2.1 Data and Experimental Auction

Applied economists, psychologists, and marketers frequently use experimental auctions to examine consumer preferences for new products and technologies such as hormone-free beef (Alfnes and Rickertsen, Reference Alfnes and Rickertsen.2003) and cosmetic damage in organic apples (Yue, Alfnes, and Jensen, Reference Yue, Alfnes and Jensen.2009). In food waste research, Wilson et al. (Reference Wilson, Rickard, Saputo and Ho.2017) used a Becker-DeGroot-Marschak experimental auction to study how date labels influence consumers’ willingness to waste food. We use a nonhypothetical, sealed-bid, incentive-compatible, second-price experimental auction (Lusk and Shogren, Reference Lusk and Shogren.2007; Vickrey, Reference Vickrey1961) to identify the effects of two food waste information treatments on consumer willingness to pay (WTP) for sweet potatoes of five blemishing levels. The blemishing levels were measured using the imaging techniques (Sanchez et al., Reference Sanchez, Hashim, Shamsudin and Nor.2020) reported in Collart, Meyers, and Ward (Reference Collart, Meyers and Ward.2019) as: 0% to <1.0% blemishing, 1.0% to 3.0%, 3.1% to 5.0%, 5.1% to 7.5%, and 7.6% to 10.0%. Images of these respective skinning levels are contained in Figure 1. Except for the blemishing levels, the sweet potatoes used in the study were as homogeneous as possible in other characteristics, including grade (U.S. No. 1),Footnote ¹ variety (Beauregard), and growing location (Mississippi). Before bidding, participants were informed that all products were graded U.S. No. 1, which meant they were firm, fairly smooth, fairly well shaped, free from insect, disease, or freezing injury, and relatively uniform in size, and that the options differed only in their level of skinning injury.

Figure 1. Example screenshot of the bidding page for all nonhypothetical (real) rounds.

In a second-price auction, the auctioneer sells the product or service to the highest bidder(s), who pays the second-highest bid for the item. Bidders simultaneously submit sealed bids so that no bidder knows the bids submitted by the other auction participants. This auction mechanism is incentive-compatible, meaning that it gives bidders an incentive to bid an amount equal to their actual value for the item being auctioned (Lusk and Shogren, Reference Lusk and Shogren.2007). In addition, we used a nonhypothetical (real) second-price auction to strengthen the external validity of our findings. In a nonhypothetical auction, the participants face real economic incentives and a trade-off between money and goods.

We conducted ten in-person auction sessions over 2 consecutive days in the experimental economics laboratory at a university campus. Each session lasted about 1 hour and included between 6 and 16 participants, with a total of 88 participants. Given the number of participants (88), the number of sessions (10) depended in part on two factors: the capacity of the experimental economics laboratory (18 computer stations) and the time availability of participants. During each of the 2 days, the sessions for each of the treatments were alternated and conducted during different times of day (morning, midday, afternoon) to account for the potential influence of the time of day on consumer preferences for food.

The participants were consumers aged 18 years and older recruited from the local area through multiple advertisements posted multiple times. The advertisements included flyers placed on bulletin boards in coffee shops across town, university-wide e-mail announcements to listservs distributing messages to faculty and staff, and posts on the area’s Craigslist’s web page. To ensure that participants were regular buyers of sweet potatoes, we specified in the advertisement and at the time of recruitment that consumption of sweet potatoes was a criterion for eligibility and that the study would involve consumer purchasing decisions for sweet potatoes. We also specified that an individual could participate in only one session. However, we said nothing about blemished produce or produce with marred skin to avoid their influence on sample self-selection. The university’s Institutional Review Board (IRB) approved this study for ethical compliance as protocol IRB no. 15-411.

Each session started with participants checking in and signing a consent form. In the consent form and the initial instructions, we informed participants that they would participate in a real auction for sweet potato products. We also assigned participants an anonymous identification number they used throughout the study to minimize any potential effect that researcher observation may have on participants’ bidding behavior. They then entered the laboratory and chose one of the available computer stations, all of which had privacy panels. Participants started by reviewing the written instructions and listening to the session moderator explain two examples of multiple-product bidding in a second-price auction setting. After a moment to ask clarifying questions, subjects participated in two hypothetical practice auction rounds and immediately after completed a four-question true/false quiz to ensure their understanding of the second-price auction. Participants saw images of the products, as did the participants in Yue, Alfnes, and Jensen (Reference Yue, Alfnes and Jensen.2009). However, we programmed the bidding pages in the computer using online survey software, so participants saw the images on the computer screen at their respective stations and could enter their bids next to the image. Participants could bid any value, including zero, which would indicate a preference not to purchase the products up for auction. We provided each participant with earnings consisting of a $5 participation (or show-up) fee and $30 to use as bid money for the auction, which were disbursed after they completed the session’s tasks.

