Urban green space use during a time of stress: A case study during the COVID‐19 pandemic in Brisbane, Australia

Abstract Spending time in nature is one potential way to cope with the negative physical and psychological health impacts from major stressful life events. In 2020, a large fraction of the global population was impacted by restrictions to contain the spread of the COVID‐19 outbreak, a period characterised by marked health risks and behavioural changes. Here we explore whether people responded to this stressor by spending more time in nature and investigate the reasons for any changes. We surveyed 1,002 people in Brisbane, Australia in 2020, to measure the change in use of green space during the restrictions period and benefits people associated with visiting them. About 36% of participants increased their urban green space use, but 26% reduced it, indicating a great deal of flux. Furthermore, 45% of the previous non‐users of urban green space began using it for the first time during the restrictions period. Older people were less likely to increase their green space use and those with a backyard were more likely to increase their use of green spaces. Participants' change in use occurred regardless of the amount of green space available in close proximity to their households. In addition, we did not find a relationship between nature‐relatedness and change in use. People's reasons for green space use shifted during the pandemic‐related restrictions period, with many emphasising improvement of personal well‐being rather than consolidating community capital. Most participants indicated an increase in the importance of the psychological and physical benefits obtained from urban green spaces. We conclude that increased urban green space use during moments of stress such as the COVID‐19 pandemic has the potential to ameliorate some of the negative effects of the stressor, but that the capacity and desire to spend more time in green space varies markedly across society. Sufficient urban green space provision for all sections of society will maximise the opportunity to employ a nature‐based coping mechanism during times of personal or community stress.

this stressor by spending more time in nature and investigate the reasons for any changes.
2. We surveyed 1,002 people in Brisbane, Australia in 2020, to measure the change in use of green space during the restrictions period and benefits people associated with visiting them.
3. About 36% of participants increased their urban green space use, but 26% reduced it, indicating a great deal of flux. Furthermore, 45% of the previous nonusers of urban green space began using it for the first time during the restrictions period. Older people were less likely to increase their green space use and those with a backyard were more likely to increase their use of green spaces. 4. Participants' change in use occurred regardless of the amount of green space available in close proximity to their households. In addition, we did not find a relationship between nature-relatedness and change in use.
5. People's reasons for green space use shifted during the pandemic-related restrictions period, with many emphasising improvement of personal well-being rather than consolidating community capital. Most participants indicated an increase in the importance of the psychological and physical benefits obtained from urban green spaces.
6. We conclude that increased urban green space use during moments of stress such as the COVID-19 pandemic has the potential to ameliorate some of the negative effects of the stressor, but that the capacity and desire to spend more time in green space varies markedly across society. Sufficient urban green space provision for all sections of society will maximise the opportunity to employ a naturebased coping mechanism during times of personal or community stress.

