Introduction

Pornography use is not only prevalent among adults (Bőthe et al., 2018; Grubbs et al., 2019a, b, c, 2020; Herbenick et al., 2020; Lewczuk et al., 2020), but among adolescents as well (Bőthe et al., 2019; Owens et al., 2012; Peter & Valkenburg, 2016; Price et al., 2016). Based on data from nationally representative and large-scale adolescent studies from the US, Canada, and Europe (Bőthe et al., 2020b; Lobe et al., 2011; Wolak et al., 2007; Wright et al., 2020), 63 to 68% of adolescents reported lifetime, and 23 to 42% reported past-year pornography use. Since the beginning of the COVID-19 pandemic, an increase in pornography use has been documented among adults and adolescents as well in cross-sectional studies (Lehmiller et al., 2020; Li et al., 2020a, b; Nelson et al., 2020; Zattoni et al., 2020), raising questions about potential adverse health consequences (Mestre-Bach et al., 2020), such as problematic pornography use (PPU; repetitive, uncontrollable pornography use causing significant distress and functional impairment; Bőthe et al., 2020b; Kraus et al., 2018).

The COVID-19 pandemic and associated social distancing and national lockdown measures have led to adolescents’ elevated levels of stress and negative emotions (Duan et al., 2020; Ellis et al., 2020; Fegert et al., 2020; Racine et al., 2020; Wang et al., 2020; World Health Organization, 2020). Previous studies showed that using pornography to cope with distressing emotions (e.g., emotional avoidance) was associated with higher levels of PPU (Bőthe et al., 2021a, 2021c; Wéry & Billieux, 2016). Thus, adolescents might use pornography more frequently to cope with their COVID-19-related negative feelings, which might also be associated with higher levels of PPU (Bőthe et al., 2021a; Wéry & Billieux, 2016). Thus, the aim of the present study was to examine the potential role of the COVID-19 pandemic in adolescents’ pornography use. Specifically, we examined longitudinal changes in adolescents’ pornography use frequency, pornography use motivations, and PPU before and during the COVID-19 pandemic.

COVID-19 Pandemic and a Potential Increase in Pornography Use

In March 2020, the World Health Organization declared the COVID-19 outbreak a global pandemic (World Health Organization, 2020). The health risk and related restrictions (e.g., lockdown, social distancing, quarantine, school closures) generated a unique and unprecedented situation, resulting in increased stress levels and potential mental health issues among adults and adolescents (Duan et al., 2020; Ellis et al., 2020; Fegert et al., 2020; Islam et al., 2020; Mazza et al., 2020; Racine et al., 2020; Salari et al., 2020; Wang et al., 2020; World Health Organization, 2020). As adolescence is a time of transition toward adulthood with an increased need for autonomy (McElhaney et al., 2009) and a greater reliance on peers for social support (Smetana et al., 2006), the potential effects of restrictions and related stress may be heightened among this group (Findlay & Arim, 2020; Racine et al., 2020).

The COVID-19-related restrictions have also resulted in more time spent at home and were expected to lead to more intense engagement in online activities (Guessoum et al., 2020). Indeed, an increase in online and screen-based activities among adolescents has been documented in the literature, including more frequent internet use, social media use, and pornography use (Duan et al., 2020; Ellis et al., 2020; Munasinghe et al., 2020; Nelson et al., 2020). Preliminary findings based on retrospective self-report (e.g., whether they watched less, more, or the same amount of pornography since the pandemic) suggest that 5 to 23% of adolescents and young adults aged between 14 and 35 years reported an increase in their pornography use since the beginning of the pandemic (Li et al., 2020a, b; Nelson et al., 2020). Moreover, an increase has been reported in the frequency of engaging in online sexual activities (including pornography) in adolescent boys, but not girls, during the COVID-19 confinements in Spain. Among the reasons for the increase, adolescents mentioned using online sexual activities to alleviate boredom, relax, or satisfy sexual needs (Nebot-Garcia et al., 2020). However, no prior study has directly examined changes in pornography use before and during the pandemic among adolescents, using longitudinal data.

To the best of the authors’ knowledge, only one study reported changes in pornography use before and during the COVID-19 pandemic in adults using longitudinal data (Grubbs et al., 2021). Following a large nationally representative sample of US adults (baseline N = 2500) between August 2019 and October 2020, the study documented potential changes in pornography use frequency and PPU, considering psychological distress, and potential gender differences. Findings suggest that pornography use frequency decreased in the examined 15 months in men and women as well, while PPU slightly decreased in men and remained low and stable in women. Nevertheless, it is important to note that a spike in pornography use frequency was observed in May 2020, when 14% of the participants reported an increase in their pornography use. Still, 66% of the participants did not report any changes, and 20% reported decreased pornography use at that time (Grubbs et al., 2021).

Pornography Use Frequency, Pornography Use Motivations, and Problematic Pornography Use among Adolescents

On average, adolescents who use pornography reported viewing it once a week or more in the past three or six months (Bőthe et al., 2020a, b; Rousseau et al., 2021). Important gender and sexual orientation-based differences were observed, as boys reported weekly or more frequent pornography use, whereas girls reported monthly or less frequent pornography use. Moreover, while heterosexual and sexually diverse boys’ pornography use characteristics were similar, sexually diverse girls used pornography more frequently (once a month) than their heterosexual peers (less than once a month) (Bőthe et al., 2020b). Although a high ratio of adolescents in industrialized countries use pornography and use it relatively frequently, most of them appear to engage in pornography use without reporting any negative impact on their lives or related distress (Efrati, 2020; Kohut & Štulhofer, 2018; Štulhofer et al., 2020). Nevertheless, 5 to 14% of adolescents who have used pornography before report excessive, compulsive, or problematic use of pornography, with boys reporting higher levels of PPU than girls in general (Bőthe et al., 2021d; Efrati & Dannon, 2019; Efrati & Gola, 2018; Pizzol et al., 2016; Štulhofer et al., 2020; Svedin et al., 2011).

