Regarding moderator variables in dilution studies, it has been shown that similarity between junior and senior brands’ product categories (Morrin & Jacoby, 2000; Pullig et al., 2006) and attributes (Pullig et al., 2006) attenuate dilution. Similarity is the level in which product category and attributes between junior and senior brand are perceived alike (Grime, Diamantopoulos, & Smith, 2002). Based on the ANM, if there is a high similarity between aspects of the junior and senior brands, these two information networks become more interconnected (Jacoby, 2001). When consumers think about the brand, the likelihood and speed of recovery of the initial associations may not suffer a reduction in memory, and may even increase, due to higher interconnected nodes (Humphreys, Tehan, O'Shea, & Bolland, 2000; Pullig et al., 2006). Moreover, minor or no modification of actual associations is expected when high similarity junior brands enter the market. Consequently, when similarity between the junior and senior brand increases, it is less likely to evidence a dilution of brand equity and a reduction of purchases. We propose the following hypotheses:H4a

An increase in similarity between the junior and senior brands attenuates dilution of brand equity.

Two focus groups formed by undergraduate men and women were completed to select the product categories and senior brands for the main study. Eight product categories were mentioned as the most often used in their daily lives: body soap, hair shampoo, deodorant, toothpaste, dental floss, notebook, pen, and carbonated soft drink. For each product category, tentative levels of involvement were identified with open questions about how relevant is for participants to make a correct selection of each product. In addition, several brands were identified for each product category. Then, a pretest involving 59 undergraduates was conducted in order to select: four product categories that differ in involvement using the Purchase Decision Involvement (PDI) scale (3 items; Mittal, 1995)2; brands most often used for each product category (senior brands); distinctive attributes3 and dissimilar product categories.4Table 1 summarizes the selections made for the main study, including proposed attributes for junior brands.5

An experimental between-subjects study was conducted to test the hypotheses. Two graphic designers prepared visual advertisements for senior, junior and unrelated brands. Junior brands used the same brand name as the senior brand, manipulating the level of category and attribute similarity (low versus high), following the design of Pullig et al. (2006). A total of 618 undergraduate students with an average of 7.3 semesters in Economics and Business programs from a large university in Ecuador were randomly assigned to 1 of the 20 experimental groups (Table 2). Each participant was told he or she would receive 5 U.S. dollars ($) to make purchases including at least three product categories. They were unaware that one of these products corresponded to the senior brand's product category in his or her experimental group.

First, the participants were shown the visual stimuli, i.e. senior or junior brand, and two additional advertisements about unrelated brands (Table 2). Then, a web-based questionnaire developed on Jotform® was applied, beginning with some demographic questions. Next, the participants were shown a list of products with three brands for each product, from which they had to make the purchase. Table 3 shows the price list of products available for purchase. It is worth mentioning that these prices were set according to market prices, and they allowed participants to buy even the most expensive brands of each required product within the budget constraint. The products selected were delivered to the participants one week after the purchase, including any change if they spent less than $5.

Purchase decision (PURCH) was operationalized with a dichotomous variable. The variable took the value of one when the participant bought the senior brand, and zero otherwise. After the purchase task, product involvement was checked using the PDI scale (Mittal, 1995). Then, participants were asked questions about brand equity of corresponding senior brands.6Yoo et al. (2000) proposed an overall measure of brand equity (OBE), i.e. the difference in consumer choice between the branded and unbranded product, through the intention to buy or the preference for the famous brand in comparison with a competing brand that shares all brand characteristics, except its brand name (4 items). Similarity (SIM) questions were asked for participants in the treatment conditions only, using Bhat and Reddy's (2001) scales about perceived product fit (2 items). All items relating to involvement, OBE and similarity were measured on seven point-Likert scales (Table 4). Items were translated by a professional translator from Ecuador, then checked by a Marketing professor for conceptual equivalence, as suggested by Douglas and Craig (2007), and finally back-translated to English by a professional translator from the United States. Both translators work for the Center for Foreign Languages (CELEX) of the Escuela Superior Politécnica del Litoral (ESPOL) in Guayaquil. The back-translated and original versions of the items showed a high level of coincidence.

After data collection, one questionnaire was removed because of incomplete responses and data from 617 participants were used (Female=60.5%; MeanAGE=20.98; SD=2.73), with group sample sizes ranging from 30 to 34. Hypotheses were tested using a structural equation model (SEM) in AMOS, with a dichotomous variable as dependent variable (PURCH). AMOS uses a probit model for categorical outcomes. The Bayesian analysis with the Markov Chain Montecarlo (MCMC) tool is needed when fitting the probit model in AMOS (Arbuckle, 2013). Exposure (EXPOS) to the junior brand was also represented with a dichotomous variable, which took the value of one when the participant was assigned to a treatment group, following Arbuckle (2013) and Bagozzi and Yi's (1989) suggestions for SEM. A two groups approach was conducted in order to test the moderator effect of involvement (low versus high). Since similarity between senior and junior brands could only be measured for treatment groups, its items were included as interaction terms, taking the value of zero for each observation belonging to control groups. For this reason, the covariance between exposure and similarity was not set to zero, but freed.

