lack of proper diet for the family during the week), and E36 (awareness of proper diet of family members) were the most significant indicators, whereas, in the stability component, indexes E41 (lack of stable income for food consumption throughout the year), E40 (instability in the consumption of various foods throughout the year), and E39 (instability in household food consumption throughout the year) had the most powerful impact (Table 6). Our findings are in line with the results obtained by others [11, 44, 55, 57]. Therefore, food insecurity will occur in areas where there are instabilities from socio-cultural, availability, and economic aspects.

Fig. 4
figure 4

Prioritizing the consequences of food insecurity in the study area

Fig. 5
figure 5

Prioritization of the impact of the studied components on food insecurity in the study area

Table 6 Components and indicators affecting the realization of food security in study area

According to the results of the study, food insecurity had consequences in the studied area, the most important of which are in the physical (weight of 0.603) and environmental (weight of 0.532) dimensions. In the former, indexes of C3 (weakening of the agricultural sector and prosperity of service activities in the village), C2 (horticultural land use changes), and C3 (agricultural land use changes) obtained the greatest weights. In the economic dimension, the indexes of C8 (increased income gap between rural and urban areas), C6 (increased cost of services), and C5 (increasing the cost of lands, houses, and rents) were the most important indicators, whereas, in the socio-cultural dimension, the indexes of C11 (reduction of participatory and group activities in the village), C9 (decreased social capital in villages), and C10 (expanding rural and urban migration) were the most significant (important) indicators. In the environmental dimension, the indexes of C20 (declining groundwater resources), C22 (drilling unlicensed wells), C23 (pressure on water sources and occurrence of ground subsidence, landslides, and erosions), and C21 (drying of rivers, springs, and wells due to over-exploitation) had the most effect (Table 7 and Fig. 6).

Table 7 Consequences of food insecurity in the study area
Fig. 6
figure 6

Prioritizing the consequences of food insecurity in the studied indicators

The images below show some of the human pressures caused by human mismanagement and the damage to the environment in the study area. Some issues such as excessive use of groundwater resources and consequences such as ground subsidence (Fig. 7), landslides (Fig. 8), and evacuation of villages (Fig. 9) were closely related to food security in the studied region.

Fig. 7
figure 7

Ground subsidence phenomenon (eastern plains of Kurdistan, Dehgolan, and Qorveh), 2019

Fig. 8
figure 8

Landslide phenomenon (Dehrshid village), 2019

Fig. 9
figure 9

Village evacuation phenomenon (Karimabad village of Dehgolan Township), 2020

Conclusion

Today, having an acceptable level of food security in the societies is one of the most important pillars of rural development policies and planning. Food insecurity in rural communities shows improper planning and policy-making in the development of local communities and the need for revision of policies. In addition, food insecurity in rural communities can lead to various consequences in their environment, distancing them from the main goals. As a developing country which its economy is mainly based on oil exports, Iran has not been focused on the agriculture and this sector has been overlooked in policy-makings and decision-makings [12]. This doubles the necessity of developing operational solutions and plans to solve the problem and recognize the factors affecting food insecurity and its consequences, considering that 26% of the country's population lives in rural areas and their livelihood and food security depend on the agricultural sector.

According to the results of the present study, 20% of families had food security, whereas 25%, 42%, and 13% had food insecurity without hunger, food insecurity with moderate hunger, and food insecurity with severe hunger, respectively. Therefore, it could be concluded that the majority of individuals had food insecurity. These findings are congruent with the results obtained by other researchers [15, 18, 72, 74, 75]. The study of the factors affecting the occurrence of insecurity showed that economic, stability, and availability components were the most important components of food insecurity in the villages under study, respectively. Low-income level of villagers, lack of job diversity, and lack of access to adequate food for families and children are the main reasons for food insecurity. In this respect, it is suggested that more attention be paid to the development of occupations and job diversity in these regions by decision-makers and policy-makers. Overall, not only diversifying the income-generating activities of rural residents can increase the income level of villagers (which was the most important cause of food insecurity), but also it can guarantee their access to food with acceptable quality and quantity. Given the high level of food insecurity in villages in the western part of Iran, we assessed the consequences of this issue, as well. According to the results, changing the use of agricultural lands and the weakening of the agricultural sector in the studied area were the most important consequences of food insecurity in the villages of Dehgolan.