| INTRODUC TI ON
In the first quarter of 2020, the global community undertook a series of actions designed to decelerate the spread of the novel coronavirus SARS-CoV-2 (causing coronavirus disease 2019, hereafter . Many of these actions comprised lockdown strategies aimed at drastically reducing people's mobility (Google, 2020). The fast-moving situation combined with poor or inadequate provision of information caused a number of human behavioural changes (Goldman, 2020), along with wide-ranging psychological impacts (Brooks et al., 2020). For instance, in one survey where people reported spending 20-24 hr per day in quarantine, more than half reported the psychological impacts of COVID-19 as moderate to severe and one-third reported moderate-to-severe anxiety (Wang et al., 2020). Urban green spaces provide a broad range of benefits to human health and well-being that could potentially ameliorate some of these acute stresses. The pandemic has provided a unique opportunity not only to examine changes in the urban green space use under this specific set of conditions but also to gather information about people's reasons for visiting green spaces.
Health and well-being benefits derived from urban nature can reduce many of the stresses associated with urban living (Houlden et al., 2018;Keniger et al., 2013;Twohig-Bennet & Jones, 2018;Zhang et al., 2017). More broadly, nature experiences can play a pivotal role for mental health during stressful life events. For instance, Marselle et al. (2019) found that stressful life events were associated with an increase in perceived stress, depression, and a decrease in positive affect and mental well-being, while nature group walks were associated with a decrease in perceived stress and depression and an increase in positive affect and mental well-being. Furthermore, experiencing nature was key in rehabilitating individuals who had been severely affected by a life crisis, such as a divorce, bereavement or other severe loss (Ottosson & Grahn, 2008). Also, van den Berg et al. (2010) found that among patients who suffered a range of stressful life events, those who had access to large amounts of green space within 3 km of their residence reported better perceived mental and general health, compared to patients with low amount of green space in this radius. Several studies during the COVID-19 pandemic-related lockdown found significant outcomes associating physical and mental health with urban nature. For instance , Frühauf et al. (2020) concluded that moderate physical activity outdoors during periods of mobility restrictions, such as exercise in nearby urban forests, can deliver important benefits to physical and mental health. Other research shows that the relative abundance of indoor and outdoor nearby nature was associated with lower depression/ anxiety symptoms and lower depression/anxiety rates in a cohort of students in Bulgaria (Dzhambov et al., 2020). Furthermore, Soga et al. (2020) found that the use of green space and the existence of green window views from within the home were associated with increased levels of self-esteem, life satisfaction and subjective happiness and decreased levels of depression, anxiety and loneliness.
Although there are many studies of individual effects of green space use on various aspects of health and well-being, the global pandemic of COVID-19 presents an opportunity to measure the role of green spaces as a nature-based coping mechanism during a stressful life event that was simultaneously experienced by a large portion of the global community.
Urban green spaces could contribute to enhancing individual and community resilience during stressful times. Psychological resilience is the process of an individual to adapt to adversity, trauma, tragedy, threats or significant sources of stress (American Psychological Association, 2012). Examples of stressful events include the death of a family member or close friend, illness or injury, unemployment, financial crises, separation or break-up of relationships, interpersonal or legal problems, and losses (Brugha et al., 1985). On the other hand, social resilience is a community's ability to recover from and/or respond positively to external stresses and disturbances as a result of social, political or environmental change (Adger, 2000). Examples of external stresses to a community range from natural catastrophes and financial crises to global pandemics (Fernández-Prados et al., 2021;Khalili et al., 2015;Serban & Talânga, 2015). Nature experiences have been suggested to promote both individual-and community-level resilience (Buikstra et al., 2010;Tidball, 2012;Zautra et al., 2010). The COVID-19 pandemic has had significant impacts on public physical and psychological health (Huang & Zhao, 2020;Salari et al., 2020) and studies have shown that a regular dose of nature can contribute to the improvement of a wide range of markers of well-being during the pandemic (Frühauf et al., 2020;Soga et al., 2020). This information is key for understanding the extent to which urban green spaces contribute to individual and community resilience.
Here, we investigate whether and how urban green space use changed during the COVID-19 pandemic. We focused on a broad cross-section of urban residents in the city of Brisbane, Australia during the period of the COVID-19-related mobility restrictions. We (a) document changes in the pattern and frequency of visitation to urban green spaces, (b) determine whether any change is associated with a change in people's perceptions of the benefits provided by green spaces, (c) explore the factors that predicted change in use of urban green spaces and (d) evaluate whether people with a stronger orientation towards nature were more likely to increase their use of urban green spaces. Our results highlight the importance of urban green spaces for urban residents during this time of major stress, providing a range of health, recreational and other benefits. We thus emphasise the need to ensure sufficient urban green space provision for all sections of society, as this will maximise the opportunity to employ a nature-based coping mechanism during times of personal or community stress.

