key: cord-0908984-zoiw2n6d authors: Ferrín, Mónica title: Reassessing Gender Differences in COVID‐19 Risk Perception and Behavior date: 2022-02-04 journal: Soc Sci Q DOI: 10.1111/ssqu.13116 sha: d431040aa5df49275396094a79cf07a07804f089 doc_id: 908984 cord_uid: zoiw2n6d OBJECTIVE: This article reassesses the gender differences in COVID‐19 attitudes and behavior found in previous studies by examining to what extent the gender gap in the adoption of COVID‐19 preventive behaviors is dependent on women's and men's perceptions of risk. METHODS: The data utilized in this study were obtained from the “Understanding America Study Coronavirus in America (‘COVID’) Survey,” conducted by the Center for Economic and Social Research (CESR), at the University of Southern California. RESULT: This study shows that women are more risk averse than men, but that the gender gap in risk behavior depends on the level of risk that is associated with COVID‐19. CONCLUSION: Risk perception is a stronger driver of risk behavior for men than for women, who generally tend to adopt safe measures to protect themselves and others. Different messages should be delivered to women and men to increase compliance with norms. Governments throughout the world have reacted to COVID-19 by implementing different types of measures aimed at decreasing the rate of infection transmission (Porcher, 2020; Ratto et al., 2021) . Citizens' levels of compliance with these restrictive measures has varied (Lin et al., 2021) and in some contexts were highly modulated by ideology and political sympathies (Becher et al., 2021; Gonzalez et al., 2021; Wu and Huber, 2021) . One common finding cross-nationally is that there is greater compliance with the restrictive measures established as a consequence of the COVID-19 breakout among women than among men in real-time risks such as COVID-19: (a) women will perceive COVID-19 as riskier than men; (b) women will attribute less benefits to risky behaviors during COVID-19 than men; and (c) women will take less risks related to COVID-19 than men. Further, previous research has shown that there is a causal link between the risk perception related to COVID-19 and the willingness to comply with restrictive measures imposed by governments (Bruine de Bruin and Bennett, 2020; Wise et al., 2020) . A major assumption derived from this finding is that the observed gender gap in compliance during the pandemic is due to the fact that women perceive higher risks related to COVID than men. The scarce existing studies do point at mixed findings in this regard, however. In line with the assumption posed in the previous lines, Alsharawy et al. (2021) find that gender differences in COVID compliance disappear once perceptions of fear are controlled for, meaning that the gender gap in compliance with the norms is partly derived from women's higher risk perception associated with COVID-19. To the contrary, Stockemer et al. (2021) found that there are only slight gender differences in health risk perceptions associated with , and yet women are significantly more supportive of strict restrictive measures than men (see also Galasso et al., 2020) . In that case, the gender gap in compliance is not dependent on different assessments of risk by women and men. As shown above, most literature on risk-taking in the health domain tends to endorse the second view, namely, that women are more likely to care for themselves and adopt healthy habits than men. Women's risk behavior might be less dependent on the context (that is, for example, on how big the effective risk of infection is) than men, as women typically behave more safely than men even in the absence of risks. Hypothesis 2 thus expects that men's risk behavior will be more influenced by risk perception and expected benefit than women's. The data utilized in this study were obtained from the "Understanding America Study Coronavirus in America ('COVID') Survey," conducted by the Center for Economic and Social Research (CESR), at the University of South Carolina. The survey was launched on March 10 in all 50 of the U.S. states, and it is an ongoing tracking poll, which is re-fielded every two weeks, with invitation sent to one fourteenth of the respondents. This article uses five waves of the study of the representative sample for the whole of the United States, starting March 10 and ending June 8, 2020. List-wise deletion of observations with missing data on the independent variables was used (Allison, 2002) . Before dropping missing variables, the sample size was 22,388. The final sample size is 21,932 observations, for 5,142 interviewees from the United States (2,170 men and 2,972 women) who have been interviewed 4.23 times on average (unbalanced data). Table A .1 in the Supplementary Information presents descriptive data about the sample. The survey measures U.S. citizens' attitudes and behaviors toward the new COVID-19 and it fits the objectives of this study particularly well, as it includes measurements of risk-taking in relation to COVID-19; measurements of risk perception of COVID-19; and a set of measurements on the expected benefits of risk avoidance. To operationalize risk behavior related to COVID-19, a battery of items is used that asks respondents whether they have done any of the activities included on a list to avoid