It is notable that the change of agricultural land use has occurred in most villages of this area; due to the high potential of access to the city of Dehgolan, these villages are often considered as a center for attracting the poor population who have migrated from the city and other surrounding villages due to food insecurity. As the population in these villages increases, so does the demand for housing, land and infrastructure, and service facilities. An increase in demand for the mentioned items leads to increased land prices for villagers. In this situation, farmers whose interest in agricultural land has exceeded the commodity price of land, sell the land, and/or change its use. As a result, the share of agricultural land in the villages is declining and they have become dormitories around the cities. As such, the agricultural sectors of the villages have been weakened to the benefit of the service sector. Accordingly, it is suggested that subsidies be provided to farmers by the government and the mechanisms be strengthened to purchase farmers’ products at reasonable prices. This will maintain the comparative advantage of agriculture over its change of use/sale. Not only this will strengthen the agricultural sector, but also it increases farmers' interest and desire for agricultural development and production of essential agricultural/food products, which will decrease food insecurity. This result is in line with the results of Debebe and Zekarias [61, 76, 77]. Therefore, the establishment of farmer-centered organizations and associations to bargain for marketing, pricing of agricultural products, and the supply of agricultural inputs can also be useful and effective. At present, in the agricultural sector of Iran, there is no market analysis and farmers suffer a lot of losses without knowing the market situation and the volume of crops and the high risk of crop prices at harvest. Therefore, improving the pricing system of products, removing intermediaries from pricing system, expanding the social security system, better targeting of subsidies, reforming, and correct targeting of agricultural loans to villagers can be considered as some of the most important policy implications of this study for decision-makers and policy-makers in the food and rural development sector of Iran.

In addition, due to the excessive use of underground water for cucurbits, which is the dominant cultivation pattern in this region, the groundwater level has dropped sharply in some villages farther from the city. For instance, Dehrashid village has experienced a 50-m decline in underground water sources in the past few decades, which has led to environmental hazards such as ground subsidence in some villages (Fig. 9). The long-term consequence of this crisis is the evacuation of villages and decreased young and efficient (active) social capital in the agricultural sector. In this regard, one of the best ways to prevent the intensification of such negative consequences is to carry out technological and social interventions in the field of developing optimal irrigation methods in the study area. Moreover, given that the wastewaters of many cities around the study area are released in nature, it is recommended that plans be designed by the government to guide urban wastewaters toward groundwater aquifers that are being destroyed in the region. Not only this action will prevent the excessive decline in underground water resources, but also it can contribute to the continuation of agriculture and the production of food products, which is one of the main pillars of food security in the region. Another consequence of food insecurity is pressure on water and soil resources. In addition, the geographical conditions of this region are mostly mountainous, and limited water and soil resources, especially the droughts of recent decades in Iran, have put additional pressure on natural resources. Along with these limitations, most rural households, on average, have between 35 hectares of arable land. In these circumstances, people excessively use the natural resources needed in the agricultural sector to access food resources and provide a livelihood for themselves and their families. This has led to the excessive exploitation of water sources in rivers, fountains, and wells. A major part of surface water resources in these areas (rivers and fountains) have been dried and well water sources have faced a drop in groundwater levels, the representation of which can be observed in the occurrence of ground subsidence and landslides, which have occurred in some parts of the region (Figs. 7 and 8). Therefore, it can be understood that although the villagers and farmers of the study area overuse water and soil resources only to meet their food and livelihood needs, but in the long run, this can intensify their food insecurity. Therefore, it is necessary to improve the efficiency of agricultural activities. In addition, the application of adaptation strategies to water scarcity must be prioritized by regional decision-makers and policy-makers in agricultural and rural development policies. Strategies for adapting to soil and water problems and ensuring long-term food security include encouraging the use of water-resistant crops and planting crops that consume less water. Planning to implement these strategies can both lead to agricultural development and provide long-term food security [78]. Agricultural extension practitioners and rural development facilitators can be the most important executive arms of decision-makers and policy-makers in this field.