| Survey and data collection
We quantified the change in participants' use and perception of urban green spaces before and during the restrictions period, and we also measured nature-relatedness at the time of the survey. To reduce bias from those who opt-in to participate, we chose to use probabilistic sampling (individuals in the population have a known non-zero chance of being selected through the use of a random selection procedure) as opposed to convenience sampling methods (the probability that every individual included in the sample cannot be determined, or it is left up to each individual to choose to participate; Fricker, 2008). The survey was delivered online to participants by a market research company in June 2020, in accordance with the Institutional Human Research Ethics Approval, approval number 2020001073 (the full survey is provided in the Supporting Information). All participants were at least 18 years old and provided written consent by checking a box indicating their agreement to participate in the survey.
Participants were invited to complete the survey according to four nested stratification criteria that ensured the sample reflected a range of Brisbane's demographic groups, broad socio-economic spread and an even spatial distribution across the city. The stratification rules were as follows: (a) an equal number of males and females, (b) an equal number of participants above and below 45 years of age, (c) the income quartiles reflected those from the total Brisbane population and (d) participants' location of residence was evenly distributed across Brisbane (North/South/East/West side of Brisbane).
Participants also provided information on the number of people living at home (specifying any school-aged children ;Schipperijn et al., 2010, and the primary language spoken at home as a proxy for ethnicity; Kimpton, 2017). Furthermore, participants provided either their exact address, the address to the nearest 10 houses or the location of the street corner closest to their home. This information was used to obtain an objective measure of green space availability and proximity within a 300 m radius around each participant's residence. We chose 300 m as this distance has been widely recommended as a target for public access to local urban green spaces (Annerstedt van den Bosch et al., 2015). To achieve this, we geolocated residences using either (a) the exact address provided by participants or in cases where only the name of one street of the residence was given and (b) the midpoint of the street provided.
Then, we used a map of public green spaces provided by Brisbane City Council (Brisbane City Council, 2020d) to calculate public green space coverage within the 300 m buffer. For those participants who did not provide their address, we calculated green space availability by averaging the amount of green space within the radius of all the residences sharing the same postcode.

| Use and perception of urban green spaces
To ensure that all participants had a shared understanding of urban green spaces, a definition was provided at the start of the survey, which described green spaces as including urban parks, bushlands, picnic areas, riversides and beaches across Brisbane. The sampling design was randomised to avoid biases towards a particular type of green space with certain characteristics. Participants were asked to report whether they had visited an urban green space before and during the restrictions period, specifying their frequency of use in both time points (never, once every two weeks, once a week, 2-3 days a week, 4-5 days a week and 6-7 days a week). We also asked participants to rate their reasons for using urban green spaces (physical health benefits, reduction of stress, reduction of anxiety, reduction in depression, connection to nature, connection to spiritual side, appreciation of the environment, family togetherness, provision of clean air and sense of community) and whether each of these had increased or decreased in importance during the restrictions period using a 5-point Likert scale (1 = much more important, 5 = much less important). For the analysis of the change on perceptions of benefits provided by urban green spaces, we constructed a new variable named 'psychological well-being benefits' by summing up three of the perceptions provided in the survey questionnaire: reduction of stress, reduction of anxiety and reduction in depression. These three states are known to be strongly related to psychological distress under 'normal' circumstances and also during the COVID-19 pandemic (Lee et al., 2020;Rahimnia et al., 2013). To understand whether people with access to a backyard showed a different change in their green space use, participants were also asked to report whether they had access to a backyard in their place of residence.

| Change in frequency of use of urban green spaces
We calculated the change in frequency of green space use by subtracting the category of frequency of use (never (1), once every two weeks (2), once a week (3), 2-3 days a week (4), 4-5 days a week (5) and 6-7 days a week (6)) during the restrictions period from the usage before the restrictions period. Positive numbers (1-5) represent an increase in the frequency of use, whereas negative numbers (−1 to −5) represent a decrease in the frequency of use. Zero denotes no change in the frequency of use.