risks from COVID: "Which of the following have you done in the last seven days to keep yourself safe from coronavirus? Only consider actions that you took or decisions that you made personally." The question includes 13 actions, including wearing a facemask or cancelling a doctor's appointment (see Table 1 for the whole list). The original variables have been recoded so that they take value 0 if the respondent has done the action in the last seven days (the safe option), and value 1 if the respondent has not done the action (the risky option). The resulting variable is the count of the risky actions each respondent has done in the COVID context, a variable that ranges from 0 (if the respondent has done all the actions to protect him/herself, and therefore assumes the safest behavior) to 13 (if the respondent has not done any of the actions to protect him/herself, and therefore assumes the riskiest behavior). Cronbach's alpha of the scale of risk behavior is 0.82. Two alternative variables are used to operationalize the respondent's risk perceptions of COVID-19. A first variable measures the respondent's perceived risk of being infected with COVID-19: "On a scale of 0 to 100 percent, what is the chance that you will get the coronavirus in the next three months?" A second item captures the respondents' perceived risk of dying from COVID-19 if infected: "If you do get the coronavirus, what is the percent chance [on a scale of 0 to 100 percent] you will die from it?" The two original variables are used separately in the analyses, as they tap into different dimensions of risk. Pearson's correlation between the two is 0.31 (significant at p < 0.001). The following set of questions is used for the expected benefit of risk-taking: "How effective are the following actions for keeping you safe from coronavirus? Wearing a mask; Washing hands; Avoiding public events; Avoiding high-risk people; Avoiding restaurants; and Avoiding travelling" (five response categories, from extremely ineffective-value 0-to extremely effective-value 4; midpoint is "unsure"). The six items have been added to create a scale that takes value 0 if the respondent assesses all actions as extremely ineffective in protecting against COVID, and value 25 if the respondent assesses all actions as extremely effective in protecting against COVID. The resulting scale, therefore, is not an indicator of the expected benefits of taking risks, but a scale of perceived effectiveness of risk avoidance (Cronbach's alpha for the scale is 0.87). It is therefore expected that there is a negative relationship between the scale of risk avoidance and the scale of risk behavior. Corresponding with the theoretical expectations, sex is the main independent variable, a dichotomous variable that takes value 0 for male and 1 for female. In addition, a set of controls are introduced in the statistical models that are expected to influence risk behavior. Age and life period are generally related to different propensity to risk: While the youth are generally more willing to take risks, the propensity to engage in risky actions diminishes as people become old. This holds true in the COVID-19 context (Lin et al., 2021) . Age is included as a continuous variable that ranges from 18 to 101 years old. Levels of education are related to the capacity to obtain information, which in turn is related to better decision making and higher compliance with norms (Hermans et al., 2021) . A categorical variable accounts for education levels, distinguishing between respondents with less than a high school education (the reference category), a high school education, a college education, a bachelor's degree, or a master's or PhD. The family situation is also introduced, as a proxy for interpersonal relationships (Elder and Greene, 2021; Leiter et al., 2021) . Indeed, people who live alone might feel less pressure to protect themselves from COVID than people who live with their partner (a dichotomous variable that indicates whether the respondent lives with his/her partner-1-or not-0) or their children (a dichotomous variable that distinguishes between childless respondents-0-and respondents with children-1). Considering that COVID-19 might have influenced respondents' stress levels and that this is likely to affect their risk behavior (Obschonka et al., 2021) , mental distress is also accounted for, as a composite measure of the frequency (from not at all to nearly every day) respondents have been bothered by the following problems: feeling anxious, feeling depressed, feeling little interest, and feeling worried. The scale of mental distress takes value 0 if the respondent has not been affected by any of these problems, and value 12 if she has been affected by all these problems nearly every day (Cronbach's alpha of the scale of distress is 0.89). Ethnoracial identity (distinguishing between white-the reference category-black, American Indian/Alaska native, Asian, Hawaiian/Pacific, and Mixed) and labor situation (distinguishing between employed-the reference category-unemployed, retired, disabled, and other) are also used as controls. Finally, to account for the fact that COVID-19 has had a different impact both across the U.S. states and across time which is likely to affect citizens' risk perceptions and behaviors, two additional