In addition to the mentioned factors, the geographical conditions and the seasonal agricultural system in this area have resulted in the migration of active and educated young people from the villages to the cities and even to the neighboring country (Iraq). It is notable that most of these people take on informal service jobs in the destination country due to the lack of income. In addition, food insecurity in rural areas will be transferred to urban regions, which doubles the necessity of planning and policy-making to solve this issue considering the structural–functional continuity of urban and rural areas. Similar to any other study, there were some limitations to the present study. One of the major drawbacks of the current research was a lack of accurate statistics and information in some cases. In addition, although there is much theoretical literature on the factors affecting food security, less work has been done on the consequences of food insecurity in rural areas. This issue, despite the limitations of the literature review, provided an opportunity for further reflection to explore this issue, especially in Iran. Another limitation is related to the methodological approached and results of present study. This study was based on a cross-sectional survey of village administrators, and thus, results’ analysis was fulfilled mainly by quantitative methods. Therefore, it is recommended that further studies be carried out using mixed methods (qualitative and quantitative) to yield more reliable and wider results. It should also be mentioned that there was no reference valued for food security in Iran. Therefore, the comparison of our results with the standard and acceptable values was not possible. However, future researchers can fill this gap using some comprehensive meta-analysis-based studies. Since, such studies can set the ground for defining reference values for the food security in different dimensions.

Availability of supporting data

Not applicable.

References

  1. Helen HJ. Food security and the food stamp program. Am J Agric Econ. 2002;84(5):1215–8. https://0-doi-org.brum.beds.ac.uk/10.1111/1467-8276.00382.

    Article  Google Scholar 

  2. Jones AD, Ngure FM, Pelto G, Young SL. What are we assessing when we measure food security? A compendium and review of current metrics. Adv Nutr. 2013;4(5):481–505. https://0-doi-org.brum.beds.ac.uk/10.3945/an.113.004119.

    Article  PubMed  PubMed Central  Google Scholar 

  3. Aziz N, Nisar QA, Koondhar MA, Meo MS, Rong K. Analyzing the women’s empowerment and food security nexus in rural areas of Azad Jammu & Kashmir, Pakistan: By giving consideration to sense of land entitlement and infrastructural facilities. Land Use Policy. 2020;94:104529. https://0-doi-org.brum.beds.ac.uk/10.1016/j.landusepol.2020.104529.

    Article  Google Scholar 

  4. Schleifer P, Sun Y. Reviewing the impact of sustainability certification on food security in developing countries. Global Food Security. 2020;24:100337. https://0-doi-org.brum.beds.ac.uk/10.1016/j.gfs.2019.100337.

    Article  Google Scholar 

  5. Adegboye RO. Land, agriculture and security in Nigeria. Faculty of Agriculture L Series, University of Ilorin Feb. 25th. 2004; Kwara State, Nigeria.

  6. Farrukh MU, Bashir MK, Hassan S, Adil SA, Kragt ME. Mapping the food security studies in India, Pakistan and Bangladesh: review of research priorities and gaps. Global Food Security. 2020;26:100370. https://0-doi-org.brum.beds.ac.uk/10.1016/j.gfs.2020.100370.

    Article  Google Scholar 

  7. Valizadeh N, Hayati D. Development and validation of an index to measure agricultural sustainability. J Cleaner Prod. 2021;280:123797. https://0-doi-org.brum.beds.ac.uk/10.1016/j.jclepro.2020.123797.

    Article  Google Scholar 

  8. Sultana MN, Uddin MM, Ridoutt B, Hemme T, Peters K. Benchmarking consumptive water use of bovine milk production systems for 60 geographical regions: an implication for Global Food Security. Global Food Security. 2015;4:56–68. https://0-doi-org.brum.beds.ac.uk/10.1016/j.gfs.2014.08.006.

