Changes in social connection during COVID-19 social distancing: It’s not (household) size that matters, it’s who you’re with

Karynna Okabe-Miyamoto; Dunigan Folk; Sonja Lyubomirsky; Elizabeth W. Dunn

doi:10.1371/journal.pone.0245009

Abstract

To slow the transmission of COVID-19, countries around the world have implemented social distancing and stay-at-home policies—potentially leading people to rely more on household members for their sense of closeness and belonging. To understand the conditions under which people felt the most connected, we examined whether changes in overall feelings of social connection varied by household size and composition. In two pre-registered studies, undergraduates in Canada (N_{Study 1} = 548) and adults primarily from the U.S. and U.K. (N_{Study 2} = 336) reported their perceived social connection once before and once during the pandemic. In both studies, living with a partner robustly and uniquely buffered shifts in social connection during the first phases of the pandemic (β_{Study 1} = .22, β_{Study 2} = .16). In contrast, neither household size nor other aspects of household composition predicted changes in connection. We discuss implications for future social distancing policies that aim to balance physical health with psychological health.

Citation: Okabe-Miyamoto K, Folk D, Lyubomirsky S, Dunn EW (2021) Changes in social connection during COVID-19 social distancing: It’s not (household) size that matters, it’s who you’re with. PLoS ONE 16(1): e0245009. https://doi.org/10.1371/journal.pone.0245009

Editor: Daniel Romer, University of Pennsylvania, UNITED STATES

Received: August 6, 2020; Accepted: December 18, 2020; Published: January 20, 2021

Copyright: © 2021 Okabe-Miyamoto et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Data Availability: All files are available on OSF. Study 1 data: https://tinyurl.com/y7nvg5vf. Study 2 data: https://tinyurl.com/yc8b2n44.

Funding: UC Riverside provided financial support to recruit participants for Study 2 (S. L. and K.O.M.), but did not play any role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. The specific roles of each of the authors are articulated in the "author contributions" section.

Competing interests: The authors have declared that no competing interests exist.

Introduction

On March 11, 2020, the Centers for Disease Control and Prevention [1] declared the COVID-19 outbreak a pandemic. By early April, COVID-19 had already spread to nearly 1.5 million people worldwide [2]. In an effort to slow down its transmission, countries around the world implemented social/physical distancing guidelines [3], compelling individuals to stay at least 6 feet (2 meters) away from anyone outside their household [4]. Early in its implementation, the WHO [2] announced that it would be moving away from the term “social distancing” and begin using “physical distancing” to more accurately describe the practice. However, the original term stuck, especially in the U.S., U.K., Australia, Italy, France, Poland, Russia, India, South Korea, and Hong Kong, even though the very label of “social distancing” arguably undermines feelings of social connection. We use “social distancing” in this paper to reflect common usage. Such non-pharmaceutical public health interventions have been long proposed to reduce the spread of infectious disease. For example, mathematical modeling suggests that social distancing can reduce transmission of influenza by over 90% [5], and retrospective analyses of past pandemics (e.g., in 1918–1919) show that areas that implemented social distancing measures earlier were slower to reach peak and total mortality rates [6]. However, although social distancing policies have historically helped protect physical health worldwide, these policies have also greatly limited people’s range of social interactions, an important cost to weigh against their benefits.

Understanding the ways in which policy makers can balance physical health and psychological health while continuing social distancing has generated recent interest [7–9]. This calculus is crucial, as social distancing for extended periods of time may strain people’s needs for social connection to such an extent that they may eventually disregard policy guidelines. Social connection, or a sense of belonging and closeness with others, is fundamental to human development and well-being [10–13]. For example, having frequent social interactions and spending more time talking with others are both associated with greater well-being [14–16]. Furthermore, experiments have shown that people prompted to engage in more social interactions relative to control activities report higher levels of positive emotion and social connectedness [17–19]. In sum, understanding the conditions under which social connection is maximized during COVID-19 social distancing may inform future policies that can strike a balance between ensuring that people continue to social distance to protect physical health and ensuring that they stay socially connected to protect psychological health.

