1. Introduction
Over the last decade, food supply chain (FSC) has taken good heed among practitioners, academicians and scholars due to substantial market changes affecting sustainable and energy-efficient supply chains [
1,
2,
3,
4,
5]. However, from a management perspective, FSC requires advance handling systems to deal with product perishability, unexpected supply chain variations, and food safety attributes that affect environmental sustainability, consumer health and loyalty, and supply chain (SC) profitability [
6]. Furthermore, FSC comprises various autonomous and heterogeneous partners such as producers, suppliers, packaging firms, industrial processors, cold logistic service providers, certification agencies, distributors, and retailers that decrease transparency. Meanwhile, a number of complications persist when coordinating SC partners which make FSC more challenging [
7].
Generally, perishable FSC can be classified into two categories: fresh unprocessed food products (e.g., vegetables, fruits, and milk) and processed food products (e.g., convenience foods and soft drinks). Indeed, partners’ performances affect overall food supply chain performance (FSCP) [
8]. For example mad cow disease, BSE, and dioxin food scandals are major global food scandals in which companies blamed their partners’ for supplying low quality and contaminated raw food products [
9,
10].
However, many companies throughout the world have experienced that working alone will not be sufficient to attain paramount supply chain performance [
11,
12]. Therefore, the food sector is continuously demanding collaboration among partners to pursue sustainable and energy-efficient food production, processing, distribution, and consumption. According to Aramyan et al. [
13], nowadays regular performance measurement is not a matter of choice for food firms, but of necessity. In this context, scholars argued that the measurement and improvement of a firm’s own performance are not enough to survive and thrive in today’s intensely competitive marketplace. Aramyan et al. [
14] highlighted the importance of key performance indicators for measuring FSCP. The firms need also to motivate and guide their partners to regularly track and trace their efficient and inefficient performances areas and thereafter make significant improvements in their performance [
15,
16]. This can lead the FSC to attain competitiveness in term of reduced SC costs, lead-time, food waste [
16,
17], as well as improved product quality, energy efficiency, responsiveness, and customer satisfaction [
18,
19,
20].
There are several contributions in the literature addressing FSCP measurement [
1,
2,
3,
4,
5,
6,
7,
8,
9,
10,
11,
12,
13,
14,
15,
16,
17,
18,
19,
20]. Shukla and Jharkharia [
20] affirmed that the available literature on the agri-food SC primarily focused on two specific issues: production planning and inventory management, and ignored the broader perspectives of performance measurement. More recently, Shashi et al. [
16] tested the value addition relationship according to each stage of the FSC and stated that measuring the performance relationships among FSC partners is still an open question for the investigation. Given these premises, this study aims to analyze the interlocking links of the performance by classifying the FSCP according to each stage, and thereafter, measure the performance relationship between food producer, supplier, industrial processor, distributor, and retailer.
The investigation of Indian FSC offers interesting insights for the following reasons, (1) at present, India represents almost 18% of the world’s population and covers only 2.4% of the global surface area. Though China is the world’s largest populated country, by 2040, India’s population is forecasted to surpass China’s population [
21]; this is building massive pressure on Indian FSC to feed billions of people. (2) Another motivation emanates from the fact that presently, India is facing food inflation [
22,
23]. India scored 31.4 and was placed in the high end of the “serious” category when ranked at the 100th position among 119 countries on the Global Hunger Index. India’s neighboring countries such as Nepal (72), Myanmar (77), Bangladesh (88), Sri Lanka (84) and China (29) are far better in Global Hunger Index [
24]. This shows serious inefficiency and ineffectiveness issues of the Indian FSC; (3) additionally, India’s horticulture output reached 300.64 million tons in 2016/2017 and is anticipated to reach 305.43 million tons in 2017/2018. However, 25 to 40% of total production gets wasted annually [
25], which costs an estimated INR one lakh crore [
26]; (4) the export rate of India’s perishable products has been steadily declining due to stringent quality norms of importing countries [
27]; (5) the rate of food processing is less than 10% of the total production [
28,
29]. This rate is above 20 and 60% in China and USA, respectively [
30]. This shows that the Indian food industry is less able to harness the benefits of high production; and (6) the government has recently announced food processing as the main industry to boost the food industry and convert raw food products into more value-added products [
31].
