Abstract
Purpose
This paper presents the findings of assessing the strategies required for improved work-life balance (WLB) of construction workers in Eswatini. This was done to improve the work-life relationship of construction workers and, in turn, improve the service delivery of the construction industry in the country.
Design/methodology/approach
The study adopted a quantitative research approach using a questionnaire administered to construction professionals in the country. The data gathered were analysed using frequency, percentage, Mann–Whitney U test, exploratory and confirmatory factor analysis (CFA).
Findings
The findings revealed that the level of implementation of WLB initiatives in the Eswatini construction industry is still low. Following the attaining of several model fitness, the study found that the key strategies needed for effective WLB can be classified into four significant components, namely: (1) leave, (2) health and wellness, (3) work flexibility, and; (4) days off/shared work.
Practical implications
The findings offer valuable benefits to construction participants as the adoption of the identified critical strategies can lead to the fulfilment of WLB of the construction workforce and by extension, the construction industry can benefit from better job performance.
Originality/value
This study is the first to assess the strategies needed for improved WLB of construction workers in Eswatini. Furthermore, the study offers a theoretical platform for future discourse on WLB in Eswatini, a country that has not gained significant attention in past WLB literature.
Keywords
Citation
Aghimien, D., Aigbavboa, C.O., Thwala, W.D., Chileshe, N. and Dlamini, B.J. (2024), "Help, I am not coping with my job! – A work-life balance strategy for the Eswatini construction industry", Engineering, Construction and Architectural Management, Vol. 31 No. 13, pp. 140-159. https://doi.org/10.1108/ECAM-11-2021-1060
Publisher
:Emerald Publishing Limited
Copyright © 2022, Douglas Aghimien, Clinton Ohis Aigbavboa, Wellington Didibhuku Thwala, Nicholas Chileshe and Bhekinkosi Jabulani Dlamini
License
Published by Emerald Publishing Limited. This article is published under the Creative Commons Attribution (CC BY 4.0) licence. Anyone may reproduce, distribute, translate and create derivative works of this article (for both commercial and non-commercial purposes), subject to full attribution to the original publication and authors. The full terms of this licence may be seen at http://creativecommons.org/licences/by/4.0/legalcode
Introduction
The construction industry has been characterised by poor performance in delivering projects within the agreed budget, schedule, and specification of the clients (Aghimien et al., 2020; Oshodi et al., 2017). Several factors, including employee-related issues, have been held accountable for these poor performances (Dlamini et al., 2019). This is because the construction industry worldwide is labour intensive (Aghimien et al., 2021; Shehata and El-Gohary, 2011; Song et al., 2020). The industry is project-based and requires long working hours to meet deadlines. This project-based nature of the industry means that workers have to move from one site to another, travel to different workplaces, and put in extra-long hours. As a result, significant pressure is subsequently placed on construction workers, and they are exposed to issues that affect their work and family/personal life (Dlamini et al., 2019; Shehata and El-Gohary, 2011). The resultant effect of this poor work-life balance (WLB) in the construction industry is evident in employees' absenteeism, low job satisfaction, turnover intention, low labour productivity, and poorly motivated workers that have characterised the industry (Lingard et al., 2007; Shehata and El-Gohary, 2011; Sang et al., 2009). More so, construction projects are affected by this imbalance in employees’ work-life, leading to poor project delivery in the industry and poor performance of construction organisations (Dlamini et al., 2019; Lingard et al., 2007).
To address these employee-related issues, several studies have continued to emanate on employees' WLB (Chan et al., 2020; Lingard et al., 2012; Oyewobi et al., 2019; Tijani et al., 2020). According to Johnson (2015), WLB combines healthy practices of professional life and personal responsibilities. Individuals who accomplish a balance between their work and personal life tend to have an improved lifestyle and fulfil their employment goals by reducing pressure and despondency, which brings about great wellbeing (Bhaga, 2010). While WLB has continued to gain attention in the construction industry of most developed and developing countries, less attention has been placed on this area of research in Eswatini. A quick literature search of WLB-related publications from Eswatini in notable databases such as Scopus and ISI-web of science yielded no result. The absence of research emanating from this area requires attention, considering that the construction industry in the country has been characterised by long working hours and demographic changes (age, gender, income etc.) that require WLB initiatives (Dlamini et al., 2019). Eswatini, as one of the South African Development Community (SADC) countries, is committed to gender equality practice and is a signatory of the SADC Protocol on Gender and Development to increase women's participation in industries that contribute to the countries' economy (Veritas, 2008). However, it has been noted that the emergence of women within the labour force has brought about a whole new dimension in the research for healthy WLB (Yokying et al., 2016). This is because, for women, work-life differs, as after intense and long working hours at a workplace, they have the added burden of domestic and care responsibilities at home (Reddy et al., 2010). Since the construction industry in Eswatini is characterised by both male and female professionals, addressing issues affecting the WLB of construction workers, in general, could help improve the lives of the individual employees, their families, and the society at large.