Social distancing initiatives have led millions of people globally to stay in their homes [20], abruptly forcing individuals to rely on their household members for their sense of overall social connection. This shift may pose a risk for those living alone, who report experiencing relatively more loneliness even under normal circumstances [21, 22]. Living in a larger household has been shown to be protective of loneliness [23], suggesting that living in larger households may safeguard people from declines in social connection during the pandemic. In light of the stressful and uncertain nature of the pandemic, a larger household may offer not only more opportunity for social interactions but greater social support, which is associated with well-being [24]. However, living in bigger households, which requires sharing a space day in, day out with the same people, may lead to greater tension, conflict, and sense of being crowded [25].

Living with a partner in particular may offer unique advantages [21], especially during stressful times [26]. Living with a partner is also protective of loneliness compared to being single and living alone—and even compared to having a partner but not cohabiting [21]. In a large study following 30,000 people, the most important social behavior that predicted well-being was the amount of time spent with a partner [27]. However, although the weight of the evidence supports the benefits of living with partners on social connection, the stress caused by the pandemic—and the friction associated with couples forced to spend all day together in close quarters (see [28], for examples)—may also negatively impact relationships [29].

Aside from partners, other household members may also provide feelings of closeness and opportunities for interaction. For example, living with children is linked with higher well-being [30] and lower levels of loneliness [31], and so is sharing a household with pets [32]. However, such benefits may be limited during a pandemic in which children are homeschooled, parents are working remotely from home or else looking for work, and neither pet owners nor their pets are able to interact socially with their peers.

Unlike social distancing policies during past pandemics, COVID-19 is unique because people today have the ability to connect digitally not only by phone, but through the use of social media, video calling, and text messaging. However, although connecting via digital and social media has been found to enhance offline relationships [33, 34], digital communication often feels unnatural and lacks rich nonverbal cues, which may hinder mutual understanding [35] and be cognitively taxing [36]. In times of stress and crisis, these forms of online communication may in turn promote other negative outcomes, such as “Zoom fatigue” [37]. Thus, face-to-face interactions with household members are likely to be essential to increased feelings of social connectedness.

In sum, social connection is crucial for both psychological and physical health, perhaps especially so during an unprecedented global pandemic that has claimed more lives than every war since the Korean War [38]. How can future policy guidelines balance protecting physical health through social distancing with protecting psychological health by maintaining feelings of connection? To understand the conditions under which people felt the most connected, we examined whether changes in overall feelings of social connection varied as a function of household size and composition.

Present research

In two pre-registered studies of undergraduates at a Canadian university (N_{Study 1} = 548) and adults primarily residing in the United States and United Kingdom (N_{Study 2} = 336), we followed individuals before and during the COVID-19 pandemic to examine changes in feelings of social connection based on (1) household size and (2) household composition. Using two-tailed tests, we tested the following primary hypotheses. First, we expected that people in larger households to show relatively smaller declines (or bigger increases) in social connection as a result of the COVID-19 pandemic. Second, we hypothesized that household composition would predict changes in social connection as a result of the COVID-19 pandemic. In examining household composition, we focused on whether participants lived with a partner (or not), lived with a pet (or not), and were caregivers (or not). Feelings of social connection were assessed with three different measures—the Social Connectedness Scale (Study 1; [39]), the relatedness subscale of the Balanced Measure of Psychological Needs (BMPN; Study 2; [40]), and the UCLA Loneliness Scale (Study 2; [41]).

Study 1

Undergraduates at the University of British Columbia completed our measures as part of two separate surveys. We obtained ethics approval from the Behavioral Research Ethics Board at the University of British Columbia, and participants provided written consent to be part of our study. The first survey was completed before the COVID-19 pandemic (Time₁), and the second survey was completed during the COVID-19 pandemic (Time₂). We pre-registered our analysis plan and stopping rules on the OSF and they are available at [https://tinyurl.com/yddwt28v]. A separate pre-registered study that used a portion of the data to answer a different research question can also be found on the OSF at [https://tinyurl.com/ybwz8ufb].