Yet, it is important to note that pornography use in general, or even frequent pornography use, may not be considered problematic in itself (Bőthe et al., 2020a, b; Grubbs et al., 2019a, b, c; Kraus & Sweeney, 2019; Vaillancourt-Morel et al., 2017). Motivations underlying pornography use, such as coping with negative emotions (Bőthe et al., 2021d), and out-of-control or compulsive use (i.e., PPU; Bőthe et al., 2018; Kraus et al., 2020) should also be considered when examining pornography use characteristics in adolescents, as the context of pornography use (e.g., pornography use motivations) may also play an essential role in favorable and less optimal outcomes (Bőthe et al., 2021a, 2021c; Campbell & Kohut, 2017).

Several motivations may underlie one’s pornography use (Bőthe et al., 2019, 2021a, 2021c; Reid et al., 2011; Romito & Beltramini, 2011; Ševčíková & Daneback, 2014; Wéry & Billieux, 2016), including sexual pleasure (i.e., to increase sexual arousal or help masturbation), sexual curiosity (i.e., to seek information and learn about sexuality), emotional distraction and suppression (i.e., to cope with negative emotions), stress reduction (i.e., to reduce stress), boredom avoidance (i.e., to reduce boredom), fantasy (i.e., to escape from the real world and fantasize about being part of pornography), lack of sexual satisfaction (i.e., as a result of not being satisfied with or missing something from one’s sexual life), and self-exploration (i.e., to identify one’s sexual needs and preferences). Although sexual pleasure is the most common motivation for pornography use in adults and adolescents as well (Bőthe et al., 2019; Grubbs et al., 2019a, b, c), pornography is also often used to alleviate boredom or cope with negative emotions or stress (Bőthe et al., 2019, 2021a; Grubbs et al., 2019a, b, c; Reid et al., 2011; Wéry & Billieux, 2016). Thus, given reported increases in stress and potential mental health issues among adolescents since the beginning of the COVID-19 pandemic (Duan et al., 2020; Ellis et al., 2020; Fegert et al., 2020; Racine et al., 2020) and preliminary cross-sectional findings (Nebot-Garcia et al., 2020), it may be assumed that coping-related pornography use motivations might have increased during the pandemic.

Moreover, a recent longitudinal study in adolescent boys (aged between 14 and 18 years) showed that adolescents’ higher levels of depressive and anxiety symptoms were associated with their higher levels of PPU (Rousseau et al., 2021). Therefore, it may be assumed that as adolescents may experience greater psychological distress during the COVID-19 pandemic (Duan et al., 2020; Ellis et al., 2020; Fegert et al., 2020; Racine et al., 2020), they may also experience higher levels of PPU.

Aims of the Present Study

Given that prior studies assessed the subjective perception of changes in adolescents’ pornography use via retrospective self-report, and not actual changes in use before and during the pandemic (Li et al., 2020a, b; Nebot-Garcia et al., 2020; Nelson et al., 2020), the aim of the present study was to document longitudinal changes in adolescents’ pornography use frequency, pornography use motivations, and PPU before and during the COVID-19 pandemic. We hypothesized that adolescents might report higher levels of pornography use frequency, greater emotional distraction and suppression, boredom avoidance, and stress reduction pornography use motivations, and higher levels of PPU over time. As important differences between boys and girls’ pornography use have been documented in the literature (Bőthe et al., 2019, 2021a, d; Peter & Valkenburg, 2016), we examined potential changes in pornography use separately by gender.

As selective attrition may be present in longitudinal studies examining pornography use among adolescents, and vulnerable adolescents may be more prone to drop out from longitudinal studies, we included family environment, sexual orientation, and age at first pornography use as control variables in our longitudinal analyses (Štulhofer et al., 2021). Given that pornography use most often occurs in conjunction with masturbation, and recently, researchers have emphasized the importance of ruling out the role of this potential third variable when examining pornography use (Perry, 2019; Prause, 2019), we controlled for masturbation frequency as well. Lastly, similarly to previous longitudinal work on pornography use changes during the COVID-19 pandemic (Grubbs et al., 2021), psychological distress (i.e., COVID-19-related stress) was also accounted for in the analyses. Nevertheless, considering recent calls highlighting shortcomings of using control variables in pornography use studies (Wright, 2021), we reported our findings with and without the inclusion of control variables for full transparency.

Method

Participants

The baseline (T1) sample consisted of 1771 adolescents (Mage = 15.42 years, SD = 0.59, age range: 14 to 18 years old), including participants who completed the survey before the COVID-19 pandemic. As for gender identity, 51.9% identified as boy (n = 608), 47.6% identified as girl (n = 557), 0.3% identified as non-binary, gender fluid or something else (e.g., genderqueer; n = 4), and 0.2% identified with another cultural gender minority identity (e.g., two-spirit) (n = 2). The majority of participants reported being heterosexual (85.7%; n = 1004), 4.1% of the participants reported questioning their sexual orientation (n = 48), 3.0% reported being bisexual (n = 35), 1.5% pansexual (n = 17), 1.1% heteroflexible (n = 13), 0.9% gay or lesbian (n = 10), 0.1% queer (n = 1), 0.1% asexual (n = 1), 0.1% homoflexible (n = 1), 2.2% selected the “none of the above” answer option (n = 26), and 0.9% did not want to answer this question (n = 11).