Based on the above knowledge, this study assessed the strategies needed for improved WLB of construction workers in Eswatini. The critical strategies needed to improve WLB were assessed to give a practical guide to construction organisations, government institutions, and professional bodies the help needed to shape their WLB policies. The study offers a theoretical platform for future discourse on WLB in Eswatini, a country that has not gained significant attention in past WLB literature.
Theoretical background
Several theories have shaped the understanding of WLB in the past. One such theory is the “spill-over” theory which suggests that both the work-life and family-life of an individual affect each other. The theory holds that both positive and negative experiences or work abilities can continue into individuals' positive or negative experiences or abilities at home and vice versa (Bello and Tanko, 2020; Khateeb, 2021). This theory is the opposite of the earlier segmentation theory, which noted that the work and home of individuals are separate entities that are segmented and are not affected by each other (Edwards and Rothband, 2000; Guest, 2002). Other theories like the compensation theory (Lambert, 1990; Mathew and Natarajan, 2014; Roy, 2016), enrichment theory (Powell and Greenhaus, 2006), instrumental theory (Evans and Bartolomé, 1984; Guest, 2002), and inter-role conflict theory (Greenhaus and Beutell, 1985) have all shown that a relationship exists between the work-life and family-life of individuals, and creating a balance between these two domains is essential. Noon et al. (2013) described WLB as the ability of an individual to achieve success in their work and non-work life without undue pressure from one aspect, hampering the satisfaction derived from the other. Smith et al. (2011) simply describe it as the ability of individuals to spend sufficient time at their job and at the same time being able to spend sufficient time in other quests such as families, hobbies and involvement in community engagements. To achieve this balance, WLB practices or strategies are essential. Lingard et al. (2007) described these practices as interventions designed to create a healthy balance between workers' personal life and job tasks.
In Australia and the United States of America, employers have realised that adopting the right WLB initiative can help retain good performing employees, increase the quality of work, competitive advantage, and improve organisational performance (De Cleri et al., 2005; Kossek et al., 2010). Therefore, to effectively manage the construction workforce to improve performance, it is important to understand the strategies needed in the work environment. Strategies such as work flexibility and compressed week have been proposed in past studies as a way of attaining WLB (Bryce et al., 2019; Lingard et al., 2008). Wedderburn (1996) has noted that compressed working week is a common practice among developed countries. It is a method used to cut the length of working days in a week, but increasing the length of the working hours in a day in any given cycle, and this approach has proven to be efficient in creating some balance between the work and family life of employees (Francis et al., 2013; Lingard et al., 2007; Wedderburn, 1996). For example, in the Netherlands, a compressed working week proved to be efficient and successful as it made it possible to reduce working hours and increase operation time (Wedderburn, 1996).