The preceding arguments abundantly indicate that dramatic increase in India’s population aligns with the problem that all people need to be nourished. That is why the FSC of yesterday can no longer effectively fulfill the demand, and therefore needs to be restructured. All earlier-discussed problems need prompt and reliable solutions otherwise, in the future, it may be impossible for India to balance its demand and supply.
The remainder of this study is organized as follows. In
Section 2, we discuss previous studies on FSCs. In
Section 3, we propose a conceptual model and study hypotheses. The research methodology is elaborated in
Section 4. Then, the results are highlighted in
Section 5.
Section 6 addresses the discussion and managerial implications. Finally,
Section 7 reports conclusions and future research directions.
2. Literature Review
In this section, literature has been taken into consideration to describe sustainable and energy-efficient FSCP measurement and to justify the need of this work by highlighting the gaps between existing theory and practices, thereafter, to develop a performance relationship-based conceptual performance model from farms to retail.
Agri-food SC has extended beyond the national boundaries and, thus, food firms are seeking unprecedented ideas to secure global market competitiveness [
32,
33,
34]. In this context, the FSCP measurement has emerged as inevitable subject and strategic intent which allows the firm to track and trace the efficacy and inefficiency of SC and leads to better chain design’s decision making [
14,
15,
16,
17]. In addition, Bigliardi and Bottani [
35] demonstrated it as “feedback on operations which are geared towards customer satisfaction, strategic decisions, and objectives.” From the above definition, it can be concluded that the FSCP measurement shows a gap between actual performance and desired performance. The FSC literature argued that “if there is no measurement, no chance of improvement” [
16]. However, the traditional performance measurement approach just focused on measuring the few aspects of FSC, but competition in today’s global food market has compelled food firms to not to miss a single chance of improvement [
36,
37,
38].
Nevertheless, FSCP measurement is highly difficult due to various characteristics (i.e., seasonable production, high perishability and waste rate, taste, color, temperature monitoring, demand & price variation, lead-time, etc.) that distinguish FSCP measurement from other SCs [
39]. The recent FSC literature has extensively been highlighting the importance of sustainable and energy efficient partners performance on overall FSCP [
16,
17]. Unfortunately, the FSCs are failing in various important performance areas such as reduction in cost, lead-time, inventory, wastage and improvement in product quality, energy efficiency, variety, distribution, and availability [
40,
41].
Globalization in the food sector has introduced the world as a single market in which firms are fighting for buyers. Food firms have tremendous pressure to meet national and international food standards and manage products, value addition, and distribution accordingly [
42]. Food firms need to look outside of their standalone boundaries and efforts should be made to improve overall FSCP to tackle this pressure [
19]. Herein, the FSC partner selection is a critical exercise because if the chain partners are incapable to supply and distribute products with superior quality, taste, and certifications with the minimum possible cost and lead-time, then the whole SC will be at high risk of failure [
43]. On the other hand, effective partners’ selection strategies mitigate the effect of supply and distribution failure [
44]. Literature suggests prefixing some performance standards for partners’ selection [
5]. Nonetheless, lack of trust, commitment, training, and irregular performance measurement are some major challenges deteriorating food firm performance [
15].
Inevitably, sustainability in FSC has drawn significant attention due to food sustainability exposure, energy efficiency issues, and the regular outbreaks of foodborne illness after contaminated food consumption [
16,
17,
18]. The irregular performance measurement at each FSC stage can be a possible reason behind such poor performance [
15,
16]. Customers are now evaluating each and every aspects of the offered products [
42,
43]. Subsequently, many national and international FSC authorities, as well as the World Health Organization have regularly been coercing to food companies to deliver sustainable and energy-efficient foodstuffs [
19].
According to Aung and Chang [
17], “getting the right goods at the right time and place” has high importance to reduce costs and win customer confidence. In this line, Aramyan et al. [
14] designed a FSCP measurement conceptual model taking the literature into consideration, which includes the characteristics of FSC as well as other financial and nonfinancial measures. Furthermore, Aramyan et al. [
13] grouped FSCP measurement metrics into four categories: (i) efficiency, (ii) flexibility, (iii) responsiveness, and (iv) food quality. Hence, one of the major goals of tactical FSC planning is to enhance customer’s satisfaction by improving delivery efficiency, accuracy, and services. Even so, without tight integration between procurement, production, and distribution processes these improvements seem impossible [
45].