The follow-up (T2) sample consisted of 899 adolescents (Mage = 16.43 years, SD = 0.55, age range: 15 to 18 years old), including participants who completed the survey during the COVID-19 pandemic. As for gender identity, 48.3% identified as boy (n = 434), 50.8% identified as girl (n = 457), 0.7% identified as non-binary, gender fluid or something else (e.g., genderqueer; n = 6), 0.1% identified with another cultural gender minority identity (e.g., two-spirit) (n = 1), and 0.1% selected the “other” answer option (n = 1). The majority of participants reported being heterosexual (83.9%; n = 754), 4.8% reported being bisexual (n = 43), 4.1% of the participants reported questioning their sexual orientation (n = 4837), 1.7% pansexual (n = 15), 1.2% heteroflexible (n = 11), 1.6% gay or lesbian (n = 14), 0.3% queer (n = 3), 0.1% asexual (n = 1), 0.1% homoflexible (n = 1), 1.0% selected the “none of the above” answer option (n = 9), and 1.1% did not want to answer this question (n = 10).

Procedure

Data were collected during the second and third waves of a large, ongoing bi-center Canadian longitudinal study on adolescents’ sexual health that began in 2018 (all measures assessed in the larger project can be found at https://osf.io/gy9wp/?view_only=d862f3ceb79a447a946513267839c75f). Participants from different socioeconomic backgrounds, and Caucasian and multi-ethnic populations attending tenth grade were recruited through their high schools from large metropolitan and rural areas. Out of the 23 schools that completed the first data collection wave, ten participated in the second data collection wave before the COVID-19 pandemic, and in the one-year follow-up. As the variables used in the present study were only assessed at the second and third data collection waves, we will refer to these data collection points as Time 1 (baseline, T1) and Time 2 (follow-up, T2) in the following sections of the paper.

Baseline (T1) data collection took place between November 2019 and March 11, 2020 (i.e., before the COVID-19 pandemic), while the one-year follow-up (T2) data collection took place between October 2020 and June 2021 (i.e., during the COVID-19 pandemic). Although schools were closed in the province of Quebec (Canada) in the spring of 2020, they reopened in September 2020, and all participating high schools agreed to an in-class data collection. In line with recommended COVID-19 safety measures, our team modified the study procedure. Namely, we developed mitigation strategies, including a medical form that needed to be completed by research assistants before data collection, the use of face covers, hand-washing, and disinfection of all materials between data collection in different classes (e.g., electronic tablets).

During the T1 data collection, 1215 students were approached, and a participation rate of 99.1% was reached (10 students refused to participate, and one withdrew from the study). Out of the 1204 participants who agreed to participate, 31 participants were excluded because they failed at least two out of the three attention-testing questions. Two participants were excluded because of inconsistent response patterns, resulting in a final sample of 1171 participants in T1. During the T2 data collection, 1149 students were approached, and a participation rate of 98.3% was reached (20 students refused to participate). Out of the 1129 participants who agreed to participate, 272 students’ T1 and T2 data could not be matched (either as a result of failing the attention testing questions or non-matching IDs), resulting in a final sample of 899 participants in T2.

To complete the online self-reported survey through the secure platform Qualtrics Research Suite, two trained research assistants visited each class, presented the aims of the study, and distributed electronic tablets to all participants, who provided informed consent before completing the survey.Footnote 1 Three additional attention-testing questions were also embedded in the survey. If students failed at least two out of these questions, their data were considered invalid (Thomas & Clifford, 2017). At the end of the 30 to 45-min survey completion, a CDN$10 gift card was given as compensation. Ethical approval was granted by the ethics committee of the two related universities and the relevant school boards, and the study was carried out under the Declaration of Helsinki.

Measures

Gender

Gender was measured using the following question (Bauer et al., 2017): “What gender or gender identity do you identify with?” The answer options were masculine/boy; feminine/girl; other cultural gender minority identity (e.g., two-spirit); non-binary, gender fluid or something else (e.g., genderqueer); and other (with specification). To increase the statistical power and simplify the analysis, we created three groups based on gender reported in T1 data collection: those adolescents who reported being masculine/boy (n = 608; 51.9%) were included in the boys group, those who reported being feminine/girl (n = 557, 47.6%) were included in the girls group, and those who reported being other cultural gender minority identity (e.g., two-spirit); non-binary, gender fluid or something else (e.g., genderqueer); or chose the “other” answer option (n = 6, 0.5%) were included in the non-binary adolescents group.Footnote 2

Sexual Orientation

Sexual orientation was measured with one item based on prior recommendations (Weinrich, 2014): “People describe their sexual orientation in different ways. Which expression best describes your current sexual orientation? If no expression describes you, check “None of the above” and write the answer that describes you personally.”; answer options were straight; I do not know yet, or I am currently questioning my sexual orientation; gay or lesbian or homosexual; heteroflexible; homoflexible; bisexual; queer; pansexual; asexual; none of the above; I don’t want to answer; other (with specification).

To simplify the statistical analysis and increase statistical power, we created two groups based on sexual orientation reported in T1 data collection: Those adolescents who reported being heterosexual (n = 1004, 85.7%) were included in the heterosexual group; those who were questioning their sexual orientation; were gay or lesbian; heteroflexible; homoflexible; bisexual; queer; pansexual; or chose the “none of the above” option (n = 154, 13.2%) were included in the sexually diverse group, and 13 adolescents (1.1%) did not report their sexual orientation and thus were not included in either group.