Aside from the compression of the working weeks, construction organisations need some flexibility in their working arrangement. This could include flexible work hours (flexi-time), part-time working arrangements and job sharing to enhance workers wellbeing and provide good practice for work-life equilibrium (Skinner and Pocock, 2011). Flexible work options positively affect work-life practice (Thorgeirsdóttir and Kelliher, 2016). Ensuring flexibility in employees' working time is essential to both employees' job satisfaction and organisational performance (Molleman and van den Beukel, 2007; Powell and Mainiero, 1999). Unfortunately, this concept of flexi-time is yet to be fully embraced in the construction industry because of the industry's complex nature, wherein projects are controlled by time (Burnand, 2015). Thus, the long working hours evident in the industry have been a principal culprit of work-life imbalance. More so, the failure of the industry to have regular and reasonable working hours have continued to deter the entrance of young prospective employees seeking to get hands-on experience of parenting (Lingard and Francis, 2008). To address this, part-time work can also be adopted, particularly for female employees (Albertsen et al., 2008). Albertsen et al. (2008) noted that dual-earning couples in part-time arrangements tend to experience fewer work-family conflict incidents than those employed full-time. Organisations can also ensure job sharing whereby the organisation policy allows two employees to share one job. This offer reduction in the number of hours that one employee is supposed to work in a week and advantageously enable the employee to have an opportunity to attend to issues in their personal life. The employer benefits productivity, as job sharing enables increased opportunities for the dual contribution of fresh ideas, knowledge, expertise, a combination of quality experience, as well as reduction in the level of absenteeism and turnover (León et al., 2019). Other flexible work arrangements include telecommuting or telework, where employees can complete job tasks outside the organisation. This creates some flexibility for employees to carry out their job functions while attending to personal/family issues (Skinner and Pocock, 2011).
The demographic composition of the workforce in the construction industry has dramatically changed in recent years. The increase of women in the industry has prompted the demand for maternity/parental leave (Zheng et al., 2016). In most countries, organisations are compelled by law to implement the maternity and parental leave provisions (Burgess et al., 2007; Dex and Bond, 2005). However, there have been claims that some organisations often have challenges in completely meeting the legal requirements when dealing with leave options to their employees. Organisations' neglecting maternity and parental leave options run the risk of negatively affecting their employees (especially women) WLB (Burgess et al., 2007). More so, Forry and Hofferth (2011) indicated the need for a childcare programme that could help working parents. This can be achieved by providing and facilitating onsite day-care centres to save female employees from the stress of finding dependable childcare outside their organisation. Zheng et al. (2016) also emphasised that in some organisations, they could alternatively formulate a sponsored childcare programme to support female employees. Sponsoring childcare facilities strategy can significantly impact job satisfaction, commitment to work, and reduction in employee turnover intention (Morrissey and Warner, 2011).
Career development through study leave has been proposed as an effective WLB strategy. Employees can go on study leave, as professional employees need constant training to improve job productivity and professional growth. Organisations that provide paid study leave to workers tend to benefit employee loyalty and job satisfaction (Monterde, 2015). Also, strategies to improve employees' health and wellbeing can help attain WLB within an organisation (Chan et al., 2020). Meyer and Maltin (2010) stated that the key indicator of an organisation's success relies on employees' health and wellbeing. It has been observed that organisations that have implemented proper well-being programmes have created a safe and healthy working environment, thus resulting in decreased absenteeism, increased employee retention, and improved organisational productivity and job performance. This approach has helped create some WLB among employees (Baicker et al., 2010; Chan et al., 2020). Also, giving employees access to health insurance with family coverage can add value to WLB. Unfortunately, most employers offer such privileges to employees who occupy higher positions in their organisations (Galinsky and Bond, 1998). Based on the aforementioned, Table 1 summarises the WLB strategies assessed in this study.
Research methodology
The research follows a post-positivist philosophical stance using a quantitative research approach with a questionnaire as the instrument for data collection. This research approach has been widely embraced in past WLB studies in construction (Chan et al., 2020; Dlamini et al., 2019; Irfan et al., 2021; Oyewobi et al., 2019). The use of a questionnaire for the study was based on its ability to cover a wide range of audiences within a short period (Tan, 2011). The questionnaire was designed in two sections, with the first section harnessing the respondents' demographic characteristics. The second section sought to unearth the most critical strategies for attaining effective WLB in the Eswatini construction industry using the variables in Table 1. This second section was assessed on a five-point Likert scale, with one being “not important” and five being “very important”.