| Nature-relatedness
We hypothesised that people more oriented to nature would be more likely to use urban green spaces than those with a weaker connection to nature . Thus, we measured participants' levels of connectedness with the natural world using the Nature-Relatedness Scale (Nisbet et al., 2009). This validated scale consists of 21 statements representing three factors: (a) NR-Self, an internalised identification with nature; (b) NR-Perspective, an external environmental worldview and (c) NR-Experience, a measure of the level of comfort with, and desire to be out in, nature. These can be summarised, respectively, as assessing the affective, cognitive and experiential aspects of a person's connection to nature. Participants used a 5-point Likert scale to rate their level of agreement (1 = strongly disagree, 5 = strongly agree) with each of the 21 statements, with several of the statements being reverse coded. Responses to all 21 statements can be averaged to create an overall NR-Average measure of connection to nature (Nisbet et al., 2009) with a higher score indicating a stronger connection to nature.

| Statistical analysis
To examine the reported change in frequency of use from before to during the restrictions period, we first conducted a cumulative link mixed-effects model (ordinal regression) with the frequency of green space use as the response variable, a binary indicator of use before and during the restrictions period as the explanatory variable, and participant ID as a random factor.
To investigate the association between six explanatory variables (gender, age, income, nature-relatedness score, backyard access and green space availability within a radius of 300 m) and the change in frequency of green space use, we used generalised linear mixed models. We used generalised linear mixed models with a Gaussian distribution for this analysis because the frequency distribution of the response variable (change in the frequency of use of urban green spaces) approximated a normal distribution. As a result of the unprecedented circumstances of the COVID-19 pandemic, insufficient knowledge existed of people's behaviour under study to generate a clear hypothesis of what would drive the change of urban green space use. Therefore, we used an explorative approach that generates rather than tests hypothesis about unknown relationships (Symonds & Moussalli, 2011). For this, we generated a global model with all the explanatory variables, and then compared models for all possible explanatory variable subsets using Akaike information criterion (AIC; Burnham & Anderson, 2002). We also tested global models with interactions between explanatory variables. We used participants' postcode as a random factor, aggregated into groups of five adjacent postcodes to increase variance among data points.
All continuous explanatory variables were standardised. Also, all continuous explanatory variables were log-transformed (where appropriate) to meet assumptions of normality. Prior to running the global model, we tested for correlations between explanatory variables using Spearman's rank correlations. Since green space availability and the nearest green space proximity were highly correlated (r = 0.67), we only used green space availability for further analyses. We then selected the models that accounted for 85% of the cumulative Akaike weights as the best-ranked models and compared them using their delta-AIC values. To investigate the sensitivity of the results to the choice of this model type, we also examined the association between all six explanatory variables and change in frequency of use using the cumulative link mixed-effects model (ordinal regression; Table S1).

| RE SULTS
A total of 1,002 people responded to the survey, comprising 503 identifying as female, 497 as male, and 2 as other gender. Table 1 illustrates how participants were stratified by age, income and other socio-demographic characteristics.

| Change in use of urban green spaces
There was a marked change in the pattern of urban green space use during the restrictions period, with 62.7% of survey participants changing their use of urban green spaces relative to the time before the restrictions were introduced. About 36.5% (n = 365) of people increased their use, 26.2% (n = 263) decreased and 37.3% (n = 374) did not change their frequency of green space use relative to the period before the restrictions were imposed (Table 1). Across all participants, 12.8% (n = 129) used urban green spaces daily before the restrictions period, but this increased to 19.2% (n = 193) during the restrictions period. There was also an increase in the number of people who did not use green spaces at all from 8.5% (n = 85) before the restrictions period to 12.3% (n = 124) during the restrictions period.
The increase in participants' use of urban green spaces during the restrictions period compared to before the restriction period was statistically significant (estimated coefficient = 0.441; standard TA B L E 1 Socio-demographic characteristics of the participants and change of use of green space use calculated by subtracting the category of frequency of use (never, once every two weeks, once a week, 2-3 days a week, 4-5 days a week and 6-7 days a week) during the restrictions period from the usage before the restrictions period. A positive number represents increased use, a negative number represents decreased use and zero denotes no change in frequency of use error = 0.086, p < 0.001). The proportion of people who increased green space use during the restrictions period was greater than those who decreased across almost all demographic groups (Table 1), with the important exception of people over the age of 45, who mostly either maintained or reduced their level of green space use.

