About the Authors:
Takashi Oshio
Roles Conceptualization, Formal analysis, Investigation, Methodology, Writing – original draft
* E-mail: [email protected]
Affiliation: Institute of Economic Research, Hitotsubashi University, Kunitachi, Japan
ORCID logo https://orcid.org/0000-0001-8142-5585
Hiromi Kimura
Roles Data curation, Writing – review & editing
Affiliation: Survey Research Center, Chuo-ku, Japan
Toshimi Nishizaki
Roles Funding acquisition, Project administration, Writing – review & editing
Affiliation: Japan Cabinet Office, Chiyoda-ku, Japan
Takashi Omori
Roles Project administration, Supervision, Writing – review & editing
Affiliation: Osaka University, Suita, Japan
Introduction
The use of social networking sites (SNS), such as Facebook, LINE, and Twitter, has become increasingly popular not only among the younger and older generations. Widespread SNS use is changing how individuals engage with others [1], inspiring researchers to examine whether SNS use can have a favorable impact on the subjective well-being (SWB) of SNS users. Results obtained from recent relevant studies are generally inconsistent and mixed [2–6]. Although some studies have found SNS use to favorably impact various aspects of SWB, such as life satisfaction (LS) [7–9], strong skeptical views concerning the positive impact of SNS use on SWB exist as well [10, 11].
One possible reason for this inconsistency could be that most previous studies were based on relatively small samples (often well below 1,000), mainly consisting of college students or other young individuals. This probably caused the results to be affected by the group-specific attributes, thereby reducing their statistical reliability. The estimation results may also depend on the research design. For example, comparing SNS users and non-users as well as focusing on the correlations of frequency, intensity, or the number of friends within SNS users alone may lead to results that present different evaluations concerning the impact of SNS use. In addition, many studies mainly focused only on the use of Facebook.
The association between SNS use and SWB may also differ between age groups [12, 13]. There must be substantial differences in frequency, intensity, and contextual meaning of SNS use by age group, probably making the relevance of SNS use differ between the young and old. Studies focusing on older SNS users generally support its beneficial impact on SWB [13–15], but the relative importance of SNS use for SWB between age groups has been largely understudied.
Inconsistent results regarding the association between SNS use and LS have made it increasingly important to explore the mechanism linking the two. In this respect, perceived social support (PSS) has attracted increasing attention, referring to the perceived availability and adequacy of social connections, whereas received social support focuses on the quantity and quality of the support provided when needed [16, 17]. It is reasonable to expect that individuals who perceive a sufficient level of social support may believe that their network will provide adequate help when needed, and thus feel more satisfied. Indeed, studies have shown that PSS can improve SWB and mental health more consistently than received social support [16, 18, 19]. Social networking is expected to provide more opportunities to obtain PSS through greater interpersonal interactions in the online environment [20]. This view is consistent with the finding that acquiring social support from others was one of the most important reasons for SNS use [21]. It should be noted, however, that some studies were skeptical of the positive impact of SNS use on PSS [22].
If PSS is obtained by SNS use and in turn enhances SWB, we can argue that PSS acts as an important mediator for their association. Several studies have provided evidence in support of this view [6, 8, 9], even though its effect was found to be non-linear [23], dependent on personal traits [24], and limited to some of its aspects [25]. However, few studies have evaluated the relative importance of the mediating effect of PSS on the total association between SNS use and SWB.
Following these preceding studies and considering the hitherto unaddressed issues, this study compared the association between SNS use, PSS, and LS (as a proxy of SWB) across three age groups. To this end, we used data obtained from a large-scale population-based nationwide survey conducted in Japan (N = 15,574). Survey participants consisted of both SNS users and non-users. In Japan, approximately 80 million persons, i.e., 64% of total population, are estimated to be SNS users and 77.4%, 38.5%, and 35.7% of them use LINE, Twitter, and Instagram, respectively [26].
We mainly focused on the number of SNS friends as a key variable of SNS use and examined its associations with LS and PSS, following preceding studies [8, 9, 23]. To explore the mechanism that links SNS use and LS, we specifically focused on the mediating effect of PSS on this association. Based on the estimation results of the structural equation modeling analysis, we examined whether PSS mediated the association between SNS use and LS and the extent of this impact, comparing the results by age group. We tentatively hypothesized that SNS use may be positively associated with LS and that PSS may mediate a substantial proportion of their association, considering the general results obtained from preceding studies conducted outside Japan. Nevertheless, the ways in which the association among these variables may differ by age group remains largely understudied.