The information about the dependent variable, purchase decision, was collected with a different method (purchase order) than the one used for independent variables (Likert scale items), in order to avoid common-method variance issues, as suggested by Podsakoff, MacKenzie, Lee, and Podsakoff (2003). On the other hand, checking for the manipulation of product involvement showed significant differences (ANOVA one way FBRAND=32.353; p-value=0.000), with two levels of involvement: Colgate and Rexona together (X¯PDI_toothpaste=16.78; X¯PDI_deodorant=17.56; pTukeyHSD=0.195), and Coca-Cola and BIC together (X¯PDI_pen=14.16; X¯PDI_softdrink=14.91; pTukeyHSD=0.220). There was no statistically significant difference among most of the similarity levels. Thus, similarity was not used as a categorical variable to separate the sample in groups; however, it was used as an interval variable.

Similarity and overall brand equity are the two latent constructs that were used to establish paths in the structural model, so the measurement model includes only these two constructs. The other variables are exposure to junior brand (dichotomous), purchase decision (dichotomous) and involvement (used forward for a multi-group analysis). Measurement model fit was not assessed with Chi-Square, since this statistic tends to reject models with large sample sizes (>200) (Hair, Black, Babin, & Anderson, 2010). Checking other set of indicators, the level of fit is adequate (CMIN/df=4.822; GFI=0.977; AGFI=0.947; CFI=0.982; RMSEA=0.079). Construct reliability was assessed with composite reliability (CR), showing levels above the suggested threshold of 0.70 (Hair et al., 2010) for the two constructs (Table 3). Average Variance Extracted (AVE) by the latent constructs exceed 0.50, showing convergent validity (Fornell & Larcker, 1981). A low correlation between the constructs (ρSIM,OBE=0.112) ensures discriminant validity.

Fig. 2 illustrates the results of the empirical model tested in AMOS. A negative coefficient for EXPOS (βEXPOS) represents a dilutive effect of JB on the dependent variable, independent of its similarity to SB. A coefficient for SIM (βSIM), different from zero, multiplied by the similarity level should add to the coefficient of EXPOS in order to estimate the net effect of JB on the dependent variable (βEXPOS*1+βSIM*SIM). For example, let SIMH and SIML denote high and low levels of similarity between JB and SB, respectively. A negative coefficient for EXPOS and SIM means that dilution is more severe when similarity increases: |βEXPOS*1+βSIM*SIMH|>|βEXPOS*1+βSIM*SIML|. On the other hand, a negative coefficient for EXPOS and a positive coefficient for SIM means that dilution is alleviated when similarity increases: |βEXPOS*1+βSIM*SIMH|<|βEXPOS*1+βSIM*SIML|. For consumers exposed to senior brands only, EXPOS and SIM take the value of zero and, consequently, no effect is expected on the dependent variable: βEXPOS*0+βSIM*0=0.

Figure 2.

Empirical model. Notes: estimates for total sample; Involvement was used for a multi group analysis; ---: 95% C.I. includes zero; →: 95% C.I. does not include zero.

(0.06MB).

As explained previously, purchase decision is operationalized with a two-category variable. If variables are dichotomous, it is necessary to impose additional parameter constraints in order to make the model identified (Arbuckle, 2013). If the two-category variable is endogenous, as is the case with purchase decision, the MCMC algorithm performs best when the variable's error variance is fixed at a constant (Arbuckle, 2013). Therefore, variance for PURCH's error was fixed at 1. Since a probit model is tested, the regression weights towards PURCH are interpreted as effects of one unit change in corresponding independent variables on the probability that the consumer purchases the senior brand. MCMC output for the probit model is showed in Table 5.

Exposure to the junior brand dilutes OBE (βEXPOS=−0.901; C.I.95%: −1.267, −0.539), moderated by similarity (βSIM=0.206; C.I.95%: 0.119, 0.296), while OBE relates positively to purchase decision (βOBE=0.109; C.I.95%: 0.05, 0.169). 95% credible intervals for the coefficients from EXPOS and SIM to PURCH include the zero value. Table 6 presents an analysis of direct and indirect effects with 95% credible intervals. There are direct effects from EXPOS to OBE and from OBE to PURCH. EXPOS exert only an indirect effect on PURCH, which means that there is full mediation of OBE. There is, also, a moderated mediation effect: SIM operates in the relationship between the independent variable (EXPOS) and the mediator (OBE).

The signs of path coefficients are the same in both involvement conditions and there are no significant differences between path coefficients of the two groups. Further analysis shows that, in low involvement conditions, there is a medium effect size, while in high involvement conditions, there is a small effect size over PURCH, according to Cohen (1992) thresholds (Table 7). Finally, all C.I. for factor loadings exclude zero.