| Former non-users of urban green space
In all, 85 people indicated they had never used green spaces before the restrictions period (first row in Table 2), comprising 8.5% of participants.
Of the 85 non-users, 14 (16.5%) began using green spaces once every two weeks, 3 (3.5%) used them once a week and so on (see Table 2 for complete breakdown). Of these non-users, 47 (55.3%) continued not to use green spaces, meaning that just under half of the non-users began using green spaces for the first time during the restrictions period.

| Users who reduced or increased their use of urban green spaces
More than one-third (36.5%) of the sample population increased their use of urban green spaces during the restrictions period (white cells to the right of the diagonal in Table 2). Across the different categories of frequency of use (i.e. never, once every 2 weeks, etc.), we found that between 17.8% and 67.4% of people increased the use of green spaces during the restriction period.
In contrast, less than one-third of the sample population reduced their use of green spaces (white cells at the left of the diagonal in Table 2). Decreases in green space use were largely a drop of only one category of use. For instance, one-quarter (24.3%) of those who used urban green spaces 4-5 days a week decreased their use to 2-3 days a week.

| Nature-relatedness and change in use of urban green spaces
One-third of the former non-users had markedly low naturerelatedness (nature-relatedness score ≤ 3) and two-thirds were moderate-to-strongly nature-related (nature-relatedness score ≥ 3; Figure 1a). Over half of the people who increased their green space use were moderately nature-related (nature-relatedness score = 3 > 4), one-quarter was strongly nature-related, and less than one-quarter were weakly nature-related ( Figure 1b). Over twothirds of the participants that reduced their use were moderately TA B L E 2 Change in use of urban green spaces before and during the restrictions period. Numbers in grey cells forming a diagonal depict participants whose use remained unchanged, green and brown cells depict participants who increased and decreased their usage, respectively, comparing usage before and during the restrictions period. Totals from rows and columns correspond to totals for each category of use before and during the restrictions period, respectively. Percentages in bold brackets represent the proportion of people from the total of participants based on their use before and during the restrictions period. Percentages in brackets represent the proportion of people based on their use before the restrictions period nature-related, only 17% were strongly nature-related and less than one-quarter were weakly nature-related.

| Predictors of change in green space use of urban green spaces
We did not find a clear single model that explained green space use change from before to during the restrictions period. Within the top candidate models, the best model with the smallest AIC only included age (A) and backyard access (B) with an Akaike weight of 0.153 (Table 3). This can be interpreted that there is a 15.3% chance that A + B is the best-approximating model describing the data given the candidate models. Notably, age is the only variable that appears in all models of the 85% confidence set, indicating its clear importance in explaining the variation in green space use change. Six models had delta AIC values below 2.0 and both age and backyard access were included in most (all for age, and five for backyard access) of these six models. The estimated coefficients indicated that age was negatively associated with changes in green space use while the accessibility to a backyard was positively associated with changes in green space use (Figure 2a,b). The results from the cumulative link mixed-effects model were similar; both age and backyard access showed a significant association with changes in green space use (Table S1).
We found that the availability of green space did not influence change in use during the restrictions period (Figure 3a). Most