variables are included: the state of residence (a categorical variable that identifies each of the 50 states and the District of Columbia; the reference category is Alabama) and the date of the interview (introduced as a continuous variable, from March 10, 2020, to June 8, 2021). To test for the main hypotheses posed in this article, two empirical strategies are used. First, the article presents gender differences (percentages and means) and statistical significance tests (two-tailed) for the three components of risk (risk behavior, risk perception, and expected benefit). Second, to test for the stability of gender differences in risk behavior after controlling for additional variables, a set of statistical models are estimated using Stata 17. In particular, due to the panel structure of the data, five randomeffects models (with robust standard errors) are estimated that include all variables described in the previous sections. Apart from the panel nature of the data, random-effect modeling is especially suited for the purposes of this study, as it allows for time-invariant variables such as sex to play a role as explanatory variables (the Hausman test also supports the appropriateness of using random-effect modeling). The dependent variable is risk behavior, and the main independent variables are sex, risk perception, and the scale of expected effectiveness of risk avoidance. To test for Hypothesis 2 (the relationship between risk perception/benefit and risk behavior is stronger for men than for women), an interaction term has been introduced between risk perception (perceived risk of infection with COVID and perceived risk of death from COVID) and the scale of expected effectiveness of risk avoidance and sex. Main results are presented in the following section. Table 1 presents the percentage of respondents who avoided each of the 13 actions that compose the scale of risk behavior, and took risks. As can be seen in the table, except for one of the actions-"changed work travel"-males are significantly more likely to take risks than women (t test, two-tailed). Gender differences range from 2.58 percent (avoided public spaces) to almost 7 percent (cancelled a doctor's appointment). On average, women are significantly more likely to take safe actions than men: The mean is 5.66 for women and 6.08 for men (differences statistically significant at p < 0.000). Data from Table 1 are therefore in line with Hypothesis 1, confirming the higher propensity of men to take risks than women in the COVID-19 context. As for the other two components of risk, Table 2 presents means and standard deviations of the scale of perceived effectiveness of risk avoidance (and its constituents) and risk perceptions of COVID of women and men (two-tailed significance t test). As hypothesized, and even if there is a generalized belief that most measures are effective in protecting against COVID among respondents (the mean is above 3 for all measures, the "somewhat effective" response category), women's perceptions of effectiveness are significantly higher than men's (significant at p < 0.000). In other words, women tend to perceive the benefits of the safe option more than men do: The mean value for women on the scale of perceived efficacy of risk avoidance is 20.5 compared with men's 19.7 (difference is 0.78, statistically significant at p < 0.000). Table 2 also shows that there are differences between males and females in relation to risk perception. Women tend to perceive COVID as riskier than men, in relation to both risk of infection and risk of death. On average, women estimate they have around a 25 percent chance of being infected by COVID, while men estimate their chances at 22.6 percent. Similarly, females think they have greater chances of dying due to COVID (21.4 percent) than men (18.6 percent; differences statistically significant at p < 0.000). Confirming H1, in real-time risks, women tend to perceive greater risks than men; they perceive that the safe options are more effective than men do; and they take less risks than men. But are gender differences stable even after controlling for other potential contextual and individual characteristics that influence risk behavior? Table 3 presents the estimation results of five random-effects models, predicting risk behavior. For the sake of clarity, only the main variables of interest are retained in Table 3 , but complete results including all independent variables can be found in Table A.2 in the Supple-TABLE 3 Random-effects models with the scale of risk behavior as the dependent variable Robust standard errors in parentheses. Tests of significance are two-tailed. ***p < 0.01. ** p < 0.05. *p < 0.1. mentary Information. Models 1 and 2 in Table 3 show the effect of the components of risk (perceived risk and expected benefit) on the dependent variable (risk behavior), as well as the effect of sex and date of the interview. Models 3 to 5 in Table 3 introduce the interactive term between perceived risk or expected benefit and sex to test for potential gender differences in the relationship between the different components of risk. As a short summary, Table A .2 in the Supplementary Information suggests that the young, those with less education, white people, and respondents who have low levels of mental distress