Similarly, Bourlakis et al. [
36] proposed a balanced scorecard model for FSCP measurement and classified performance into four perspectives: financial, internal process, customers and learning, and growth perspectives. Nyamah et al. [
46] galvanized that buyer–supplier relationship-based coordination is significantly positively associated with firm performance. Literature highlighted the significant negative correlation between FSC risks and FSCP [
47]. Whilst, Roth et al. [
7] experienced three key trends, namely (i) trade foodstuffs as undifferentiated commodities, (ii) trading in large quantities, and (iii) sourcing from different global locations to lessen cost. Furthermore, Van der Vorst [
48] argued that to achieve superior FSCP, each partner should be capable to organize their own actions.
However, the previous articles have provided a significant contribution to the body of knowledge but failed to empirically test the performance relationship between sustainable and energy-efficient FSC partners. In this paper, emphasize is paid to identify the different types of performance according to each FSC stages and thereafter test the performance relationship among the FSC to shed light that how the performance of one player impacts the performance of other players within same FSC. This research hypothesized that the FSCP depends upon the partners’ performance. Our research interest focuses on what kind of relationship exists among FSC partners’ performance. The perspective of this research is new and original in this regard.
4. Research Methodology
The five key constructs of this study are the producer, supplier, industrial processor, distributor, and retailer. To test the research hypotheses, a survey study was carried out in Northern India. Thorough literature revisions and FSC practitioners and experts opinions were taken into consideration during questionnaire development.
Initially, a pre-pilot study was done to ensure the relevance of the questionnaire’s items and later on a pilot study of FSC practitioners was conducted. After a satisfactory pilot study, a large-scale survey was done. For measurement items, we adopted a 7-point Likert scale which ranges from 1 (‘most unimportant’) to 7 (‘most important’). Respondents were asked to indicate the importance of performance areas according to each FSC stage.
The questionnaire was originally written in English and thereafter it was translated into Hindi and Punjabi languages. The final questionnaire was divided according to FSC stages. In the cover letter, respondents were notified that all feedback was anonymous. Thus, there is no right or wrong answer. According to Podsakoff et al. [
66], this method assists in controlling response bias. Shashi et al. [
16] argued that to study the FSC, it is worthwhile to include FSC practitioners as survey respondents. Therefore, the questionnaire was distributed to FSC practitioners engaged in the supply of processed and unprocessed (fruits and vegetables and poultry and dairy products) food.
In addition, the snowball sampling method was used to contact survey respondents. This is the nonprobability method of sample selection commonly considered to identify one or more respondents in hidden populations [
67]. Initially, 734 questionnaires were distributed, but only 445 were returned. Out of these responses, only 434 were tabulated into a SPSS spreadsheet as 11 responses were incomplete. Thus, this study has a 59.12% valid survey response rate. Some authors suggest 20% as the minimum acceptable response rate in the empirical operations management research context [
68]. Thus, a response rate of 59.12% in the present study can be considered sufficient for statistical analysis and inference.
The survey findings infer that out of the 434 valid responses, 83 (19.12%) represent producers, 85 (19.58%) represent suppliers, 62 (14.28%) represent industrial processors, 108 (24.88%) represent distributors, and the remaining 96 (22.11%) represent retail managers.
The nonresponse bias was evaluated through considerable differences between the early return and late return survey responses [
69]. According to Armstrong and Overton [
70], the late return survey responses represent the opinion of nonrespondents and recommended to divide the returned sample responses into two sets; early responses and late responses, and that a comparison be made between them. Herein, to assess the nonresponse bias, this study made a comparison between early returned and late returned responses to all variables employing a
t-test. The results reported no statistically significant differences. Hence, nonresponse bias is not treated as an issue with the collected data.
Subsequently, Harman’s one-factor test was taken into consideration to deal with common method bias [
71]. The results of the factor analysis revealed ten distinctive factors with eigenvalues above 1.0, demonstrating 71.321% cumulative variance. The first extracted factor demonstrated 36.143% of the variance, which was not the majority of the cumulative variance. Consequently, in order to validate Harman’s one-factor test results, we applied the latent factor method as recommended previously [
66]. To do so, two models were developed: the model without common latent factor and model with the common latent factor. Thereafter, model regression weights were subject to comparison and found no statistically significant difference among regression weights. Therefore, issues related to common method bias were not treated as significant.