The designed questionnaire was distributed to registered construction professionals in Mbabane and Manzini, the two main cities in the country's four regions. The choice of selecting these cities is a result of their high concentration of construction professionals and organisations. These professionals were drawn from the council of Architects, Engineers, Surveyors and Allied Professionals (AESAP). The AESAP database revealed 137 registered professionals, which formed the study's target population. It is noteworthy to add that Eswatini has approximately 1.2 million people and a construction industry that is still growing and unstructured (Thwala and Mvubu, 2009; World Bank, 2021). Therefore, getting a high number of construction professionals as obtained in studies from other developing countries was unlikely (Aghimien et al., 2019). Based on the targeted population, a census of all 137 registered professionals was conducted, and questionnaires were sent out via emails to them. A total of 90 questionnaires were retrieved, and after careful evaluation, only 75 were useable as the rest had incomplete information. The useable questionnaire represented a 54.7% response rate. This response rate was deemed adequate for the study as past construction-related studies have noted that a response rate of between 20 and 30% is adequate for a meaningful conclusion to be drawn from a questionnaire survey (Aghimien et al., 2018; Akintoye, 2000).
The data gathered on the respondent's demographic characteristics were analysed using frequencies and measures of central tendencies. Forza (2002) has suggested “measures of central tendencies” as being relevant to characterise the central value of the set of observations parsimoniously in a meaningful way. The normality of the data was tested using Shapiro–Wilk's test (S–W) test for normality. This test revealed that the data gathered are not normally distributed as a significant p-value of 0.000 was derived for all the assessed strategies. Based on the non-normality of the data derived from the S–W test, the Man-Whitney U Test (M–W), a non-parametric test used to ascertain the significant difference in the rating of two groups of respondents, was adopted to test the difference in the rating of male and female respondents in the study. This test became important as past studies have noted that gender plays a crucial role in the WLB of construction workers (Lingard and Lin, 2004; Tijani et al., 2020).
Since the study assessed a fairly large number of variables, exploratory factor analysis (EFA) was conducted to help regroup the variables into more manageable subscales (Pallant, 2011). To conduct this test, past studies have favoured using a large sample size (above 150) (Norris and Lecavalier, 2010; Tabachnick and Fidell, 2013). However, recent studies have emerged with fewer samples using the communalities derived as a basis for justification (Paul et al., 2021). It has been noted that as long as a communality of 0.5 and above is attained, researchers need not emphasise the size of the sample (Field, 2009; Preacher and MacCallum, 2002; Tabachnick and Fidell, 2013). However, communalities of 0.3 have also been favoured in past studies (Pallant, 2011). The factorability of the data gathered was also tested using Kaiser-Meyer-Olkin (KMO) and the Bartlett test of sphericity. Following the satisfaction of the preliminary checks, EFA was conducted using principal component analysis (PCA) with varimax rotation since PCA can easily identify and reduce a large set of variables into small coherent subscales (Hair et al., 2006; Tabachnick and Fidell, 2013). Based on the principal components of WLB strategies derived from EFA, confirmatory factor analysis (CFA) was conducted using EQAtion (EQS) software version 6.4. This analysis was conducted to confirm the validity, applicability and fitness of the variables to improve WLB in the Eswatini construction industry.
Findings and discussion
Demographic characteristics of respondents
Table 2 gives the summary of the demographic characteristics of the respondents. The respondents sampled comprised of more male construction professionals, most of whom are either married or single, working for government, contracting or consulting organisations. These respondents comprised architects, engineers, project and construction managers, and quantity surveyors. The highest academic qualification of the respondents was a bachelor's degree with an average year of experience of 10.8 years. The majority of these have high knowledge of the concept of WLB; however, most of them work in organisations where WLB initiatives are rarely implemented.