    Article  Google Scholar 

  9. The Islamic Consultative Assembly. Constitution of the Islamic Republic of Iran. 2020.

  10. Agricultural Jihad Organization of Kurdistan Province. The Project of improving food security in Kurdistan Province. Unpublished Report. 2020.

  11. Sadi H, Azizi M, Azami M. Extensional educations and food security of farming households (The case of Ghorveh County). Iranian J Agric Econ Dev Res. 2014;45(3):483–99.

    Google Scholar 

  12. Ahmadi Dehrashid A. Expalantion evolutions Space economy in Peripheral Areas of Sanandaj. PhD Dissertation, Kharazmi University of Tehran, Human Geography. 2017. Unpuplished.

  13. Santeramo FG. Food security composite indices: implications for policy and practice. Dev Practice. 2015;25(4):594–600. https://0-doi-org.brum.beds.ac.uk/10.1080/09614524.2015.1029439.

    Article  Google Scholar 

  14. Santeramo FG. On the composite indicators for food security: decisions matter! Food Rev Int. 2015;31(1):63–73. https://0-doi-org.brum.beds.ac.uk/10.1080/87559129.2014.961076.

    Article  Google Scholar 

  15. Mango N, Makate C, Mapemba L, et al. The role of crop diversification in improving household food security in central Malawi. Agric Food Security. 2018;7(1):1–10. https://0-doi-org.brum.beds.ac.uk/10.1186/s40066-018-0160-x.

    Article  Google Scholar 

  16. Barrett CB. Smallholder market participation: concepts and evidence from eastern and Southern Africa. Food Policy. 2008;33(4):299–317. https://0-doi-org.brum.beds.ac.uk/10.1016/j.foodpol.2007.10.005.

    Article  Google Scholar 

  17. Moroda GT, Tolossa D, Semie N. Food insecurity of rural households in Boset district of Ethiopia: a suite of indicators analysis. Agric Food Security. 2018;7(1):1–16. https://0-doi-org.brum.beds.ac.uk/10.1186/s40066-018-0217-x.

    Article  Google Scholar 

  18. Mota AA, Lachore ST, Handiso YH. Assessment of food insecurity and its determinants in the rural households in Damot Gale Woreda, Wolaita zone, southern Ethiopia. Agric Food Security. 2019;8(1):1–11. https://0-doi-org.brum.beds.ac.uk/10.1186/s40066-019-0254-0.

    Article  Google Scholar 

  19. Patel K, Gartaula H, Johnson D, Karthikeyan M. The interplay between household food security and wellbeing among small-scale farmers in the context of rapid agrarian change in India. Agric Food Security. 2015;4(1):1–16. https://0-doi-org.brum.beds.ac.uk/10.1186/s40066-015-0036-2.

    Article  Google Scholar 

  20. Abegaz KH. Determinants of food security: evidence from Ethiopian Rural Household Survey (ERHS) using pooled cross-sectional study. Agric Food Security. 2017;6(1):1–7. https://0-doi-org.brum.beds.ac.uk/10.1186/s40066-017-0153-1.

    Article  Google Scholar 

  21. Badghan F, Namdar R, Valizadeh N. Challenges and opportunities of transgenic agricultural products in Iran: convergence of perspectives using Delphi technique. Agric Food Security. 2020;9(1):1–13. https://0-doi-org.brum.beds.ac.uk/10.1186/s40066-020-00259-5.

    Article  Google Scholar 

  22. Garnett T. Where are the best opportunities for reducinggreenhouse gas emissions in the food system (including the foodchain)? Food Policy. 2011;36:23–32. https://0-doi-org.brum.beds.ac.uk/10.1016/j.foodpol.2010.10.01.

    Article  Google Scholar 

  23. Diagne R. Food security and agricultural liberalization. (Thesis for obtaining doctor of economic sciences). rapporteur: mr.jerome ballet, Universite de nice sophia antipolis. 2013.