Measures
A questionnaire was designed from the extensive literature revision and deep discussion with food SC practitioner, academicians and researchers. This survey included the following measures.
Producer’s performance measures should reflect the ultimate productivity of the food producer that has been adapted from the extensive literature revision and deep discussion with food SC practitioners, academicians, and researchers. Specifically, we designed the questionnaire to suit the Indian farming context. Eight performance measures were selected as appropriate items for the measuring Indian food producers’ performance, namely animal/field/tree productivity rate, product quality, labor and machine cost, animal/seed/plan cost, care cost, labor productivity, postharvest rate, and transportation cost.
Supplier’s performance measures should capture how efficiently and effectively the supplier is achieving SC objectives. Seven performance measures were found appropriate for evaluating Indian food suppliers’ performance such as collection cost, cooling cost, supplier product quality, delivery flexibility, delivery reliability, supplier lead-time, and distribution cost.
Process’s performance measures should indicate the processor output in areas of production, operations, cost, customer, and employee productivity, etc. Twenty performance measures were found appropriate for measuring processor’s performance, namely, stakeholder value, order fill rate, material cost, employee performance evaluation, employee turnover, processing flexibility, processing cost, processor lead-time, customer query time, value added cost, waste evaluation, customer retention rate, customer complaint rate, cooling cost, return on investment, processing errors, training cost, information sharing cost, value of the unaccounted stock, and recycling rate.
Distributor’s performance measures should reflect the distributor’s ability to distribute order without taking high lead-time and minimum cost. Six performance measures were selected as appropriate items for the measuring distributor’s performance, such as distributor product quality, order returned rate, distributor lead-time, distribution cost, perfect order fulfillment rate, and product variety. Eleven performance measures were found suitable for measuring Retailer’s performance. These measures are customer entrance, available product variety, product quality, average purchased value, lost-sale opportunities, incremental sale, sale per square meter, waste and theft rate, billing accuracy, customers’ satisfaction rate, and sale growth rate.
6. Discussion and Managerial Implications
The architecture of this article offers an in-depth understanding of the major assumptions of the performance relationship among FSC partners. The previous studies published on FSC have not empirically tested the association between the aforementioned partners’ performance constructs. To the best of the authors’ knowledge, this is the first study that simultaneously classifies and tests the performance relationship. This study proposes a five construct nine agreement performance model and offers a more in-depth contemporary understanding that how the performance improvement at one stage can improve the performance of other stages. This will help identify which partners have a high or low direct, indirect, and total impact on sustainable and energy-efficient FSC partners.
One of the major bottlenecks of the Indian food industry is lack of coordination among FSC members [
18]. Even the FSC partners are not fully aware of the impact of their partners’ performance on their own performance [
4]. Therefore, the study findings can assist the Indian food industry to maintain the performance standard at each FSC stage. Most importantly, this paper provides generalizable answers to three questions: (1) which performance areas need to be measured and improved at each FSC stage; (2) how do significant improvements in performance at one stage positively improve the performance of other stages; (3) which major performance criteria need to be underlined during the partner selection process.
The empirical evidence of positive association between the processor’s performance, supplier’s performance, processor’s performance, distributor’s performance, and retailer’s performance will encourage firms to “track and trace” the own as well as their partners’ performance which can further assist in reducing errors, satisfying customer, enhancing brand value and improving profitability. This would not only enhance FSCP but also build trust and responsiveness towards chain partners, which will further assist them in harnessing the benefits of collaborative sustainable SC. Our results convey that performance measurement at each FSC will be a win-win situation for the focal firm and SC members and will place the whole FSC in the better competitive position.
The previous studies on FSC only explored the impact of suppliers’ performance on the focal firm. Our study findings convey that however, the suppliers’ performances are highly important but are not enough to tackle the globalized market competition and to attain sustainable FSC performance. Hence, the Indian food industry needs to integrate the performance of all FSC partners to survive and to increase efficiency and meet the raised food demands.