Materials and methods
Study sample
We used data obtained from a population-based, nationwide internet survey conducted in the research project of the Cabinet Office (CAO) of the Japanese government in October 2019 and February 2020. The survey was conducted in accordance with the Statistics Law in Japan, which governs the statistical, legal, ethical, and other rules for surveys conducted by the government. Informed consent was obtained from all respondents. We obtained the survey data with permission from the CAO. Hence, ethics approval was not required for this study.
The survey was conducted using the CAO as follows. First, the questionnaires were distributed to the registrants of an Internet survey company. Data were collected from approximately 15,000 respondents: approximately 10,000 from the survey in 2019 and the remaining 5,000 from the survey in 2020. The targeted sample was divided into two groups. First, 11,280 registrants were planned to be allocated equally to each of the 47 prefectures, by gender and age groups (aged 15–24 years, 25–34 years, 35–44 years, 45–59 years, and 60+ years). Thus, each prefecture-gender-age group consisted of 24 individuals. Second, 4,245 registrants were planned to be allocated to each gender-age group in each prefecture, corresponding to its actual population size. When the survey was closed, data for 15,574 respondents were obtained. The dataset is open to the public and available from the CAO website (URL: https://form.cao.go.jp/keizai2/opinion-0011.html).
Measures
Regarding an indicator of SNS use, we focused on the reported number of SNS friends. The survey asked the respondents to choose from 0, 1–9, 10–19, 20–29, 30–39, 40–49, 50–99, 100–300, and 301 or above. In the regression analysis, we condensed the responses into four categories (0, 1–9, 10–100, 100, and above), corresponding to cutoffs of 1, 10, and 100. Because we set these cutoffs arbitrarily, we additionally conducted a statistical analysis using the number of SNS friends as a continuous variable. In this analysis, we transformed the reported number of SNS friends: 0, 1–9, 10–19, 20–29, 30–39, 40–49, 50–99, 100–300, and 301 or above to 0, 5, 14.5, 24.5, 34.5, 44.5, 74.5, 200, and 400, respectively, taking the mid-point of each band (and arbitrarily transforming “for 301 or above” to 400).
Regarding SWB, we focused on LS on an 11-point scale (0 = not satisfied at all and 10 = highly satisfied). Regarding PSS, the survey first asked the respondents whether they had anyone they expected to support them when needed (other than their family members and relatives who reside with them). If they answered “yes,” the survey further asked them to report the number of such persons by choosing from among 1, 2, 3, 4, 5, 6–9, 10–19, 20–29, and 30 or more. Based on these reported numbers, we construct a continuous proxy for PSS by allocating 0 to none and replacing 10–19, 20–29, and 30 or more, by 14.5, 24.5, and 40, respectively, taking the mid-point of each band (and arbitrarily transforming for “30 or above” to 40).
As for covariates, we considered gender, age group (29 or below, 30s, 40s, 50s, and 60 or above), educational attainment (graduated or scheduled to graduate [in the case of current students] from junior high school, high school, or college or above), job status (regular employee, non-regular employee, manager, self-employed, working part-time from home, student with a job, student with no job, unemployed, and out of labor force), marital status (having a spouse or not), and household income. Household income was adjusted by household size by dividing household income by the square root of the number of household members and then constructed four binary variables for each quartile. We also controlled for the survey years (2019 or 2020).
Analytic strategy
For the descriptive analysis, we compared the associations of the number of SNS friends with life satisfaction and PSS between age groups. We divided the respondents into three age groups: young (15–29 years), middle-aged (30–59 years), and old (60–86 years), assuming that SNS use and its impact on LS may differ across stages of working life. People are likely to finished entering the labor market by age 30 and start leaving it at age 60 due to mandatory retirement and/or eligibility for public pension benefits in Japan.
We conducted two types of regression analysis. First, we estimated a basic regression model to examine how LS and PSS were each associated with the number of SNS friends. This analysis was aimed at evaluating the results of the descriptive analysis by controlling for the covariates. Second, we conducted a structural equation modeling (SEM) analysis to determine the structural associations between SNS use, LS, and PSS. Based on the SEM analysis, we computed the effects of SNS use on LS, both mediated and not mediated by PSS.