Method

Time₁

Between January 6, 2020 and the end of March 2020, 3,504 participants completed demographic questions and a social connection measure alongside other items as part of an optional department-wide pre-screening. For consistency with Study 2, we only included participants who completed this questionnaire on or before February 12, 2020, resulting in a Time₁ sample of 2,903 students. After removing participants who were missing more than two items on the social connection measure (as pre-registered), we obtained a total sample of 2,708 eligible participants.

Time₂

We invited participants who had completed pre-screening at Time₁ to complete a second survey between April 1–8^th, 2020. The Time₂ survey consisted of the same measure of social connection as in the Time₁ survey, as well as measures assessing students’ living arrangements, behaviors, and experiences during the COVID-19 pandemic. A total of 1,059 participants completed the Time₂ survey. As pre-registered, 8 participants were removed for responding 12 or more times in a row with the same answer on the social connectedness measure and 1 participant was removed for failing to answer more than 2 items on the social connectedness measure. Although not pre-registered, we also removed participants who did not supply an ID number to link responses (n = 125) or completed the survey twice (n = 22), For those who completed the survey twice, we only included their responses from the first survey.

Of the remaining 903 participants, 548 participants (M_age = 20.78, SD_age = 2.96; 77% women) completed both surveys and met our inclusion criteria. Participants in this final dataset did not significantly differ from the remaining eligible participants who completed the Time₁ survey in Time₁ social connection (p = .359) or household income (p = .154). Because we aimed to recruit as many participants as possible, we did not conduct an a priori power analysis; however, based on sensitivity analyses using GPower [42] and assuming two-tailed α = 0.05 and 80% power, we should have been able to detect a small effect size of ƒ² = .01 (R_adj² = .02) in a 2-predictor regression model and ƒ² = .01 (R_adj² = .001) in a 5-predictor regression model. R_adj² is reported in the manuscript. The dataset for the final sample can be found on the OSF at [https://tinyurl.com/y7nvg5vf].

Measures

The measures for Study 1 can be found on OSF at [https://tinyurl.com/y7jfk4al].

Social connection

Social connection was assessed with the revised 20-item Social Connectedness Scale [39]. Participants indicated their level of agreement with items such as, “I feel close to people” and “I feel understood by the people I know” (1 = strongly disagree, 6 = strongly agree). We removed the item, “I feel comfortable in the presence of strangers” from both time points, because it may have had a different meaning in the midst of the pandemic. Participants completed the measure at Time₁ with reference to their general view of themselves (α = .94). At Time₂ however, due to the rapid changes to daily life that participants were experiencing, we asked them to think about the past week (α = .93).

Household size and composition

To assess household size, we asked participants “other than yourself, how many people are currently living in the same place you are now?” with answer choices ranging from “living alone” to “10+ people.” For each person in their household, participants specified whether the person was a “spouse/partner/girlfriend/boyfriend” (subsequently referred to as partner), “child,” “parent,” “brother/sister,” “other family member,” “friend,” “roommate/acquaintance,” “live-in help,” or “other.” Participants could only select one option per household member.

Living with pets

We asked whether participants were “currently living with any pets” (yes/no).

Being a caregiver

Participants were asked whether they were “currently the primary caregiver for anyone else (e.g., children or elderly family members)” (yes/no).

Social/physical distancing

Participants indicated whether they were “currently practicing social or physical distancing,” and to indicate how many people aside from their household members got to within 6 feet or less of them on the previous day.

Hours spent video calling with family and friends

Participants were asked “yesterday, how many hours did you video call with family and friends” with answer choices ranging from “0” to “10+ hours.”

Study 1 results

The code used to conduct the Study 1 analyses can be found on the OSF at [https://tinyurl.com/y7b8cnw3]. Correlations between all variables in Study 1 can be found in Table 1.

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Table 1. Correlations among variables (Study 1).

https://doi.org/10.1371/journal.pone.0245009.t001

Did household size buffer changes in social connection as a result of the COVID-19 pandemic?