Practice rounds with other goods allow participants to gain experience and learn first hand the consequences of bidding suboptimally (Lusk and Shogren, Reference Lusk and Shogren.2007). In the first nonbinding practice round, participants bid on three brands of chips, and in the second practice round on three different brands of chocolate bars. After participants submitted all practice bids and, while the participants completed the knowledge quiz, we downloaded the data from the practice rounds. We then showed participants how we would randomly select one of the two practice rounds and one of the three snacks in that round (each by the roll of a die) to be binding. We also showed them how we would order the bids from highest to lowest to determine who the winner would be and how much the winner would pay for the item had it been the real auction. After another moment to ask clarifying questions, participants proceeded to bid concurrently for the five levels of blemished sweet potatoes during two consecutive real auction rounds. We explained that one item (1 lb. of potatoes with a particular blemishing level) from one round would be randomly selected as the binding round to determine who won the auction at what price and what everyone’s experiment payout would be. Figure 1 shows an example screenshot of the bidding page seen by participants during each real round.

2.2 Food Waste Information Treatments

Each participant took part in a control round and a treatment round to identify the effects of information about food waste due to grocery stores’ esthetic standards and information about the environmental impacts of food waste on purchase decisions. The first real auction round was the control round, meaning that all participants placed bids for 1 lb. of sweet potatoes at each of the five blemishing levels (with the blemishing level specified and therefore known to participants). Then, within a given session, each participant was assigned to one of the two treatments. In the first treatment (WASTE), participants received information on food waste due to grocery stores’ esthetic standards before being asked to resubmit bids for the products at each of the five blemishing levels. The given information stated that fresh produce not considered attractive enough for grocery store displays might be redirected to food processing or wasted (see Appendix A). In the second treatment (WASTE + ENV), participants received the same information on grocery stores’ esthetic standards but immediately after also received information on the environmental impacts of food waste before being asked to resubmit bids. The information on the environmental impacts of food waste originated from a report by the Food and Agricultural Organization of the United Nations (FAO, 2013) (see Appendix B). Out of ten sessions conducted, seven sessions (63 participants) were allocated to the WASTE treatment and three sessions (25 participants) to the WASTE + ENV treatment for the second round of bidding. Of 880 total observations (88 participants times two bidding rounds times five products), three bid values were missing. Thus, the total number of observations used in the econometric model is 877 (630 observations to identify the effect of WASTE and 247 observations for that of WASTE + ENV).

After bidding, an online survey elicited sociodemographic, behavioral, and other information. While participants completed the online survey, we randomly selected one of the rounds and one of the five sweet potato categories to be binding. For the auction round and sweet potato category selected, we ordered the bids from highest to lowest and, once all participants had completed the survey, announced the anonymous identification number of the winner of the randomly selected binding auction and the corresponding second-highest bid. Participants then exited the experimental laboratory, earning in cash their $5 participation fee plus their $30 endowment for bidding, minus anything spent on winning the binding auction. If a participant won an auction, the person paid the corresponding price and took home the 1 lb. of sweet potatoes with the corresponding blemishing level.

In Table 1, we compare the sociodemographic characteristics of experimental auction participants with the sociodemographic characteristics of the U.S. population (U.S. Census Bureau, 2016) and the gender distribution of U.S. primary grocery shoppers (FMIFMI, 2015). Most participants specified they were women (59.1%), had an income of less than $50,000 (72.4%), and were employed part- or full-time (88.6%). In each group (control or treated), over 92% of participants indicated being the primary grocery shopper for their household. Results of one-tailed t-tests indicate that the entire sample, as well as the treated subgroups, mirror our targeted population of U.S. primary grocery shoppers in terms of gender. That is, the gender distribution in each group is statistically equal to the gender distribution of U.S. primary grocery shoppers. The groups also reasonably represent the U.S. population in terms of other dimensions, including marital status, household size, and the average number of children per household. The means for marital status in the Control and WASTE treatment groups are statistically equal to that variable’s means in the U.S. population. However, possibly because the study took place in a university town, the sample had a higher level of educational attainment, had a higher employment share, and was considerably younger than the U.S. population. All participants were relatively aware (61%) before the session started that food retailers reject produce that does not meet esthetic standards and unaware (80%) of any commercial brand of esthetically challenged produce.

Table 1. Sociodemographic and other characteristics of experimental auction participants

^a Source: U.S. Census Bureau, 2016 American Community Survey (ACS) 5-Year Estimates and FMI U.S. Grocery Shopper Trends, 2015.

^b U.S. statistics for population ≥18 years old.

