Results and discussions

The results of TCA identified two themes at stage 1, contracted and non-contracted growers’ farms. The findings showed that more than half (57.4% of those surveyed respondents) adopted traditional marketing channels to sell their farm produce at the nearest fruit and vegetable wholesale markets without engaging in any kind of contractual agreement. Wholesaling intermediaries (commission agents) facilitated produce sales through an open and closed (hatha) auction between growers and end users, wholesalers, processors, exporters, and vendors (street, town, and supermarkets). Agents negotiated purchases, sales, or both but did not take ownership of the product. They earned a commission on the total sales. About 42.6% of respondents reported having a formal VCG or contract with buyers that was written, verbal, or not disclosed.

In terms of socioeconomic characteristics, the study sample comprised all male respondents. Women are almost entirely excluded from farm post-harvest management (PHM) and marketing of produce in Pakistan (Badar, Reference Badar2015). Table 1 outlines most of the contracted growers belonged to either between 51 and 60 years old or 31 and 40 years old, with medium-sized (3–4 members) families than the non-contracted growers. The majority (55% of overall respondents) possessed secondary and intermediate-level education, while only 19.5% of contracted respondents held a university degree.

Table 1. Respondents’ characteristics (percent)

Note: ¹Grade 5 equivalent, ²grade 10 equivalent, ³grade 12 equivalent, ⁴university degree.

Regarding farm characteristics, the majority (56.6%) of contracted growers had more than 25 acres and non-contracted had less than 12.5 acres). As shown in Table 1, the majority (74.5%) of respondents were sole proprietors and had access to canal water for irrigation. A variety of irrigation systems were employed by around half of the respondents. Newer technologies such as drip and sprinkling were used by 26.1% of contracted growers. Half of the respondents rented farm-specific equipment. According to the study, farm food sold at the closest collection location (less than 20 kilometers) was more likely to stay in business (more than 60%), although 38.3% of contracted growers were more than 20 kilometers away.

Moreover, the majority of respondents (71.9%) were engaged in full-time farming (Table 1). According to the survey, 49.3% of non-contracted growers had less than 10 years of experience, particularly in potato cultivation. Yet, 45.1% of contracted growers had been farming for more than 20 years. Approximately, 35.2% of those surveyed stated that they had obtained no formal agricultural training. The majority (74.5%) were trained from private sources such as produce buyers and input merchants. Just 4.5% were trained by government extensionists. Despite this lack of access to agricultural training, 24.9% of contracted growers reported having received more than four formal pieces of training each year. In Pakistan, MNCs frequently sell farm supplies such as pesticides, seeds, and fertilizer, and their sales team organizes field days to teach growers and fulfill their sales targets.

In terms of respondents’ motivation for contracting practices, the results of direct interviews highlighted 11 primary reasons for contract production. These include access to farm inputs, technical training and lab testing (soil, water, and food), and transportation assistance, among other things. Due to the prevalence of traditional marketing structures, there are numerous additional motives. Access to market information, a price-fixing system, and the market intermediaries’ unnecessary transaction charges, as well as their mode of payment, were among these market-related motivations. These results demonstrate the ineffective role of market committees in the fruits and vegetables wholesale marketplace. The following statements depict these motivations. A 39-year-old grower, who had a two-year contract, explained: ‘Buyer's provision of seed, packaging bag, transport, extension advice and farm level mobile testing lab assistance motivated contract participation [production contract scheme]’.

A 34-year-old grower with a one-year contract revealed: ‘Buyers’ resource provision [seeds, bags, and transportation] lowers our risk. Otherwise, it is difficult for us to make the arrangements before, even the transport workers poorly handle the produce that damages the quality of produce’. These findings indicated that buyers provide growers with inputs under the production contracts. Growers also had access to market information as well as training in production and post-harvest technology, as cited in previous studies (Xhoxhi et al., Reference Xhoxhi, Stefanllari, Skreli and Imami2020). These services had to be provided because of the inadequacies in the government extension services to provide this information.