are more likely to take risks related to COVID than the old, the highly educated, non-white people, and respondents who suffer from high levels of mental distress. Importantly, in line with previous studies (Bruine de Bruin and Bennett, 2020; Wise et al., 2020) , risk behavior is affected by the two other components of risk: risk perception and expected benefits. The willingness to engage in risky actions decreases significantly the higher the perceived risk of infection with or death from COVID is, as shown by the negative and statistically significant coefficients in Table 3 . Confirming the different nature of the two risks-infection versus death-the magnitude of the coefficients is different, and the effect of the perceived risk of death is the strongest of the two. Accordingly, time is also negatively correlated to risk behavior: as people become aware of the risks involved with COVID, they are more Table 3) likely to protect themselves and avoid risky behavior. This notwithstanding, the correlation between time and risk perception is low (Pearson's correlation between time and perceived risk of infection is 0.004; between time and perceived risk of death is 0.05, significant at p < 0.01), which is an indication that risk perception is imperfectly related to the context but rather depends on individuals' interpretations of the content and context of risk. The other component of risk-the scale of perceived effectiveness of risk avoidance-is also negatively and significantly related to risk behavior: The more one believes that cautious attitudes are effective against COVID, the more likely it is that she will avoid risky behaviors. However, the main variable of interest in Table 3 is sex. Results confirm that even after controlling for other potential correlates of risk behavior, the coefficient of sex is negative and significant. Women are less likely to take risks than men are, including in real-time risk situations such as COVID-19. Tables 1 and 2 have shown that all components of risk are gender-biased, but including the risk components in the model does not cancel the effect of sex on risk behavior, which is strongly in favor of a differentiated effect of sex on risk attitudes. Table 3 further confirms H1 that there are gender differences in risk perception and risk behavior in real situations. H2 (men's risk behavior will be more strongly influenced by risk perception/expected benefit than women's) is partially confirmed in Table 3 , Models 3 to 5. On the one hand, the interaction term between perceived risk and sex is positive and significant (the coefficient for perceived risk of death is at the limit of significance, p = 0.106), which means that the effect of perceived risk on the dependent variable is different for women and for men (models 3 and 4 in Table 3 ). As predicted by Hypothesis 2, while men tend to behave and adopt risks in accordance to their perception of risks, women's risk behavior is less affected by their perceptions of risk. Put differently, the relationship between risk perception and risk behavior is stronger for men than for women. There are, however, no sex differences in the effect of the scale of perceived effectiveness of risk avoidance on the dependent variable (model 5 in Table 3 ). Risk perception is the variable that most conditions risk behavior of women and men. For ease of interpretation of the interactive term, Figure 1 shows the marginal effects of sex on the scale of risk avoidance for different levels of perception of risk of infection (left quadrant in Figure 1 , Model 3 in Table 3 ) and different levels of perception of risk of death (right quadrant in Figure 1 , Model 4 in Table 3 ). As can be seen in the two figures, the relationship between perception of risk and risk behavior is steeper for men than for women. With low perception of risk (less than 25 percent chances of being infected or dying), women are less likely to adopt risks than men are. Yet once perceptions of risk increase (above 25 percent), differences in risk-taking between women and men disappear. Risk perception is therefore a stronger driver of risk behavior for men than for women, who generally tend to adopt safe measures to protect themselves and others (as stereotyping would predict). This article provides further evidence of the gender gap in risk in context. Using evidence of Americans' risk behavior during the first two months of the COVID-19 pandemic, it shows that women are less likely than men to engage in risky behavior in real risk situations. Women's risk behavior, in addition, is less influenced than men's by the extent to which they perceive COVID-19 as a risk. Thus, women have stronger preferences than men for the safe option, even when the risks associated with COVID-19 are low. Findings from this article confirm, therefore, previous evidence in the COVID-19 context (e.g., Galasso et al., 2020) and advance our knowledge about the differentiated relationship between risk perception and risk behavior for women and men. An important implication of these findings is that different messages ought to be sent to foster women's and men's compliance in a context of risk such as COVID-19, taking into account that risk behavior tends to conform to gender stereotypes. 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