Strategies for improved WLB in the construction industry
The result in Table 3 shows that rating of the WLB strategies along with the result from the M–W test conducted. The result revealed that paternity/maternity leave (WLS9), sick leave (WLS10) and annual leaves (WLS18) were rated as the top three strategies for male professionals while health and wellness programme (WLS17), that paternity/maternity leave (WLS9), and annual leaves (WLS18) were ranked top by the female professional. The result implies that the male professionals believe having time off when they have a newborn and when they are sick and on an annual basis is important for them to attain work-life equilibrium. Conversely, female professionals believe that having a good health and wellness programme along with maternity leave is germane to their WLB and annual leave. M–W test shows that while the two groups of professionals have a convergent view in ranking 19 of these strategies, they rated health and wellness programmes differently as a significant p-value of 0.009 was derived. This implies that both groups' importance attached to this WLB initiative differs. While the female professionals rated it first, their male counterparts rated it eight. Overall, the result revealed that paternity/maternity leave (
Exploratory factor analysis
For EFA to be conducted, careful consideration must be given to the factorability of the data gathered. Table 4 shows a KMO value of 0.871, which is above the cut-off of 0.6 as suggested by Pallant (2011). Also, the Bartlett test gave a significant p-value of 0.000. This result implies that the data gathered from the respondents is factorable and ideal for EFA. Further evaluation of the communalities of the data was done to determine if the data was adequate for EFA. The result in Table 4 revealed that all the variables were above 0.3, thus affirming that the data gathered was adequate for EFA to be conducted. Based on these preliminary analyses, the EFA conducted using PCA with varimax rotation revealed four principal components with an eigenvalue greater than one and a total cumulative variance of 61%. The extraction of these four principal components was confirmed by the scree plot in Figure 1, as a clear change in the elbow is evident at the fourth component as suggested in Pallant (2011).
Table 4 shows that the first principal component extracted have an eigenvalue of 8.08 and accounted for 40.4% of the total variance extracted. This component has seven variables (WLS2, 7, 8, 9, 10, 11, and 18) loading on it and based on the latent similarity of these variables; the component was named “leave related strategies”. This naming is guided by Williams et al.'s (2010) suggestions that naming factors is theoretical, subjective and inductive, which is mainly based on the researchers' judgements in accordance with the literature. The second principal component has an eigenvalue of 1.49 and accounts for 7.5% of the total variance extracted. In addition, this component has five variables (WLS12, 13, 17, 19, and 20) loading on it and was subsequently named “health and wellness related strategies”. The third component accounts for 6.9% of the total variance extracted and has an eigenvalue of 1.39. This component contains six variables (WLS1, 3, 4, 14, 15, and 16) and was named “work flexibility related strategies”. The last component extracted has two variables (WLS5 and 6) and was named “days off and shared work strategies”.
Confirmatory factor analysis
The four extracted components from EFA were further assessed using CFA in EQS version 6.4 to confirm their validity and applicability. Since the data gathered were non-normal in nature based on the S–W normality test conducted, the robust maximum likelihood (RML) estimation offered by EQS was deemed most suitable to accommodate the non-normality in the data. This test gives a Satorra-Bentler scaled chi-square (S-Bχ2), which is a more robust χ2 (Bartholomew et al., 2006; Byrne, 2008). The internal consistency (reliability) of the data was tested using both Cronbach alpha (α) and Roh alpha
The result in Table 5 also presents the standardised coefficient (λ) that determines the construct validity of the WLB strategies. It has been suggested that to get a reliable output, careful elimination of variables with low λ is necessary (Anderson and Gerbing, 1988). There has been no consistency in the ideal cut-off for elimination, but past studies have favoured λ as low as 0.4 (Hulland, 1999). For this study, variables with λ less than 0.5 were eliminated with careful consideration given to their influence on the overall fitness of the model. Based on this set cut-off, four variables (WLS 1, 15, 16, and 18) were eliminated from groups 1 and 3. As seen in Tables 3 and 5 and Figure 1, the retained variables show a λ ranging from 0.535 to 0.853. This result implies a good construct validity as the derived λ tend towards 1. These variables were all significant, as seen in the Z-statistics, which revealed a value of well above 1.96 (p < 0.05). Furthermore, each group has a Z-statistics of above 1.96, thus affirming that the principal components are significant.
The predictive accuracy of the assessed variables was tested using the coefficient of determination (R2). Hair et al. (2019) noted that an acceptable R2 is mostly based on the discipline wherein the study is being conducted. While studies have advocated high R2 for perfect predictive accuracy, particularly in pure science (Aghimien et al., 2021), Studies in the social sciences allow for R2 below 50% due to the changes and difficulty in predicting human behaviour (Hair et al., 2019). This current study follows Chin's (1998) cut-off of R2 to be 0.67, 0.33, and 0.19 for substantial, moderate and weak predictive accuracy. The R2 column in Table 5 shows that all the variables had substantial predictive accuracy aside from WLS6. Similarly, all four principal components will substantially contribute to effective WLB in the construction industry based on the R2 derived for each group. Furthermore, Figure 2 shows that these components are correlated at p-value above 0.05.