  24. Peng W. Decision-making Optimization of Logistics Supply Chain Based on Small Target Echo Coherent Accumulation Algorithm Based on LTE Signal. In Acoustics, Speech and Signal Processing. 2019; 1(1): pp. 1–6. Clausius Scientific Press. https://0-doi-org.brum.beds.ac.uk/10.1016/B978-0-08-100596-5.22314-7

  25. Renzaho AM, Mellor D. Food security measurement in cultural pluralism: missing the point or conceptual misunderstanding? Nutrition. 2010;26(1):1–9. https://0-doi-org.brum.beds.ac.uk/10.1016/j.nut.2009.05.001.

    Article  PubMed  Google Scholar 

  26. Green RE, Cornell SJ, Scharlemann JP, Balmford A. Farming and the fate of wild nature. Science. 2005;307(5709):550–5. https://0-doi-org.brum.beds.ac.uk/10.1126/science.1106049.

    Article  CAS  PubMed  Google Scholar 

  27. Ramankutty N, Evan AT, Monfreda C, Foley JA. Farming the planet: 1. Geographic distribution of global agricultural lands in the year 2000. Global Biogeochem Cycles. 2008;22(1):1–19. https://0-doi-org.brum.beds.ac.uk/10.1029/2007GB002952.

    Article  CAS  Google Scholar 

  28. Graham RD, Welch RM, Saunders DA, Ortiz-Monasterio I, Bouis HE, Bonierbale M, De Haan S, Burgos G, Thiele G, Liria R, Meisner CA. Nutritious subsistence food systems. Adv Agron. 2007;92:1–74. https://0-doi-org.brum.beds.ac.uk/10.1016/S0065-2113(04)92001-9.

    Article  CAS  Google Scholar 

  29. Keatinge JDH, Yang RY, Hughes JDA, Easdown WJ, Holmer R. The importance of vegetables in ensuring both food and nutritional security in attainment of the Millennium Development Goals. Food Security. 2011;3(4):491–501. https://0-doi-org.brum.beds.ac.uk/10.1007/s12571-011-0150-3.

    Article  Google Scholar 

  30. Food and agriculture organization of the United Nations (FAO). The State of food and agriculture (SOFA). Women in agriculture closing the gender gap for development. Rome: Food and agriculture organization of the United Nations (FAO). 2010.

  31. Khush GS, Lee S, Cho JI, Jeon JS. Biofortification of crops for reducing malnutrition. Plant Biotechnol Rep. 2012;6(3):195–202. https://0-doi-org.brum.beds.ac.uk/10.1007/s11816-012-0216-5.

    Article  Google Scholar 

  32. Food and agriculture organization of the United Nations (FAO). Our World in Data. 2020. https://ourworldindata.org/hunger-andundernourishment#whatshare-of-people-are-undernourished.

  33. Pawlak K, Kołodziejczak M. The role of agriculture in ensuring food security in developing countries: considerations in the context of the problem of sustainable food production. Sustainability. 2020;12(13):5488. https://0-doi-org.brum.beds.ac.uk/10.3390/su12135488.

    Article  Google Scholar 

  34. Babatunde RO, Omotesho OA, Sholotan OS. Socio-economic characteristics and food security status of farming households in Kwara State, North-Central Nigeria. Pakistan J Nutr. 2007;6(1):49–58.

    Google Scholar 

  35. Sinyolo S, Mudhara M, Wale E. Water security and rural household food security: empirical evidence from the Mzinyathi district in South Africa. Food Security. 2014;6(4):483–99. https://0-doi-org.brum.beds.ac.uk/10.1007/s12571-014-0358-0.

    Article  Google Scholar 

  36. Abdoellah OS, Schneider M, Nugraha LM, Suparman Y, Voletta CT, Withaningsih S, Hakim L. Homegarden commercialization: extent, household characteristics, and effect on food security and food sovereignty in Rural Indonesia. Sustain Sci. 2020;15(3):797–815. https://0-doi-org.brum.beds.ac.uk/10.1007/s11625-020-00788-9.