F I G U R E 1
Participants' nature-relatedness scores and (a) weekly urban green space use before the restrictions period and and (b) changes in urban green space use. Higher nature-relatedness score indicates a stronger connection to nature (5 = high nature-relatedness; 4,3 = moderate nature-relatedness; 2,1 = low nature-relatedness). Urban green space use change is represented by numbers (−5 to +5). See Table 1

| Reasons for using urban green during the restrictions period
People cited a broad range of the benefits obtained from visiting urban green spaces, with the top reason being psychological wellbeing benefits (77.4%; Figure 4a) followed by physical benefits (62.8%), and connection to nature 52.4%, suggesting that visits were mostly perceived to improve general personal well-being. Visiting green spaces for the provision of clean air was the main reason for 32.7% of the sample population while sense of community was perceived as an important reason for only 6.4% of participants.
There were marked increases in importance across almost all the benefits for visiting green spaces during the restrictions period ( Figure 4b). The two exceptions to this were sense of community and connection to spiritual side, given that only 37% and 25% of participants, respectively, reported an increase in importance during the restriction period than before it (Figure 4b). Perhaps tellingly, two of the variables that form psychological well-being benefits, reduction of stress and reduction of anxiety, were rated among the most important reasons for green space visitation during the restrictions period by 59% and 55% of people, respectively, and also physical benefits by 57% of participants, with these three benefits representing the biggest increase in ratings for any of the benefits of visiting green spaces (Figure 4b). In contrast to those who increased or decreased their use of green space during the restrictions period, the former non-green space users cited the physical benefits provided by urban green spaces as their top reason for initiating visits.