According to a 49-year-old grower, who signed a two-year contract: ‘Our prior farming [production and irrigation] practices were unproductive. Government extensionists never visited nor directed efficient and profitable technology. Now, buyers guided and demonstrated the modern technology at our farms’. According to the findings generated from the growers’ in-depth interviews, growers were also not getting extension advice and demonstrations on the use of advanced production technology. The respondents also highlighted the relevance of the price of produce and the period of cash receivables for their participation in contract farming. For example, a 51-year-old grower, who signed a one-year contract, mentioned: ‘Buyers’ given selling price before seeding in written [formal production contract] decreases our marketing risk. Their [buyers’] in-time payment [growers’ cash receivables after selling of produce] improve our living conditions’. The study found that the buyers’ fixed price in production contracts minimized the growers’ uncertainty and marketing risk.

In terms of these 11 motives, collected using a Likert scale, the mean values were estimated for lab testing assistance (4.76), agricultural training (4.58), production technology assistance (4.42), market information (4.13), getting better prices/price fixing mechanism (3.50), receivables/buyers’ payments risk (3.27), accessibility of quality inputs (2.18), provision of packaging bags (1.18), and transportation (1.16). These scores indicate a considerably higher level of motivation than the costs associated with meeting farming requirements. Growers who participated in formal contract practices have some favorable advantages, i.e., ‘pull’ factors, as well as mitigating against negative circumstances of local markets, i.e., ‘push’ ones. The overall Cronbach α value of the growers’ primary reasons was 0.713, which was greater than the minimum value needed for the significance of 0.60, and supported the scale's internal consistency (Hair et al., Reference Hair, Black, Babin and Anderson2013).

The study uses an EFA to derive meaningful growers’ primary motives for adopting formal contracts. To check the factorability of data, the Kaiser–Meyer–Olkin (KMO) test of sample adequacy and Barlett's test of sphericity (χ ² = 6960.71: DF = 351; P < 0.00) were applied to all 11 growers’ primary motives (Pallant, Reference Pallant2007). The KMO value was found to be 0.75, greater than the minimum value of 0.60 recommended by Kaiser (Reference Kaiser1970) for applying the factor analysis. Barlett's test χ ² value of 6960.71 was also found significant, which indicated that data were suitable for running the EFA. The study discovered four components with eigenvalues greater than one that account for 75% of the variation in the sample (Hair et al., Reference Hair, Black, Babin and Anderson2013). The EFA found four broad growers’ motivations for contracting, through the analysis of their statements (Table 2).

Table 2. Results of the exploratory factors analysis (EFA)

Note: Extraction method: principal component analysis. Rotation method: Varimax with Kaiser normalization.

Factors are highlighted in bold and labeled.

The first factor comprised three statements and explained 27.4% variance and was labeled buyers’ technical assistance (BTA). This factor revealed that growers preferred contracts due to lab testing assistance, agricultural training, and technology support. The α value of F₁ was 0.941, which is greater than the minimum needed value of 0.60 and confirms the internal consistency of the scale utilized (Hair et al., Reference Hair, Black, Babin and Anderson2013). According to the survey, growers had limited access to lab (soil, water, and crop) testing. This assistance would lead to lower food loss and higher returns.

Conferring the analysis, BTA had positively affected growers’ motivations to contract. The greater the BTA, the greater the return to growers, such as improved PHM practices (i.e., sorting, grading, packing, and delivery method), and it reduces food losses. Benmehaia and Brabez (Reference Benmehaia and Brabez2018) stated that consistent technical assistance would improve farms’ productivity.

The second factor named ‘buyer provides market information’ embraced two statements relating to market uncertainty and explained a total of 18.6% variance. The results point out that growers are likely to choose contract production due to the availability of market information, such as market requirements and how to acquire higher pricing. Its α value is 0.913 > 0.60 and validated the scale's internal coherence (Hair et al., Reference Hair, Black, Babin and Anderson2013). The study discovered that contracted growers were provided with up-to-date market requirements, resulting in better prices. Yet, the public information dissemination system was outdated and less successful. According to Xhoxhi et al. (Reference Xhoxhi, Stefanllari, Skreli and Imami2020), providing accurate market information could help boost growers’ trust and lessen the possibility of contract defaults.