    Article  Google Scholar 

  37. Derrickson JP, Sakai M, Anderson J. Interpretations of the “balanced meal” household food security indicator. J Nutr Educ. 2001;33(3):155–60. https://0-doi-org.brum.beds.ac.uk/10.1016/S1499-4046(06)60185-1.

    Article  CAS  PubMed  Google Scholar 

  38. Siyoum AD. Broken promises food security interventions and rural livelihoods in Ethiopia. (doctoral dissertation). Netherlands: Wageningen University; 2012.

    Google Scholar 

  39. Anderman TL, Remans R, Wood SA, DeRosa K, DeFries RS. Synergies and tradeoffs between cash crop production and food security: a case study in rural Ghana. Food security. 2014;6(4):541–54. https://0-doi-org.brum.beds.ac.uk/10.1007/s12571-014-0360-6.

    Article  Google Scholar 

  40. Bala BK, Alias EF, Arshad FM, Noh KM, Hadi AHA. Modelling of food security in Malaysia. Simul Model Pract Theory. 2014;47:152–64. https://0-doi-org.brum.beds.ac.uk/10.1016/j.simpat.2014.06.001.

    Article  Google Scholar 

  41. Chartres C, Sood A. The water for food paradox. Aquatic Procedia. 2013;1:3–19. https://0-doi-org.brum.beds.ac.uk/10.1016/j.aqpro.2013.07.002.

    Article  Google Scholar 

  42. Coates J, Swindale A, Bilinsky P. Food and nutrition technical assistance project (FANTA): Household Food Insecurity Access Scale (HFIAS) for Measurement of Food Access: Indicator Guide (v. 3). Washington: Food and Nutrition Technical Assistance Project. 2007. https://0-doi-org.brum.beds.ac.uk/10.3305/nh.2015.31.sup3.8775

  43. Dini TA. Food security and it’s rate in Iran. J Trade Studies. 2000;14:121–48.

    Google Scholar 

  44. Sarlio-Lahteenkorva S, Lahelma E. Food insecurity is associated with past and present economic disadvantage and body mass index. J Nutr. 2001;131(11):2880–4. https://0-doi-org.brum.beds.ac.uk/10.1093/jn/131.11.2880.

    Article  CAS  PubMed  Google Scholar 

  45. Studdert LJ, Frongillo EA Jr, Valois P. Household food insecurity was prevalent in Java during Indonesia’s economic crisis. J Nutr. 2001;131(10):2685–91. https://0-doi-org.brum.beds.ac.uk/10.1093/jn/131.10.2685.

    Article  CAS  PubMed  Google Scholar 

  46. Hoddinott J, Yohannes Y. Dietary diversity as a food security indicator. Int Food Policy Res Inst (IFPRI). 2002;583:39532. https://0-doi-org.brum.beds.ac.uk/10.22004/ag.econ.16474.

    Article  Google Scholar 

  47. Matuschke I. Rapid urbanization and food security: using food density maps to identify future food security hotspots. Int Food Policy Res Inst (IFPRI). 2009;1005:79128. https://0-doi-org.brum.beds.ac.uk/10.22004/ag.econ.51643.

    Article  Google Scholar 

  48. Ojeleye OA, Adebisi OA, Fadiji TO. Assessment of farm household food security and consumption indices in Nigeria. Asian J Agric Rural Dev. 2014;4(393-2016–23915):458–64. https://0-doi-org.brum.beds.ac.uk/10.22004/ag.econ.198426.

    Article  Google Scholar 

  49. Abdalla A, Ingrid-Ute L, Siegfried B. Measuring food consumption using coping strategies adopted by farm household in the security. J Nutr Educ. 2009;30(1):45–9.

    Google Scholar 

  50. Norhasmah S, Zalilah MS, Mohd Nasir MT, Kandiah M, Asnarulkhadi AS. A qualitative study on coping strategies among women from food insecurity households in Selangor and Negeri Sembilan. Malaysian J Nutr. 2010;16(1):39–54.