| D ISCUSS I ON
Our results indicate that there were substantial changes in people's usage and perceptions of urban green spaces during the COVID-19 F I G U R E 2 Association between (a) participant's age and change in urban green space use (black line with shading indicates the estimated regression model with 95% confidence interval); (b) backyard access and change in urban green space use (error bars indicates the 95% confidence interval estimated by the generalised linear mixed model). Urban green space use change is represented with numbers (−5 to +5). See Table 1 caption or methods section for explanation of how the change variable is calculated F I G U R E 3 Urban green space (a) availability within 300 m radius to participant's residences and change in use and (b) proximity to participant's residences and change in use. Urban green space use change is represented with numbers (−5 to +5). See Table 1  were allowed. Our reported increase in green space use mirrors that by Venter et al. (2020), who estimated that outdoor recreational activity in Norway increased by 291% during the restrictions period compared to a 3-year baseline average, even after controlling for seasonality changes. Our results suggest that green spaces have a crucial role in maintaining health and well-being during stressful periods, and particularly during the restrictions period when levels of stress, anxiety and depression were moderate to high (Salari et al., 2020).
Urban green spaces are also recognised for their role in generating social capital and reducing social isolation (Dinnie et al., 2013;Haq, 2011;Lo & Jim, 2010). However, during the restrictions period, our results show that people's reasons for use of green spaces were chiefly for the personal benefits rather than community cohesion benefits, perhaps because contact between individuals was actively discouraged to contain the disease outbreak (Australian Government Department of Health, 2020a) and also as a result of concern about spreading or contracting the disease through contact with other people . Our results revealed that as long as urban green spaces are available at 'walking distance' (within 300 m), the amount did not influence participant's use change. This means that accessible urban green spaces, regardless of their size and amount, may have facilitated the restorative benefits provided by urban ecosystems during the restrictions period. Some studies show that a higher proportion of green space at a 'walking distance' translates into increased physical benefits (Giles-Corti et al., 2005) and a community's health and well-being (Annerstedt van den Bosch et al., 2015). Other studies have shown that pocket parks and other small green spaces may provide health benefits, mainly through psychological restoration (Kaplan et al., 1998) or recreation (Baur & Tynon, 2010. Our finding is particularly important because it indicates that, regardless of the amount of green space, people still visited them to obtain the various benefits provided, in particular psychological restoration. However, it is important to notice that in densified neighbourhoods, green spaces available at 'walking distance' are likely to reach their capacity and become overcrowded (Campbell, 2020) causing discomfort and health risks for certain groups.
Our results indicate that the elderly, the group who are the most at risk of contracting severe complications from COVID-19 (Australian Government Department of Health, 2020b), were less F I G U R E 4 (a) Reasons for using urban green during the restrictions period, represented by differing colours and (b) Change in the reasons for using urban green during the restrictions period in comparison with before the restrictions were put in place, with numbers on the left and brown bars indicating reasons that became less to much less important, grey meaning no change, and numbers on the right and green colours indicating reasons that became more to much more important We initially hypothesised that people more oriented to nature would be more likely to use urban green spaces than those with a weaker connection to nature. However, our results suggest that regardless of nature-relatedness, people changed their use of urban green spaces. Lin et al. (2014) showed that urban dwellers were motivated to use urban green spaces more by their orientation towards nature than the distance of urban green spaces to their residences, but our results suggest that during a time of elevated stress, usage of green space are possibly motivated by factors other than orientation to nature. The COVID-19 pandemic-related lockdowns and restrictions were simultaneously experienced by the entire Brisbane population causing health effects on people (Douglas et al., 2020), and we conclude that increased green space use, for some people, was a way to mitigate some of these impacts regardless of nature-relatedness or former frequency of use.
A critical next step is longitudinal research to understand whether the change in frequency of use and perceptions of urban green spaces (for physical and mental well-being) remains a sustained outcome of the COVID-19 pandemic. It is possible that the effects of the COVID-19 pandemic on the change in use and perception of urban green spaces may vary by context. For example, residents of low-and middle-income countries may face differences in the quality and quantity of benefits derived from green spaces and accessibility to green spaces, compared to those in wealthier countries (Amano et al., 2018). As such, future research might consider these differences and conduct follow-up surveys to estimate whether there was a change in urban green space use and perceptions during the COVID-19 restrictions period across different contexts or countries. Another important future step is to strategically plan for the availability and proximity of urban green spaces in line with population density to avoid overcrowding (Campbell, 2020) and ensure adequate provision of ecosystems benefits. Lastly, we recommend exploring the characteristics of urban green spaces that can be optimised for stress recovery and result in use change patterns during moments of stress.
A study limitation is the retrospective nature of the data, given that participants reported their frequency of use and perceptions of the benefits of green spaces before and after the restrictions period 30-90 days after their use. This means that there may be some inaccuracy in people's reports due to the memory recall errors.
Prior research has examined the effects of the length of reference periods (time frame in which participants are asked to recall activities or experiences) on memory and recall (Gryczynski et al., 2015;Winkielman et al., 1998). Ayhan and Isiksal (2004) claim that the larger the reference period, the stronger the memory error effect.
Furthermore, future research can reduce the effects of recall errors by conducting a prospective study.
Our results suggest that urban green spaces are valuable urban settings that can support different forms of restoration during a global health crisis. Urban green infrastructure is not only a keystone for individual and community resilience to moments of stress in life but also provides other forms of social and environmental resilience, such as food security (Khumalo & Sibanda, 2019) and acts as a fundamental ecological structure for climate change adaptation such as flood control (Carter et al., 2018), heat stress reduction (Ranagalage et al., 2020) and air quality regulation (Lafortezza et al., 2009).
Furthermore, given the positive association of urban nature with improved public health, it can also be translated into public economic benefits due to the reduction in the cost of healthcare (Natural Capital Committee, 2015); however, these benefits can be contextdependent (Amano et al., 2018). The COVID-19 pandemic shed light on the need to prioritise urban ecosystem services in the planning agenda and also the need to better understand the dynamics of people's uptake of these services not only under business as usual but also under challenging circumstances to maximise the benefits of green infrastructure. For that reason, in the post-pandemic era, making a healthy urban environment that incorporates nature-based solutions could make cities more resilient communities to the challenges of the twenty-first century.

CO N FLI C T S O F I NTE R E S T
The authors declare no conflict of interest.

DATA AVA I L A B I L I T Y S TAT E M E N T
As per our agreement with the University of Queensland Ethics office and due to the confidentiality of the data, we are unable to make it publicly available.