Family Environment

Adolescents’ family environment was measured with one item: “Who do you live with most of the time?”; answer options were with my mother and my father; with my two mothers; with my two fathers; with my mother only; with my mother and her partner; with my father only; with my father and his partner; as much with one parent as with the other; other (guardian, family or foster home, alone, with a roommate, etc.) (with specification). To simplify the statistical analysis and increase statistical power, we created two groups based on family environment reported in T1 data collection: Those adolescents who reported living with their mother and father; their two mothers; or their two fathers (n = 840, 71.7%) were included in the living with both parents group; and those who reported living with their mother only; their mother and her partner; their father only; their father and his partner; living as much with one parent as with the other; or other (guardian, family or foster home, alone, with a roommate, etc.) option (n = 331, 28.3%) were included in the other living situation group.

Masturbation Frequency

Before answering any masturbation-related questions, participants read the following definition: “For the following questions, “masturbation” refers to seeking sexual pleasure by self-stimulation of the genitals (i.e., by oneself), either by manual caresses, sex toys, rubbing, pressure or any other technique. Masturbation may or may not lead to an orgasm.”. First, adolescents were asked about lifetime masturbation: “Do you masturbate?” (0 = no; 1 = yes). For those who answered “yes,” the frequency of masturbation in the past three months was assessed through the following question: “On average, over the past three months, how often did you masturbate?”. Participants indicated their responses on an eight-point scale (1 = not once in the past three months; 8 = more than once a day). Based on the lifetime masturbation and frequency of masturbation variables, we computed a new masturbation frequency score for T1 and T2 as well. We recoded the responses of those adolescents who indicated that they had not masturbated before (i.e., answering “no” to the lifetime masturbation question; T1: n = 348, 29.7%; T2: n = 227, 19.4%) to represent “never” in the masturbation frequency question. We used the new masturbation frequency variables in further analyses.

Age at First Pornography Use

Before answering any questions related to pornography use, participants read the following definition (Kohut et al., 2018, 2020): “For the following questions, the term ‘pornography’ is used to refer to intentionally looking at or listening to (1) pictures or videos of nude individuals, (2) pictures or videos in which people are having sexual activities.” First, adolescents answered one question about their lifetime pornography use (“Have you ever watched pornography in your life?”; 0 = no; 1 = yes). If they had viewed pornography in their lifetime, they were asked to report their age at first use (“How old were you the first time you watched pornography?”).

Pornography Use Frequency

Past three months pornography use frequency was assessed with one item, using an eight-point scale: “On average in the last three months, how many times did you watch pornography?; 0 = never; 7 = many times per day.” Based on the responses to the lifetime pornography use and frequency of pornography use variables, we computed a new pornography use frequency variable for T1 and T2 as well. We recoded the responses of those adolescents who indicated that they had not used pornography previously (i.e., answering “no” to the lifetime pornography use question; T1: n = 333, 28.4%; T2: n = 234, 20.0%) to represent “never” in the pornography use frequency question. We used the new pornography use frequency variables in further analyses.

Pornography Use Motivations

To assess the motivations underlying participants’ pornography use in T1 and T2 as well, we used the short, eight-item version of the Pornography Use Motivations Scale (PUMS; Bőthe et al., 2021a) and adapted it to the adolescent population. Each item represented one motivation: sexual pleasure (“I watch porn because it makes masturbation easier”), sexual curiosity (“I watch porn to learn new things”), fantasy (“I watch porn because it provides such an experience that would be impossible in real life”), lack of sexual satisfaction (“I watch porn because I am not content with my sexual life”), boredom avoidance (“I watch porn because I want to pass time when I am bored”), emotional distraction and suppression (“I watch porn because it makes me forget my problems”), stress reduction (“I watch porn because it calms me down”), and self-exploration (“I watch porn because I can find out what turns me on”). Participants indicated their answers on a seven-point scale (1 = never; 7 = all the time). Only participants who reported lifetime pornography use could complete the PUMS. Those participants’ naturally “missing” answers who did not use pornography in their life (T1: n = 333, 28.4%; T2: n = 234, 20.0%) were recoded as “never” on all PUMS’ items for further analyses.

Problematic Pornography Use

Participants’ PPU was measured in T1 and T2 as well using the short, six-item version of the Problematic Pornography Consumption Scale (Bőthe et al., 2021b), which has been adapted for adolescents (PPCS-6-A; Bőthe et al., 2021d). The PPCS-6-A assesses PPU with six items regarding the past six months (e.g., “When I promise myself not to watch porn anymore, I can only stop for a short time”). Each item represents one component of Griffiths’ six-component model of addiction (i.e., salience, tolerance, mood modification, relapse, withdrawal, and conflict; Bőthe et al., 2018; Griffiths, 2005). Adolescents indicated their answers on a seven-point scale (1 = never; 7 = all the time); higher scores indicate higher levels of PPU. The scale demonstrated good reliability in the present study (α_T1 = 0.81, α_T2 = 0.83). Only participants who reported lifetime pornography use could complete the PPCS-6-A. Those participants’ naturally “missing” answers who did not use pornography in their life (T1: n = 333, 28.4%; T2: n = 234, 20.0%) were recoded as “never” on all PPCS-6-A’s items for further analyses.

COVID-19-Related Stress

We used one question to assess COVID-19-related stress in T2: “How would you rate the amount of stress in your life related to COVID-19?” Participants indicated their answers on a six-point scale (1 = no stress; 6 = extreme stress).