For the first regression analysis, we considered the following linear regression equation (Model 0) in the case of LS:where SNS1 +, SNS10 +, and SNS100 + are binary variables for the number of SNS friends of 1 or more, 10 or more, and 100 or more, respectively, and ɛ0 is an error term. We avoided using a continuous variable for the number of SNS friends, considering the possibility of its non-linear relationship with LS.
In this model specification, a positive coefficient of each SNS variable means that LS will increase when the number of SNS friends rises to the corresponding range from the range below. For example, β02 (i.e., the coefficient of SNS10+) > 0 means that LS will increase when the number of SNS friends increases to the range between 10 and 100 from the range between 1 and 9. In this case, we can argue that 10 was a threshold for the number of SNS friends in terms of its association with LS. The coefficients of the conventionally defined binary variables for 1–9, 10–99, and 100+ SNS friends (using no SNS friends as a reference) are equal to β01, β01 + β02, and β01 + β02 + β03, respectively. We estimated Model 0 for PSS as well to examine their relationships with the number of SNS friends.
For the SEM analysis, we considered the structural equation model, which consists of two equations (Models 1 and 2):where a binary variable of “SNS” is chosen from SNS1 +, SNS10 +, and SNS100 +, and ɛ1 and ɛ2 are error terms. Here, SNS is interpreted as a binary variable of SNS use corresponding to a given threshold of the number of SNS friends; if we choose SNS10 +, we consider the respondent as an SNS user only if they had 10 or more SNS friends.
In this SEM framework, we decomposed the effect of the number of SNS friends on LS into two components: not mediated by PSS (β1) and mediated by PSS (β2γ1). The total effect is the sum of these two components, β1 + β2γ1. After estimating Models 1 and 2 simultaneously, we calculated these components along with their standard errors as well as their proportions of the total effect of SNS use on LS. We conducted this SEM analysis for each SNS threshold as well as for each age group and compared the results.
To assess the robustness of the SEM analysis, we repeated a similar estimation, taking the number of SNS friends as a continuous variable. Considering the potential non-linear association between the number of SNS friends and LS, we compared the results obtained by using the entire sample and those obtained when excluding the respondents who had 100 or more SNS friends. For all statistical analyses, we used the software package Stata (Release 15) [27].
Results
Descriptive analysis
Key demographic features of the study sample are summarized in Table 1. No substantial differences were observed between samples collected in 2019 and 2020. Of the respondents, 43.9% graduated from college or above, 39.1% were regular employees, and 73.8% had a spouse.
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Table 1. Key demographic features of the study sample.
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The distribution of the number of SNS friends between age groups is presented in Table 2. Having at least one SNS friend was more common among the young (83.9%) than the old (46.6%), and the proportion of SNS users who reportedly had 100 or more SNS friends was much higher among the young (32.0%) than the old (2.8%). One-way analysis of variance (ANOVA) conformed the variance between age groups for the number of SNS friends.
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Table 2. Distribution of the number of SNS friends and one-way analyses of variance by age group.
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Table 3 presents how the distributions of LS and PSS were related to the number of SNS friends, by dividing the latter into four groups: none, 1–9, 10–99, and 100 or more. A larger number of SNS friends were generally correlated with higher levels of LS and PSS, and the one-way ANOVA confirmed the variance between levels of the number of SNS friends for LS and PSS. However, two issues should be noted. First, LS declined in response to an increase in SNS friends above 100 for the old, compared to additional increases for the young and middle-aged groups. Second, we observed a similar situation for PSS, which did not increase in response to an increase in SNS friends above 100 for the old. However, these results were not controlled for the covariates.
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Table 3. Distribution of life satisfaction and perceived social support and one-way analyses of variance by the number of SNS friends.
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Basic regression analysis
The estimation results of Model 0, which examined how the number of SNS friends was associated with LS and PSS, are summarized in Table 4, which contains the results after controlling for the covariates (Part A) and without controlling for them (Part B) for each of LSS and PSS. From the results for LS (Prat A), we noticed that the coefficients of SNS10+ (β2) were positive for all age groups, meaning that having 10 or more SNS friends was positively associated with LS. The coefficients of SNS100+ (β3) were non-significant for the young and middle-aged adults and turned even negative for the old. This suggests that an increase in SNS friends from already high levels did not increase or even reduce LS. Furthermore, the coefficient of SNS1+ (β1) was non-significant for the young, meaning that LS was not affected by an increase in SNS friends as long as it remained low. From the results for PSS (Part A), we also identified a positive association between SNS use and PSS for all age groups, as long as SNS users had 10 or more SNS friends. PSS was not affected by an increase in SNS friends above 100 for the old, unlike younger age groups whose PSS continued to rise. These results were generally consistent with the results of the descriptive analysis reported in Table 3.