    Google Scholar 

  51. Belay Bedeke SB. Food insecurity and copping strategies: a perspective from Kersa district, East Hararghe Ethiopia. Food Science Quality Manage. 2012;5(3):19–27.

    Google Scholar 

  52. Zhai K. Vision of resource, structure, system and Chinese food security. IERI Procardia. 2013;4:408–16. https://0-doi-org.brum.beds.ac.uk/10.1016/j.ieri.2013.11.059.

    Article  Google Scholar 

  53. Regmi A, Meade B. Demand side drivers of global food security. Global Food Security. 2013;2(3):166–71. https://0-doi-org.brum.beds.ac.uk/10.1016/j.gfs.2013.08.001.

    Article  Google Scholar 

  54. Bashir MK, Schilizzi S, Pandit R. The determinants of rural household food security in the Punjab, Pakistan: an econometric analysis. Working Paper 1203. School of agricultural and resource economics. University of Western Australia. Crawley. Australia. 2013.

  55. Costa LV, Gomes MFM, de Lelis DAS. Food security and agricultural productivity in Brazilian metropolitan regions. Proc Econ Finance. 2013;5:202–11. https://0-doi-org.brum.beds.ac.uk/10.1016/S2212-5671(13)00026-9.

    Article  Google Scholar 

  56. van Meijl H, Shutes L, Valin H, Stehfest E, van Dijk M, Kuiper M, Tabeau A, van Zeist WJ, Hasegawa T, Havlik P. Modelling alternative futures of global food security: Insights from FOODSECURE. Global Food Security. 2020;25:100358. https://0-doi-org.brum.beds.ac.uk/10.1016/j.gfs.2020.100358.

    Article  Google Scholar 

  57. Cooper MW, Brown ME, Niles MT, ElQadi MM. Text mining the food security literature reveals substantial spatial bias and thematic broadening over time. Global Food Security. 2020;26:100392. https://0-doi-org.brum.beds.ac.uk/10.1016/j.gfs.2020.100392.

    Article  Google Scholar 

  58. Nord M. Food insecurity in households with children: prevalence, severity, and household characteristics. Economic information bulletin number 56. US Department of Agriculture. 2009.

  59. Ramesh T, Dorosty Motlagh AR, Abdollahi M. Prevalence of household food insecurity in the City of Shiraz and its association with socio-economic and demographic factors, 2008. Iranian J Nutr Sci Food Technol. 2010;4(4):53–64.

    Google Scholar 

  60. Bedeke SB. Food insecurity and copping strategies: a perspective from Kersa district, East Hararghe Ethiopia. Food Sci Quality Manage. 2012;5:19–26.

    Google Scholar 

  61. Debebe S, Zekarias EH. Analysis of poverty, income inequality and their effects on food insecurity in southern Ethiopia. Agric Food Security. 2020;9(1):1–12. https://0-doi-org.brum.beds.ac.uk/10.1186/s40066-020-00269-3.

    Article  Google Scholar 

  62. Sugie NF. Punishment and welfare: paternal incarceration and families’ receipt of public assistance. Soc Forces. 2012;90(4):1403–27. https://0-doi-org.brum.beds.ac.uk/10.1093/sf/sos055.

    Article  Google Scholar 

  63. Coleman-Jensen A, Nord M, Andrews M. Household food security in the united states in 2012 [Internet]. United States department of agriculture. 2013. https://www.ers.usda.gov/webdocs/publications/45129/39937_err-155.pdf?v=42199.

  64. Cox R, Wallace S. The Impact of Incarceration on Food Insecurity among Households with Children. (2013). UWRG Working Papers. 69. https://0-doi-org.brum.beds.ac.uk/10.2139/ssrn.2212909

  65. Browne J, Laurence S, Thorpe S. Acting on food insecurity in urban Aboriginal and Torres Strait Islander communities. Policy Practice Interventions Improve Local Access Supply Nutr Food. 2009;2:2000–10.