Statistical Analyses

Descriptive Analyses and Attrition Analyses

Descriptive statistics, Cronbach’s alphas, normality indices (i.e., skewness and kurtosis values), correlations, and attrition analysis were computed in SPSS 25. In the attrition analysis, two groups (adolescents who completed the T2 survey vs. who did not complete the T2 survey) were compared in their T1 sociodemographic characteristics (i.e., gender, sexual orientation, family environment), age at first pornography use, levels of pornography use frequency, pornography use motivations, and PPU, using chi-square, independent samples t tests, and Mann–Whitney U tests (in cases when the assumptions of independent samples t tests were not met). To increase statistical power, in all analyses when the role of gender, sexual orientation, and family environment were examined, we used dichotomized variables based on T1 data (gender: 0 = boys, 1 = girlsFootnote 3; sexual orientation: 0 = heterosexual, 1 = sexually diverse; family environment: 0 = living with both parents, 1 = other living situation).

Model Estimation

Analyses focusing on examining change over time were conducted using Mplus 8.2 (Muthén & Muthén, 2018). First, we examined the psychometric properties of the multi-item measure of PPU and tested its measurement invariance over time (Millsap, 2011) to obtain longitudinally invariant factor scores for the main analyses. Relying on factor scores (instead of more traditional averaged or summed scores) was based on the fact that factor scores are better at preserving the measurement properties of the scales (i.e., invariance; Morin et al., 2016) and maintaining some level of control for unreliability (Skrondal & Laake, 2001). For these preliminary analyses, we used Mplus’ robust weight least square estimator with mean and variance adjusted statistics (WLSMV) as this estimator is designed to handle ordinal rating scales following asymmetric response thresholds (Finney & DiStefano, 2013; Morin et al., 2019).

Specification

The longitudinal measurement invariance models underpinning PPU were estimated using a confirmatory factor analytic (CFA) approach in which items were loaded on their latent factor. These tests of measurement invariance were conducted in the following sequence (Millsap, 2011): (1) configural invariance (i.e., the same factor structure); (2) weak invariance (i.e., invariance of factor loadings); (3) strong invariance (i.e., invariance of factor loadings and thresholds); and (4) strict invariance (i.e., the invariance of factor loadings, thresholds, and uniquenesses). Due to the nature of the latent change model, in which the factor means and variances need to be freely estimated in order to be able to detect change over time, we pursued tests of measurement invariance up to the level of strict measurement invariance, which allowed the free estimation of these parameters while, at the same time, ascertaining stable measurement. A priori correlated uniquenesses were added between matching indicators over time to avoid inflated stability estimates (Marsh, 2007). Finally, given the theoretical and empirical distinctiveness of boys and girls’ pornography use characteristics, we estimated all models separately for boys and girls.

Model Fit

Common goodness-of-fit indices were used to assess the adequacy of the measurement models (Marsh et al., 2005): the comparative fit index (CFI), the Tucker-Lewis Index (TLI), and the root-mean-square error of approximation (RMSEA). CFA and TLI are considered good or excellent when values are higher than 0.90 and 0.95, respectively. In contrast, RMSEA is considered good or excellent when values are smaller than 0.08 and 0.06, respectively. The chi-square test (χ2) is also reported for the sake of transparency, but it is not considered in model evaluations as this indicator is oversensitive to high sample size and minor model misspecification (Marsh et al., 2005). In the context of measurement invariance, the focus is on the relative changes (Δ) in the fit indices: a ∆CFI of 0.010 or less, a ∆TLI of 0.010 or less, and a ∆RMSEA of 0.015 or less suggests that invariance has been achieved (Chen, 2007; Cheung & Rensvold, 2002). Model-based composite reliability indices (McDonald, 1970; Morin et al., 2019) were also calculated using the standardized factor loadings and the error variances associated with the items.

Longitudinal Latent Change Analyses

Longitudinal latent change analyses (McArdle, 2008) were realized to assess changes in pornography use frequency, pornography use motivations, and PPU over time using Mplus’ robust maximum likelihood (MLR) estimator. Latent change models allowed us to disaggregate the repeated measures into their initial levels (the T1 scores) and a latent change factor representing change (growth, decline, or stability) occurring between T1 and T2. These models were specified by (e.g., Tóth-Király et al., 2020): (1) regressing the T2 scores on the T1 score and fixing this regression path to be exactly 1; (2) estimating latent change factors defined by the T2 score and fixing the factor loading of this score on the latent change factor to be exactly 1; (3) fixing the intercept and residual of the T2 scores to be exactly zero in order to freely estimate the means and variances of the latent change factors; and (4) allowing the initial level to freely correlate with the latent change factors. Given that this latent change model is just identified (as in multivariate regressions), model fit was necessarily perfect and will not be reported. Separate latent change models were estimated for all three sets of variables (i.e., pornography use frequency, pornography use motivations, and PPU) for boys and girls. In addition, we examined change without and with the inclusion of controls (i.e., sexual orientation, family environment, masturbation frequency, age at first pornography use, and COVID-19-related stress), which were simply regressed on the T1 and latent change scores. The de-identified data and analyses materials used in the present study can be obtained from https://osf.io/849hz/?view_only=7d632791efa44755b4f913b14c869710.