The study shows that producer’s performance directly impacts the supplier’s performance, processor’s performance, and the distributor’s performance. However, the impact of producer’s performance on supplier’s performance is comparatively higher than that of processor’s performance on distributor’s performance. Further, the supplier’s performance directly impacts the processor’s performance, distributor’s performance, and retailer’s performance, and the impact of supplier’s performance on processor’s performance is comparatively higher than that of distributor’s and retailer’s performance. Meanwhile, processor’s performance directly impacts distributor’s performance and retailer’s performance, but the impact of processor’s performance is higher on distributor’s performance as compared to retailer’s performance. Lastly, the distributor’s performance directly impacts the retailer’s performance. Thus, it can be concluded that the direct impact of each partner’s performance is comparatively high on its immediate next partner’s performance of the FSC.
Our results also convey that supplier’s performance has the highest direct impact on processor’s performance in FSC which is further followed by the direct impact of processor’s performance on distributor’s performance, and distributor’s performance on retailer’s performance. Meanwhile, as indirect performance impact is concerned, the supplier’s performance has the highest indirect impact on retailer’s performance which is further followed by the impact of processor’s performance on distributor’s performance. If we talk about total performance impact, supplier’s performance has also the highest total impact on retailer’s performance.
On the other hand, the expansion of product lines at the processor stage can increase product variety at distributor and retail points. The food products should be offered in hygienic and good packaging at lower incremental cost. This will help in winning the consumers’ confidence. Besides, the use of good quality of packaging material can facilitate better order handling, reduce wastage and maintain product quality, quantity, and taste. This will increase market share and growth rate. In conclusion, by implementing this performance measurement structure, companies along with their partners can improve market competitiveness and help India to become the “world’s food basket”.
Though this study represents to FSCP of fruits & vegetables, poultry, and dairy food products in the Indian context, this can also assist in improving the performance of other agricultural sectors. Moreover, the study could also serve to China, as China is also looking for novel ways to improve their FSCP as China is also facing the same problems, namely, high demand for quality food products, a high waste rate, and huge population [
81]. Therefore, since the last few years, China has been relying on large-scale perishable products imports from the international market to fulfill the raised food demand [
82]. Therefore, the improvement in FSC performance at each stage can also enable China to improve its production, food safety, and quality as well as decrease the import rate.
Although this study provides significant contributions in both theory and practice, one limitation also exists which should be overcome in the future researchers. The proposed model represents both unprocessed and processed FSC, thus, the development and measurement of separate performance models for unprocessed and processed farm foodstuffs can be more remunerative. Additionally, in the future, it would be interesting to examine the impact of food value addition practices on sustainable and energy-efficient FSCP.
7. Conclusions
Paramount FSC performance in highly populated countries has immense importance to meet the increased demand for food products in sustainable manners. Our study tests FSC performance relationship among partners to provide a deep understanding of the performance of upstream partners for the downstream actors of FSC. This study fills a gap in the body of knowledge considering the scarcity of relevant contributions in the field of FSC. It also reports the key different areas of performance improvement for each FSC stage, thus, it extends the existing literature which claims about similar performance improvement areas for all stage players. Our study claims that to survive and thrive in the globalized food marketplace, all FSC partners need to work as an unit, and make regular efforts to trace and improve their own performance as well as guide their partners about their weak performance areas Our study concluded that regular performance improvement at each FSC stage would improve the partners’ performance of next stages. Moreover, it is interesting to note that the direct impact of each partner’s performance is comparatively high on its immediate next partner’s performance. The findings of this research allow FSC practitioners to take into consideration the differences between the direct, indirect and total effects of each stage performance that can be adopted to pursue performance improvement.
Although this study provides significant contributions in both theory and practice, few limitations exist and should be overcome in the future researches. One limitation of this study is that we tested the performance relationship from upward to downward. This research offers an additional building block in the process of developing new competitive models in the FSC performance area. Therefore, in this line, it would be interesting to test the performance relationship from downward to upward. Secondly, the proposed model represents both unprocessed and processed FSC, thus, the development and measurement of separate performance models for unprocessed and processed farm foodstuffs can be more remunerative. Additionally, in the future, it would be interesting to examine the impact of food value addition practices on sustainable and energy-efficient FSCP.