^c U.S. statistics for primary food shoppers per FMI U.S. Grocery Shopper Trends, 2015.

^d U.S. statistics for population ≥15 years old. The "now married" category in the ACS excludes separated couples.

^e U.S. statistics for population ≥25 years old.

^f U.S. statistics calculated as total person or total children population divided by total housing units.

^g Employment categories in the ACS are: Employed civilians or armed forces in labor force, Unemployed civilians in labor force, and Not in labor force.

Notes: Results of one-tailed t-tests indicate that the means for the gender variable in each group (control or treated) are statistically equal to the means for that variable in the U.S. population. The means for the marital status variable in the Control and WASTE treatment groups are also statistically equal to that variable’s means in the U.S. pop.

2.3 Econometric Model for Willingness-to-Pay Estimation

Panel data have two dimensions of variation: cross-sectional and intertemporal. In our experimental auction, several participants submitted bids over several subsequent rounds. Thus, the data collected can be thought of as panel data and analyzed using panel data models (Lusk and Shogren, Reference Lusk and Shogren.2007). We specify a random-effects linear model (Woolridge, Reference Woolridge2010) as follows:

(1) $${WTP}_{ijl}=\beta _{0}+\beta _{1,l}\left({ Control}\times {Blemish}_{l}\right)+\beta _{2,l}\left({WASTE}\times {Blemish}_{l}\right)+\beta _{3,l}\left(\left({WASTE}+{\rm ENV}\right)\times {Blemish}_{l}\right)+\beta _{4}\left({WASTE}+{ENV}\right)+u_{i}+e_{ijl}$$

where WTP_ijl is the bid (in U.S. dollars) submitted by participant i in round j (control or assigned treatment) for blemishing category l, where l is in the set {1,2,3,4,5} representing the 0% to <1.0%, 1.0% to 3.0%, 3.1% to 5.0%, 5.1% to 7.5%, and 7.6% to 10.0% blemishing levels, respectively. The betas represent parameters to be estimated, which include a constant β ₀. Control is a dummy indicator for the 1^st round of bidding, WASTE and WASTE + ENV are dummy indicators denoting the information treatment to which the participant was assigned before the 2^nd round of bidding, and Blemish is a dummy variable that equals to 1 when the observation corresponds to blemishing level l. Given the relatively small sample size, the model includes a WASTE + ENV dummy indicator to control for differences across the samples assigned to each treatment group. Also, u _i represents an unobserved participant-specific error and e _ijl is the typical idiosyncratic error term.

In our experimental design, all the bidding rounds by an individual are either assigned to treatment or not. To account for the potential correlation among the bids submitted by an individual over multiple rounds, we cluster the standard errors at the individual level (Abadie et al., Reference Abadie, Athey, Imbens and Wooldridge.2017). It is also reasonable to assume that willingness-to-pay values are correlated within the bidding round (i.e., across the five blemishing levels) for a particular individual and that willingness-to-pay values for blemishing levels that are nearer to each other (e.g., blemishing levels 1 and 2) are more strongly correlated than the willingness-to-pay values for blemishing levels that are farther from each other (e.g., levels 1 and 5). To accommodate this, besides clustering errors by the individual, we assume an auto-regressive 1 (AR1) correlation structureFootnote ² among the error terms within the bidding round for a given individual. We use the estimated correlation structure when conducting our market simulations, which we discuss in the next section.

2.4 Market Share Simulation

To gain insight into the implications of our results at the market level, we simulate market shares, consumer surplus, and total revenue of each blemishing level, for the control and two information treatment scenarios. First, person-specific draws and person-item-specific draws are taken for each simulated consumer for the random effect u and the error term e, respectively, which each have an estimated variance and where the e are correlated according to an AR1 structure and the estimated correlation parameter, ρ.Footnote ³ Then, these random draws and the parameter estimates are used to calculate each simulated consumer’s willingness to pay for each blemishing level for each treatment. With an exogenously determined set of prices for each blemishing level, it is assumed that a consumer will consider buying a product only if WTP > price, that is, if consumer surplus is positive. If multiple blemishing levels yield positive consumer surplus, the consumer chooses the blemishing level for which consumer surplus is greatest. This common approach to calculate market shares is known as the first choice or highest utility rule, whereby each person is assumed to choose the product yielding the highest utility from a choice set (Lusk and Shogren, Reference Lusk and Shogren.2007), or to choose not to purchase anything if WTP < price for all blemishing levels. This latter assumption adds realism in that not all consumers make a purchase every chance they have. In the simulation, once the product each consumer purchases, if any, is identified, the quantities purchased, the consumer surplus, and the expenditures for each blemishing level are used to estimate market shares, consumer surplus, and total revenue for each blemishing level for each treatment.