Results

Attrition Analysis

Out of the 1171 participants who completed the T1 data collection wave, 899 (76.8%) participated in the T2 data collection (Table 1). When comparing the sociodemographic, masturbation, and pornography use-related characteristics of those adolescents who completed vs. did not complete the T2 data collection, no significant differences were observed between these groups regarding their baseline (T1) sexual orientation, masturbation frequency, pornography use frequency, all pornography use motivations (except for lack of sexual satisfaction motivation), and PPU levels (all ps > 0.063). However, a higher ratio of the adolescents who did not complete the follow-up survey (T2) were boys (completed the T2 survey: 49.4% vs. did not complete the T2 survey: 60.3%; p = 0.001) and did not live with both parents (completed the T2 survey: 26.8% vs. did not complete the T2 survey: 33.1%; p = 0.044), supporting these variables’ inclusion in further analyses. Adolescents who did not complete the follow-up survey (T2) also started to watch pornography from a younger age (completed the T2 survey: M = 12.44, SD = 1.76; vs. did not complete the survey: M = 12.12, SD = 1.94, p = 0.033); and had higher lack of sexual satisfaction pornography use motivations (completed the T2 survey: M = 1.87, SD = 1.49; vs. did not complete the survey: M = 2.23, SD = 1.70, p = 0.001) at baseline (T1).

Table 1 Descriptive statistics and comparisons of participants who completed vs. did not complete the follow-up (Time 2) measures in their baseline (Time 1) characteristics

Longitudinal Measurement Invariance

The goodness-of-fit results associated with the measurement models are reported in Table S1. These results indicate that all of these measurement models resulted in an adequate level of fit to the data (all CFI/TLI ≥ 0.90 and all RMSEA ≤ 0.06) and appeared to be fully invariant over time (∆CFI and ∆TLI ≤ 0.01; ∆RMSEA ≤ 0.015). Parameter estimates from the strict invariant models are reported in Table S2 and reveal that all PPU factors were well defined and reliable across time points both for boys (Time 1: λ = 0.71 to 0.84, M = 0.78; ω = 0.90; Time 2: λ = 0.75 to 0.87, M = 0.82; ω = 0.92) and girls (Time 1: λ = 0.85 to 0.91, M = 0.87; ω = 0.95; Time 2: λ = 0.81 to 0.88, M = 0.84; ω = 0.93).

Longitudinal Changes in Adolescents’ Pornography Use Characteristics Before and During the COVID-19 Pandemic by Gender

Descriptive statistics and bivariate associations between sociodemographic characteristics (i.e., gender, sexual orientation, family environment), masturbation frequency, pornography use frequency, pornography use motivations, PPU, and COVID-19-related stress in T1 and T2 are shown in Table 2 and Table 3. The results from the latent change models are reported in Table 4 for boys and Table 5 for girls.Footnote 4

Table 2 Associations between sociodemographic characteristics, pornography use frequency, pornography use motivations, problematic pornography use, masturbation frequency, and covid-19-related stress in baseline (Time 1) and one-year follow-up (Time 2) data collections
Table 3 Descriptive statistics of participants’ pornography use frequency, pornography use motivations, problematic pornography use at baseline (Time 1) and one-year follow-up (Time 2) data collections by gender
Table 4 Latent change score statistics for boys
Table 5 Latent change score statistics for girls

Results revealed several noteworthy findings. Among boys, without the controls, all variables had initial levels that were significantly higher than 0. These initials levels were accompanied by substantial level of inter-individual variability (i.e., statistically significant variance parameters associated with all initial levels), suggesting that some boys might have had a higher, whereas others might have had a lower, initial levels than the average. There was little change at the mean levels as only boys’ PPU showed a slight decline over the one-year period, while the frequency of pornography use and motivations for use remained stable. At the same time, there was evidence of statistically significant variability in these changes (i.e., statistically significant variance parameters associated with the change scores). Thus, individual changes were likely to be heterogeneous, with a number of boys experiencing either significant increases or decreases during this period. The inclusion of the controls (see Table S3 in the online supplementary materials for the exact effects of the controls) did not change the results substantially, providing support for the robustness of these findings.

Girls’ results were highly similar to those of the boys. More specifically, while initial levels of frequency of use and motivations for use were significantly higher than 0, initial levels of PPU were significantly lower than 0. Similarly, all of these initial levels were accompanied by statistically significant variance parameters. Examining the change scores revealed that pornography use frequency, PPU, and sexual pleasure, sexual curiosity, and boredom avoidance motivations slightly increased over this one-year period. However, with the inclusion of controls (see Table S4 in the online supplementary materials for the exact effect of the controls), most of these minimal increases disappeared, and only PPU demonstrated a slight, yet statistically significant increase. These results suggest that changes in the other variables (i.e., pornography use frequency, and sexual pleasure, sexual curiosity, and boredom avoidance motivations) might be explained by these controls. Still, as in the case of boys, girls’ change scores were also accompanied by statistically significant variance parameters, suggesting that some girls might have experienced significant increases or decreases during this period, hence the lack of significant mean level change.

Discussion

Similar trends were observed in boys and girls’ pornography use characteristics when examining potential changes before and during the COVID-19 pandemic. Despite prior studies reporting a self-perceived increase in adolescents and young adults’ pornography use since the beginning of the COVID-19 pandemic (Li et al., 2020a, b; Nebot-Garcia et al., 2020; Nelson et al., 2020), our results suggest that adolescents during the COVID-19 pandemic did not report using pornography more frequently and they did not engage more frequently in pornography use due to different motivations (e.g., using pornography to decrease boredom or suppress negative emotions). Moreover, in line with the findings of the only longitudinal study reporting temporal trends in PPU in adults (Grubbs et al., 2021), our results suggest that PPU slightly decreased during the COVID-19 pandemic in boys, compared to pre-COVID-19 times. Although girls’ PPU levels were low before and during the COVID-19 pandemic as well, a statistically significant increase was observed in girls’ PPU levels. Yet, these changes were negligible and the overall score of girls is still considered low, providing no real practical relevance.