    Google Scholar 

  66. Lima B, Giovani M. Sustainable food security for local communi- ties in the globalized rra: A comparative examination of Brazilian and Canadian case studies. (Master thesis). Ontario: University of Wa- terloo. 2008.

  67. Food Security Network. Concept of food security. 2012. http://www.foodsecuritynews.com/What-is-food-security.htm.

  68. Maxwell D, Sadler K, Sim A, Mutonyi M, Egan R, Webster M. Emergency food security interventions. London: Humanitarian Practice Network, Overseas Development Institute; 2008.

    Google Scholar 

  69. Audsley E, Chatterton J, Graves A, Morris J, Murphy-Bokern D, Pearn K, et al. Food, land and greenhouse gases. The effect of changes in UK food consumption on land requirements and green- house gas emissions. 2009. https://dspace.lib.cranfield.ac.uk/handle/1826/6496.

  70. WRAP. Court auld commitment 2 voluntary agreement 2010–2012 signatory case studies and quotes. 2012. http://www.wrap.org.uk/category/initiatives/courtauld-commitment.

  71. Schmidinger K, Stehfest E. Including CO 2 implications of land occupation in LCAs—method and example for livestock products. Int J Life Cycle Assess. 2012;17(8):962–72. https://0-doi-org.brum.beds.ac.uk/10.1007/s11367-012-0434-7.

    Article  CAS  Google Scholar 

  72. Sim S, Barry M, Clift R, Cowell SJ. The relative importance of transport in determining an appropriate sustainability strategy for food sourcing. Int J Life Cycle Assess. 2012;12(6):422. https://0-doi-org.brum.beds.ac.uk/10.1007/s11367-006-0259-3.

    Article  Google Scholar 

  73. Edwards-Jones G, Canals LM, Hounsome N, Truninger M, Koerber G, Hounsome B, Cross P, York EH, Hospido A, Plassmann K, Harris IM. Testing the assertion that ‘local food is best’: the challenges of an evidence-based approach. Trends Food Sci Technol. 2008;19(5):265–74. https://0-doi-org.brum.beds.ac.uk/10.1016/j.tifs.2008.01.008.

    Article  CAS  Google Scholar 

  74. Kuiper M, Cui HD. Using food loss reduction to reach food security and environmental objectives–a search for promising leverage points. Food Policy. 2020. https://0-doi-org.brum.beds.ac.uk/10.1016/j.foodpol.2020.101915.

    Article  Google Scholar 

  75. Savari M, Sheykhi H, Amghani MS. The role of educational channels in the motivating of rural women to improve household food security. One Health. 2020. https://0-doi-org.brum.beds.ac.uk/10.1016/j.onehlt.2020.100150.

    Article  PubMed  PubMed Central  Google Scholar 

  76. Godfray HCJ, Garnett T. Food security and sustainable intensification. Philosophical Trans Royal Soc B: Biol Sci. 2014;369(1639):20120273. https://0-doi-org.brum.beds.ac.uk/10.1098/rstb.2012.0273.

    Article  Google Scholar 

  77. Godfray HCJ, Crute IR, Haddad L, Lawrence D, Muir JF, Nisbett N, Whiteley R. The future of the global food system. Philosophical Transa Royal Soc B: Biol Sci. 2010;365:2769–77. https://0-doi-org.brum.beds.ac.uk/10.1098/rstb.2010.0180.

    Article  Google Scholar 

  78. Negin Fallah Haghighi, Masoud Bijani, Morteza Parhizkar. An analysis of major social obstacles affecting human resource development in Iran. J Hum Behav Soc Environ. 2018;29(3):372–88.

    Article  Google Scholar 

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Acknowledgements

We would like to express our appreciation to all the participants, without whom this study would be impossible.

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Correspondence to Masoud Bijani.

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Ahmadi Dehrashid, A., Bijani, M., Valizadeh, N. et al. Food security assessment in rural areas: evidence from Iran. Agric & Food Secur 10, 17 (2021). https://0-doi-org.brum.beds.ac.uk/10.1186/s40066-021-00291-z

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