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Table 4. Regression analysis (Model 0): Estimated associations of the number of SNS friends with life-satisfaction and perceived social supporta.
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In Table 4, we also observed that women tended to feel more satisfied with life and that educational attainment and household income were positively associated with LS and PSS. The table also contains the results without controlling for covariates (see Parts B). We confirmed that the control for the covariates did not increased the estimated coefficients of SNS use in most cases, suggesting the limited confounding effects of the covariates.
Structural equation model analysis
We expanded the analysis to grasp a more comprehensive picture of the association among SNS, PSS, and LS using SEM analysis, through estimated Models 1 and 2. We estimated these models for each of the thresholds of SNS use (SNS1+, SNS10+, and SNS100+). Table 5 reports the estimation results of the major regression coefficients. This table indicates the positive associations between (1) LS and PSS (γ1 > 0) and (2) PSS and the number of SNS friends (β2 > 0) in all cases. The association between LS and the number of SNS friends, not mediated by PSS, was positive when using 1 or 10 SNS friends as the threshold (β1 > 0), but was non-significant when using 100 SNS friends as the threshold.
[Figure omitted. See PDF.]
Table 5. Structural equation modeling analysis (Models 1 and 2): Estimated associations between the number of SNS friends, perceived social support, and life satisfaction.
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Based on these estimation results, we computed the effects of the number of SNS friends on LS, mediated and not mediated by PSS, as well as the proportion of these effects. From Table 6, which summarizes the results, we observed the following findings.
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Table 6. Estimated effects of SNS use on life satisfaction, mediated and not mediated by perceived social support, based on Models 1 and 2.
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First, LS generally had a positive association with SNS use, evidenced by the positive sign of the total association. For example, the estimated value of the total association of .39 (standard error [SE]: .08) for the young when using 10 SNS friends as the threshold for SNS use means that having 10 or more SNS friends is expected to raise LS by .39 compared to having less than 10 (including zero) SNS friends. The only exception for this positive association was the case using 100 SNS friends as the threshold for the old, which indicated a non-significant association. However, the association between SNS use and LS declined with a threshold higher than 100 SNS friends for the young and middle-aged groups. In addition, the magnitude of the positive association between SNS use and LS was somewhat smaller for the old than for the young and middle-aged groups.
Second, the table confirms the mediating effect of PSS on the association between SNS use and LS. This effect was positive and highly significant in all model specifications, and it was relatively stable for each age group. Notably, the estimated mediating effect for the old was .09 (SE: .03) for SNS100+, which lay in the range between .07 (SE: .01) and .12 (SE: .02) for lower thresholds, even though the total association between SNS use and LS turned non-significant for this age group.
Third, as seen in the bottom section of Table 6, the proportion of the effect mediated by PSS was generally substantial. For example, by taking 10 SNS friends as a threshold for SNS use, we found that the mediating effect of PSS explained 36.5% (SE: 8.6%), 39.8% (SE: 6.3%), and 40.3% (SE: 11.4%)of the total association between SNS use and LS for the young, middle-aged, and old groups, respectively. In the case of SNS100+ for the elderly, the proportion was minus 42.5%, meaning that it partly offset the overall negative association between SNS use and LS.
To help understand the key estimation results, Fig 1 graphically illustrates how the mediating effect of PSS contributed to the total association between SNS use and LS for each combination of age group and threshold for SNS use. Based on the results in Table 6, this figure confirms the following: (1) there was a positive association between SNS use and LS, (2) it did not increase when the threshold was raised to 100 (and it actually turned negative for the old), and (3) the mediating effect of PSS consistently contributed to LS for all age groups and thresholds.
[Figure omitted. See PDF.]
Fig 1. Association between the number of SNS friends and life satisfaction, mediated and not mediated by perceived social support.
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We further examined how the estimation results would be sensitive to the covariates. Tables 7 and 8 demonstrate how the results in Tables 5 and 6 changed if the covariates were not controlled for. We found that the general results of the mediation analysis remained intact, while the magnitude of the estimated associations between the variables was somewhat larger than that obtained after controlling for the covariates.