No Significant Changes in Adolescents’ Pre-COVID-19 and During COVID-19 Pornography Use Frequency and Motivations

Despite previously documented differences between adolescent boys and girls’ pornography use characteristics (Bőthe et al., 2019; 2021d; Bőthe et al., 2020b; Peter & Valkenburg, 2016), no gender differences were observed in the trends of changes in pornography use frequency and pornography use motivations. In contrast with our hypothesis and findings of prior studies among adolescents and young adults (Li et al., 2020a, b; Nelson et al., 2020), adolescents during the COVID-19 pandemic and related lockdowns did not show significant changes in their frequency of pornography use compared to the pre-COVID-19. On average, boys used pornography many times per week, while girls used it less than once a month both before and during the COVID-19 pandemic.

One main difference between the present study and previous ones is that we used a longitudinal study design to compare adolescents’ pornography use characteristics before and during the COVID-19 pandemic, whereas past studies used samples recruited during the pandemic and asked about participants’ perception concerning changes in their pornography use (e.g., whether they watched less, more, or the same amount of pornography since the pandemic; Li et al., 2020a, b; Nelson et al., 2020). Given potential recall biases in retrospective studies of online activities (Kahn et al., 2014), adolescents’ reports about their pornography use before the pandemic or changes in their pornography use during the pandemic may not be as accurate as comparing actual reports on pornography use characteristics before and during the pandemic.

Another difference between previous studies (Li et al., 2020a, b; Nelson et al., 2020) and the present one is related to samples’ characteristics. Our study included a diverse sample of adolescents aged between 14 and 18 years (with a mean age of 15.4 years at baseline), including all genders and sexual orientations. However, two of the prior studies included both adolescents and young adults (i.e., 967 participants were aged between 15 and 35 with a mean age of 26.6 years in Li et al., 2020a, b; and 134 participants were aged between 16 and 20 with a mean age of 19.2 in Nebort-Garcia et al., 2020), while the other study focused on a more specific population of 151 adolescents, namely sexual minority boys aged between 15 and 17 years (Nelson et al., 2020). These differences in sample characteristics might have yielded different results. For example, as our sample only included adolescents, most lived with their parents. As many parents also followed COVID-19-related regulations (e.g., social distancing, closure of workplaces) and experienced shutdowns, adolescents were more likely at home with their parents, and thus, might not have more opportunities to view pornography than before, while young adults might have lived alone and worked from home during the pandemic, providing more opportunities for pornography use.

Moreover, adolescents aged between 13 and 18 years also vary in their level of engagement in social distancing, with only 30.5% of them engaging in pure social distancing (no in-person contact with those outside their household; Oosterhoff & Palmer, 2020; Oosterhoff et al., 2020). Therefore, it is possible that adolescents spent more time with their friends in offline settings, leaving less time for engaging in online activities, including pornography use, resulting in no changes in their pornography use frequency.

Lastly, adolescents returned to a hybrid model of education (i.e., half in-class and half online) in the province of Quebec (Canada) between the fall of 2020 and summer of 2021 (i.e., when the follow-up survey was administered), which might have provided them with the opportunity to return to part of their pre-COVID-19 academic routine, resulting in the no significant changes in their long-term pornography use frequency. Still, temporary increases in pornography use might have been present among adolescents in the first months of the COVID-19 pandemic (i.e., spring and summer of 2020). One of the largest pornography websites reported higher traffic on their website in Canada between March and July 2020 compared to pre-COVID-19 rates, with a peak of a 21.5% increase in pornography use on March 25, 2020 (Pornhub.com, 2020a, 2020b). These reports of increases in pornography use were also supported by a global analysis of Google search trends (Zattoni et al., 2020). Yet, in line with our findings, when a longer-term trend in pornography use frequency was examined before and during the COVID-19 pandemic among adults, individuals’ use had returned to similar or even lower levels of use as reported before the pandemic by August to October 2020 (Grubbs et al., 2021). In sum, findings suggest that although a temporary increase might have been present in individuals’ pornography use frequency in the first months of the COVID-19 pandemic, these changes were likely transient.

Although it was proposed in the literature that pornography may be used as a potential distraction from negative emotions and stress that accompany the COVID-19 pandemic (Mestre-Bach et al., 2020), adolescents did not report significantly higher levels of emotional distraction and suppression, boredom avoidance, and stress reduction pornography use motivations during the COVID-19 pandemic, compared to the pre-COVID-19 levels. Still, it is important to note that adolescents during COVID-19 may have experienced varying levels of stress and negative emotions due to the pandemic and related restrictions (Duan et al., 2020; Ellis et al., 2020; Fegert et al., 2020; Racine et al., 2020) and may choose other activities to cope with these difficulties. Studies conducted during the COVID-19 pandemic documented that adolescents engaged in more online activities, including schoolwork, monitoring the latest news about the pandemic and used social media to stay in touch with friends and peers (Ellis et al., 2020; Munasinghe et al., 2020). This suggests that adolescents may engage in these activities instead of pornography use, and that these may help them cope with COVID-19-related stress. Concerning other pornography use motivations that were assessed in the present study (i.e., sexual pleasure, sexual curiosity, fantasy, lack of sexual satisfaction, and self-exploration), adolescents did not report significantly different levels of these motivations pre- vs. during COVID-19.