The third factor named ‘buyers’ mode of payment’ explained 8.6% of the variance. It contained three statements, selling price or price-setting procedure, risk of growers’ cash receivables/buyers’ payments after selling of produce, and the duration of such cash receivables. The α value was 0.853, greater than the level of significance of 0.60, and had confirmed internal consistency (Hair et al., Reference Hair, Black, Babin and Anderson2013). According to the survey findings, growers evaluate their returns at the point where they are looking for a price for their farm produce. However, some of the contracted growers had raised their voices, which derived a relatively small proportion of income, during COVID-19. When the supply was abundant, contracted prices were higher than the market prices; and contract buyers were hesitant at the time to pay this price when receiving the product. This price differential, a risk associated with local and global markets, has rendered contracted growers insecure. However, they were more satisfied with the prices offered, terms of receivables, and returns than those growers who relied on the open market.

The study revealed that the market risk of non-contracted growers was also higher than contracted because they experienced uncertainty regarding their cash receivables from the buyers after selling their produce. According to the head of the Okara district wholesale market, many smallholders frequently sold through unknown outsider traders (export intermediaries from Afghanistan and Iran) in wholesale markets. They have tenancy agreements in markets and offer higher-than-market prices to smallholders and vanish after purchasing the farm food. Many smallholders who sold their produce on credit never got their receivables. Numerous offenses were reported to local law enforcement organizations, but the perpetrators were never found.

The fourth factor identified as ‘buyer provides farm inputs’ (BPFI) explained 7.3% of the variance and included three statements. This factor demonstrated that growers’ preference for participating in contracts was because of buyers’ provision of quality seed, packaging bags, and transportation. The cost and availability of imported farm inputs were impacted by inflation and fluctuating dollar exchange rates in the country. Having this price risk absorbed by the buyers was a great benefit to the growers. The study disclosed that BPFI had significantly impacted farm productivity, both for contracted and non-contracted farms. The α value of 0.714 was greater than the 0.60 level of significance and confirmed the scale's internal consistency (Hair et al., Reference Hair, Black, Babin and Anderson2013).

These factors reflected the current opportunities and restrictions confronting growers in determining the feasibility and sustainability of farm productivity. Certainly, the most important effect was the ‘push’ for the grower to overcome shortcomings in local input and output markets through contract production. Similarly, reflecting the scarcity of public extension services in potato-growing areas, growers were encouraged to participate in contracting to learn new skills and increase productivity. Growers appeared to have been willing or felt obligated to tolerate a loss of independence to ensure access to production resources.

Table 3 shows the results of the comparative farms’ productivity, and it seems that the contracted farms per acre COP are higher than the average and that of non-contracted growers’ farms. This could be attributed to contracted growers using high-quality or certified inputs including seed, soil nutrients, improved production practices, irrigation technology, and better PHM to fulfill the buyers’ required quality standards. However, their yield was higher. They also received better selling prices than the non-contracted farms, resulting in higher incomes for the contracted farms.

Table 3. Results of the farms’ productivity analysis

*(1 hectare = 2.47 acres); **(1 USD = 280 PKR).

Table 3 shows that the contracted farms’ input–output ratio is 1:2.72, which indicates that one unit of a resource would yield 2.72 units of returns. Non-contracted farms obtained 2.22 returns for the same unit of resource. Additionally, the BCR showed that contracted farms earned 1.71 PKR by investing one rupee. Comparatively, non-contracted farm growers earned just 1.22 PKR by investing the same unit of resources.

Table 4 shows the results of the estimation of farm employment. According to Table 4, an average contracted farm employed more farm labor per acre than a non-contracted farm. Their number of agricultural trainings of farm labor on PHM practices was likewise higher than it was for the non-contracted farms. In order to prevent food losses and retain the quality of produce, which also has an impact on growers’ returns and farm productivity, the study looked into how contractual buyers provide PHM training. The growers engaged in contracts generated more profits and were able to pay higher wages to the employed farm labor. Just 17.2% of contracted farms paid their labor less than PKR 15,000 per month, while a sizable proportion (32.3%) paid them more than PKR 20000. Yet, not a single employee on a non-contracted farm earned more than PKR 20000; and 59.6% earned less than PKR 15000. The study also estimated the welfare and safety measures of employed labor at farms. Non-contracted farms possessed 36.0% of the safety measures and 63.2% of the welfare initiatives. In the same context, contracted farms had better figures, with 47.8 and 70.3%, respectively. The findings of the study have significant implications for developing countries in terms of supporting the design and implementation of production contract schemes that not only impact growers’ profitability but also help to improve social outcomes. Such an approach can greatly contribute to rural poverty reduction and agricultural growth, particularly in developing countries.

Table 4. Results of the farms’ employment analysis