As reported in Folk et al. [43], our sample exhibited a slight but significant decrease in feelings of social connectedness from Time₁ to Time₂, and 98% of participants indicated they were social/physical distancing (see Table 2).

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Table 2. Means and standard deviations for household size and composition (Study 1).

https://doi.org/10.1371/journal.pone.0245009.t002

Pre-registered analyses. First, we examined whether household size (i.e., number of people in the household other than themselves) as a continuous measure (M = 2.54, range = 0 to 9 [with 77% living with 3 others or fewer], SD = 1.58) was associated with Time₂ social connectedness, controlling for Time₁ connectedness. After controlling for Time₁ connectedness, household size did not significantly predict Time₂ connectedness, b = 0.01, 95% CI = [-0.02, 0.04], p = .532 (see Table 3, Model 1). We then examined the association between living alone and Time₂ social connectedness, controlling for Time₁ connectedness. In this model, living alone (n = 49) was not significantly associated with Time₂ connectedness b = -0.12, 95% CI = [-0.30, 0.07], p = .230 (see Table 3, Model 2).

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Table 3. Results of multiple regression models (Study 1).

https://doi.org/10.1371/journal.pone.0245009.t003

Did household composition buffer changes in social connection as a result of the COVID-19 pandemic?

Pre-registered analyses. While household size did not appear to play a role in changes in social connectedness from before to mid-pandemic, we investigated whether features of household composition were related to Time₂ connectedness. Controlling for Time₁ connectedness, living with a partner (n = 67) predicted significantly greater social connectedness at Time₂, b = 0.22, 95% CI = [0.06, 0.38], p = .008 (see Table 3, Model 3). See Fig 1 for an illustration of this finding. In contrast, living with a pet (n = 184) was associated with lower Time₂ connectedness after controlling for Time₁ connectedness, b = -0.12, 95% CI = [-0.24, -0.01], p = .036 (see Table 3, Model 4). Although we also pre-registered a similar analysis investigating the effects of being a caregiver on social connection, we did not conduct it, as only 6 out of 548 participants reported being a caregiver.

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Fig 1.

Changes in social connection for those living with and without partners in Study 1 (left) and Study 2 (right). Note. Across both Study 1 and Study 2, those living with a partner reported greater increases in social connection from before the pandemic (Time₁) to during the pandemic (Time₂) than those not living with a partner. Error bars represent 95% Confidence Intervals.

https://doi.org/10.1371/journal.pone.0245009.g001

Exploratory analyses. To further investigate the relationship between household size and composition and Time₂ social connection, we entered the household variables (household size, living alone, living with a partner, and having a pet) into a single model predicting Time₂ social connectedness while controlling for Time₁ connectedness. Consistent with the results of our pre-registered analyses, in this full model, living with a partner was significantly associated with higher Time₂ social connectedness, b = 0.22, 95% CI = [0.06, 0.39], p = .008, whereas having a pet was significantly associated with lower Time₂ social connectedness, b = -0.15, 95% CI = [-0.26, -0.03], p = .014 (see Table 3, Model 5). No other effects were significant.

Was the relationship between household size and changes in social connection mediated by total hours video calling with family and friends or social distancing?

Pre-registered analyses. It is possible that we observed no relationship between household size and shifts in social connection because individuals in smaller households may be more likely to engage in video calling or may be less likely to socially distance from non-household members. However, correlations among these variables were nonsignificant (see Table 1), precluding mediation. The pre-registered mediation analyses are presented in S1 Table.

Study 2

Given our first study’s reliance on college students, we sought to replicate its results with a sample of adults from around the globe (U.S., U.K., and 26 other countries), who were recruited to complete our survey at two timepoints: once prior (Time₁) and once during (Time₂) the COVID-19 pandemic. We obtained ethics approval from the Institutional Review Board at the University of California, Riverside, and participants provided written consent to join our study. Our pre-registered stopping rules and analysis plans for Study 2 are available at [https://tinyurl.com/y8s5ssm9] on the OSF website. A portion of the data was also included in another pre-registered study [https://tinyurl.com/yc8b2n44].