In sum, these results suggest that adolescents’ pornography use characteristics, in general, might not have changed as significantly as it was suggested by previous findings (Li et al., 2020a, b; Nelson et al., 2020) or predicted in popular media outlets (Döring, 2020). Prior studies also suggest that adolescents may use pornography out of curiosity or as an aid for masturbation, rather than a means to cope with negative emotions and stress (Arrington-Sanders et al., 2015; Bőthe et al., 2019; Romito & Beltramini, 2011; Ševčíková & Daneback, 2014), and these motivations may not be impacted as profoundly by the pandemic as the coping-related motivations. Yet, substantial inter-individual variability was observed in both the initial levels and changes of pornography use frequency and motivations in boys and girls as well, suggesting that some adolescents might have had higher, whereas others might have had lower, initial pornography use frequency and motivations levels than the average, and individual changes were likely to be heterogeneous (i.e., different levels of increase, decrease, or stability might have been present for some adolescents), reinforcing the need to better understand the factors involved in adolescents’ pornography use.

Negligible Changes in Adolescents’ Pre-COVID-19 and During COVID-19 Problematic Pornography Use

Corroborating the findings of the only longitudinal study reporting temporal trends in PPU in adults (Grubbs et al., 2021), our results also suggested that PPU slightly decreased during the COVID-19 pandemic in boys, compared to pre-COVID-19 times. Although the latent changes models suggested that this general decrease in boys’ PPU levels were significant, this change was very small on a descriptive level (i.e., when observing boys’ pre-COVID-19 and during COVID-19 mean scores, the change was -0.03 on a scale from one to seven). Concerning girls, the latent changes models suggested that their PPU levels significantly increased over the one-year period of the study. However, again, it needs to be noted that this change was very small on the descriptive level (i.e., when observing girls’ pre-COVID-19 and during COVID-19 mean scores, the change was + 0.03 on a scale from one to seven). These significant changes might derive from the large sample size (i.e., with large sample sizes, even small differences turn out to be significant differences), and thus, we do not consider them as meaningful changes.

Yet, it needs to be noted that as in the case of pornography use frequency and pornography use motivations, substantial inter-individual variability was observed in both the initial levels and changes of PPU in boys and girls as well. These findings suggest that some adolescents might have had higher or lower initial PPU levels than the average. Also, individual changes were likely to be heterogeneous, suggesting that some adolescents might have experienced steeper increases or decreases in their PPU than the mean PPU changes. Thus, it may be plausible that some adolescents who might already have had problems with their pornography use before the COVID-19 pandemic might experience an increase in their PPU under such an unprecedented situation as a pandemic (Király et al., 2020; Mestre-Bach et al., 2020).

Limitations and Future Directions

The results of the present study provide preliminary answers to current concerns about whether adolescents’ pornography use characteristics, including pornography use frequency, motivations, and PPU, might have changed due to the COVID-19 pandemic and related restrictions (e.g., social distancing). Nevertheless, some limitations of this study need to be noted. We used data from a self-selected sample of adolescents, who completed self-report measures. Thus, the findings may include some biases (e.g., recall bias, under- or over-reporting, or selective loss of participants; Štulhofer et al., 2021). Although moral incongruence toward pornography use may be associated with self-perceived PPU (Grubbs & Perry, 2019; Grubbs et al., 2019a, b, c), it was not assessed in this study. The present study only assessed intentional pornography use; unwanted exposure was not examined. We used a diverse sample in terms of gender and sexual orientation, but it was not representative of all adolescents in the country, limiting the findings’ generalizability. The fact that our sample included adolescents from a Western, educated, industrialized, rich, and democratic (WEIRD) country also limits the generalizability of the findings. Future studies are needed to replicate and extend the present study’s findings, preferably in pre-registered study designs, including non-WEIRD samples (Klein et al., 2021).

As is usually the case in large-scale and longitudinal studies among adolescents (Kohut et al., 2021; Vandenbosch & Peter, 2016; Vandenbosch et al., 2015), we had to reduce the number of items per construct. Therefore, although we assessed a diverse set of pornography use characteristics, each motivation (Bőthe et al., 2021a) and pornography use frequency were measured by one item that may bias findings. Moreover, the use of self-report measures to assess motivations may introduce biases (e.g., it is not possible to differentiate between reports of actual motivations and posterior attributions concerning the reasons of given behaviors). Thus, study designs focusing on real-time data collection when a behavior occurs (e.g., ecological momentary assessment, EMA) might provide a more accurate and nuanced understanding of motivations underlying pornography use. Given the presence of substantial inter-individual variability in the latent change models, future studies would do well in relying on an analytic approach that is able to identify subpopulations of adolescents characterized by different change scores. Lastly, while no differences were observed in the results concerning boys’ pornography use with and without the included control variables, most of the minimal increases in girls’ pornography use disappeared when control variables were added. These results highlight the importance of considering potential confounding variables when examining pornography use, though the selection of these potential control variables requires careful consideration and justification (Wright, 2021), and results should be preferably reported with and without the control variables for full transparency.

Conclusions

Although prior cross-sectional studies reported a self-perceived increase in adolescents and young adults’ pornography use since the beginning of the COVID-19 pandemic, our longitudinal results suggest that adolescents during the pandemic might not use pornography more frequently and not use pornography for different reasons compared to prior to their pandemic levels. Although a slight decrease in boys’ PPU, and a slight increase in girls’ PPU were observed, these changes could be considered negligible with little practical or clinical relevance (Ferguson, 2016; Sawilowsky, 2009). Despite previous propositions, concerns, and cross-sectional findings (Awan et al., 2021; Mestre-Bach et al., 2020; Nebot-Garcia et al., 2020; Nelson et al., 2020), longitudinal results suggest that the COVID-19 pandemic and related lockdowns might not have led to general increases in adolescents and adults’ (Grubbs et al., 2021) pornography use.