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Table 7. Structural equation modeling analysis (Models 1 and 2): Estimated associations between the number of SNS friends, perceived social support, and life satisfaction [without controlling for covariates].
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Table 8. Estimated effects of SNS use on life satisfaction mediated and not mediated by perceived social support, based on Models 1 and 2 [without controlling for covariates].
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The estimation results obtained by replacing the binary variable of the number of SNS friends with their continuous variable are presented in Tables 9 and 10, corresponding to Tables 5 and 6, respectively. The results in Tables 9 and 10 are largely consistent with those in Tables 5 and 6. Regardless of whether respondents having 100 or more SNS friends were excluded, we confirmed an overall positive association between the number of SNS friends and LS as well as the mediating effect of PSS. Using the entire sample substantially reduced their magnitudes, especially for the old, probably reflecting a diminishing impact of an increasing number of SNS friends on LS, as observed in Tables 5 and 6.
[Figure omitted. See PDF.]
Table 9. Structural equation modeling analysis (Models 1 and 2): Estimated associations between the number of SNS friends, perceived social support, and life satisfaction [using a continuous variable of the number of SNS friends]a.
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[Figure omitted. See PDF.]
Table 10. Estimated effects of SNS use on life satisfaction mediated and not mediated by perceived social support, based on Models 1 and 2 [using a continuous variable of the number of SNS friends].
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Discussion and conclusion
Summary
This study aimed to compare the association between SNS use, PSS, and LS between age groups. Unlike most previous studies, we utilized a large-scale dataset obtained from a population-based, nationwide survey, covering a wide age range of the population. In addition to comparing how SNS was used between age groups in terms of the number of SNS friends, we examined how SNS use, PSS, and LS were associated with each other and how their associations differed between age groups. We observed that the number of SNS friends was positively associated with life satisfaction for all age groups and that the mediating effect of PSS mediated the association between the number of SNS friends and LS.
Results and discussion
The key findings and their implications are summarized as follows. First, the results generally confirmed that SNS use was positively correlated with LS, in line with previous studies [7–9] that have argued that a higher number of SNS friends would enhance supportive interactions with others, subsequently having a positive impact on LS. More generally, SNS use may provide the opportunity to develop and maintain social connectedness in the online environment, which is associated with greater LS [20]. However, this association was found to be non-linear; if an SNS user already had many SNS friends, an increase in such friends was not associated with higher levels of LS, especially for the old. The association between SNS and SWB may depend on the level of SNS engagement, presumably leading to conflicting results. Having a substantially large number of SNS friends, along with frequent SNS use, may exacerbate the psychological pressure on SNS users, thereby offsetting the beneficial impact of SNS use to some extent.
Second, the results highlighted the importance of the mediating effect of PSS, as suggested in previous studies [6, 8, 23]. Our structural equation modeling analysis showed that PSS mediated a substantial portion of the positive association between SNS use and LS for all age groups, regardless of the number of SNS friends. Excluding this beneficial mediating effect of PSS, the association between SNS use and LS was non-significant for the young or middle-aged and even negative when they had many friends, making their overall association mixed.
Third, the results also showed that the association between SNS use and LS differed somewhat between age groups, as already shown by previous studies [12, 13], although they exhibited largely similar patterns in their association with respect to the number of SNS friends. More specifically, the sensitivity of LS to SNS use was somewhat more limited for the old compared to the young and middle-aged groups, and having 100 or more SNS friends was negatively associated with LS after excluding the association mediated by PSS. The results probably reflected differences in social contexts when using SNS as a tool of communication as well as exposure to digital technologies. Notably, younger people may use SNS as a means of immediate and social interaction more than the old [12], possibly making them more sensitive to the practical benefits of enhanced SNS use.
Theoretical implications
The results underscored the mediating effect of PSS on the positive association between SNS use and LS, as hypothesized. Notably, this mediating effect was consistently observed across age groups, regardless of the number of SNS friends, and it accounted for a substantial proportion of the association between SNS use and LS. This result suggests that all age groups have two pathways linking SNS use to LS: (1) a larger number of SNS friends makes SNS users perceive more social support from others, and (2) an enhanced perception of social support adds to life satisfaction [6, 8, 23]. These two pathways appear to work effectively even if an SNS user already has many SNS friends. However, more in-depth analysis of the PSS’ mediating effect is needed, considering that previous studies argued for its non-linearity, dependency on personal traits, and limitations to some of its aspects [23–25].
Practical implications
The results suggest that SNS use has the potential to improve SWB via its positive impact on PSS. Policy measures to promote SNS use can be expected to enhance social welfare. More specifically, policy support to encourage individuals who have some difficulties in receiving social support to use SNS is expected to have a beneficial impact on their LS. It is also advisable for policymakers to provide more technical support for SNS use to the old, who are likely to be less familiar with SNS technology than the young and middle-aged.
Limitations
We recognize that this study has several limitations in addition to the potential measurement errors and biases in the self-reported measures of the number of SNS friends, the number of persons expected to provide support, and life satisfaction. First, the cross-sectional data setting could not identify causation. Notably, the reverse causality from LS to SNS use or PSS cannot be excluded. Equally important, an individual’s unobserved attributes, including personality traits, may have caused biased estimation results, as already suggested by preceding studies [28, 29]. To control for potential biases, we must expand the analysis using longitudinal data.
Second, and related to the above, analysis should be expanded to the dynamic association between SNS use and SWB. In this cross-sectional study, we could not analyze how each individual’s SWB evolved in response to a change in SNS use. SWB may likely change over time, and the intensity of SNS use, which was not considered in this study, may play a key role in the evolution of SWB [30]. The feedback loop from SWB to SNS use should also be examined in these dynamics.
Third, while we focused on PSS, there can be another potential mediator that links SNS use to SWB. The chance of obtaining instrumental social support as well as perceived support may be enhanced by SNS use, and the formation and maintenance of social capital can also be promoted by online communications [31]. In addition, the mediating effect of possible behavioral modifications in daily life triggered by SNS use should be considered to fully capture its impact on SWB.
Despite these limitations, this study showed that the mediating effect of PSS contributed to the positive association between SNS use and LS regardless of the number of SNS friends. We consistently observed this effect for all age groups, although the association between SNS use and LS differed somewhat between the young and old groups. These results suggest that SNS use has the potential to enhance SWB via its positive impact on PSS.
Acknowledgments
This study was conducted as a part of the Project “Research on Well-Being and Quality of Life” undertaken at the Cabinet Office of the Japanese Government.
Citation: Oshio T, Kimura H, Nishizaki T, Omori T (2020) Association between the use of social networking sites, perceived social support, and life satisfaction: Evidence from a population-based survey in Japan. PLoS ONE 15(12): e0244199. https://doi.org/10.1371/journal.pone.0244199
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Abstract
This study examined the association between the use of social networking sites (SNS), perceived social support (PSS), and life satisfaction (LS), focusing on the mediating effect of PSS on the association between SNS use and LS. To this end, we used data (N = 15,574) obtained from a population-based, nationwide internet survey conducted in Japan. First, we confirmed that the number of SNS friends was positively associated with life satisfaction for all age groups: young (15–29 years), middle-aged (30–59 years), and old (60–86 years). However, the association was mixed if there were 100 or more SNS friends. Second, our structural equation modeling analysis underscored the mediating effect of PSS on the association between the number of SNS friends and LS for all age groups. Specifically, PSS mediated 36.5% (standard error [SE]: 8.6%), 39.8% (SE: 6.3%), and 40.3% (SE: 11.4%) of the association for the young, middle-aged, and old groups, respectively, if we defined SNS use as having 10 or more SNS friends. The mediating effect of PSS consistently contributed to the positive association between SNS use and LS regardless of the number of SNS friends, suggesting that SNS use has the potential to enhance subjective well-being via its positive impact on PSS.
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Neither ProQuest nor its licensors make any representations or warranties with respect to the translations. The translations are automatically generated "AS IS" and "AS AVAILABLE" and are not retained in our systems. PROQUEST AND ITS LICENSORS SPECIFICALLY DISCLAIM ANY AND ALL EXPRESS OR IMPLIED WARRANTIES, INCLUDING WITHOUT LIMITATION, ANY WARRANTIES FOR AVAILABILITY, ACCURACY, TIMELINESS, COMPLETENESS, NON-INFRINGMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Your use of the translations is subject to all use restrictions contained in your Electronic Products License Agreement and by using the translation functionality you agree to forgo any and all claims against ProQuest or its licensors for your use of the translation functionality and any output derived there from. Hide full disclaimer