The fitness of these four principal components to deliver effective WLB was determined using the standardised root-mean-square residual (SRMR) and root-mean-square error of approximation (RMSEA) as suggested by Hu and Bentler (1999). The result revealed a good fit of 0.071 and 0.072 for SRMR and RMSEA, which were below the threshold of less than 0.08 as indicated in past studies (Hu and Bentler, 1999; Oke and Ogunsemi, 2016). To further affirm the fitness of the model, the normed chi-square (S-Bχ2/Df) gave a good fit of 1.079, which is below the 3.0 threshold (Eisen et al., 1999). The goodness of fit index (GFI) gave a moderate value of 0.780. In contrast, the comparative fit index (CFI), non-normed fit index (NNFI), and incremental fit index (IFI) all gave acceptable values of 0.903, 0.885 and 0.907, respectively. The result implies that the variables assessed are fit to be adopted as the strategies needed for effective WLB in the Eswatini construction industry.
Discussion
Preliminary investigation has revealed that while the concept of WLB is known among construction professionals in the study area, the level of implementation of initiatives that will ensure effective WLB of the construction workforce in the country is still low. This low implementation has also been observed in other countries like Nigeria and Ghana (Baani et al., 2014; Dang, 2020). The findings further revealed that while the male professionals noted that having time off when their spouse gives birth, when they are sick and annually is important, the female professionals noted that it is essential for them to have good health and wellness programmes, as well as maternity and annual leave. It has been observed that women experience more work-life imbalance compared to their male counterparts (Sunindijo and Kamardeen, 2017). This imbalance is a contributing factor to burnout and mental health issues of female construction workers (Watts, 2009), and this has resulted in the fewer number of female construction workers evident in most construction industries (Sunindijo and Kamardeen, 2017; Tijani et al., 2020). It is therefore understandable for female construction workers to want good health and wellbeing programmes along with adequate resting time during pregnancy and within the year. On overall, the strategies for effective WLB can be classified into (1) leave related strategies, (2) health and wellness related strategies, (3) work flexibility related strategies, and (4) days off and shared work strategies.
Leave-related strategies
Past studies have advocated the judicious use of leave options to help improve employees WLB. For instance, Dlamini et al. (2019) noted that parental, paternity/maternity, and study leave could help improve the WLB of workers and enhance job performance. The findings of this current study further affirm this submission as paid parental leave (R2 = 0.62), paternity/maternity leave (R2 = 0.56), study leave (R2 = 0.50), and sick leave (R2 = 0.37) were noted as some of the significant leave related variables needed for improved WLB of construction workers. It has been noted that organisations in countries worldwide are bound to implement diverse leave provisions (Burgess et al., 2007; Dex and Bond, 2005). However, the policies surrounding these leaves varies from country to country. For example, in Eswatini, maternity leave is 12 weeks, with six weeks taken before the due date and two weeks full pay if the employee has worked in the organisation for at least a year. The payment for the remaining ten weeks is at the employer's discretion (Swaziland Government, 2000). More so, there is no statutory paternity or parental leave (Globalisation partner, 2021). Therefore, it is not surprising to see construction workers stating that an improved leave system can aid their WLB, as evident in other countries like Australia where the leave concept is effective (De Cieri et al., 2005; Lingard et al., 2012). The findings also align with past submissions that childcare benefits (R2 = 0.69), and telecommuting (R2 = 0.42) can be effective in attaining significant WLB among construction workers (Forry and Hofferth, 2011; Tijani et al., 2020). Considering the COVID-19 era where onsite work is not required for some workers, improving telecommuting, which allows workers to work remotely, is essential. This will aid the safety of workers and allow them time needed to create better balance in their work and family life (Skinner and Pocock, 2011).
Health and wellness-related strategies
The health and wellness of employees play a crucial role in how they carry out their job functions (Chan et al., 2020). For this reason, the concept of WLB was introduced (Lingard et al., 2012; Muse et al., 2008). Therefore, construction organisations need to adopt effective health and wellness programmes that will aid the WLB of their workers. However, before these programmes can come to life, there is the need for WLB policies to be in place and the management of these organisations to understand and support these policies. Therefore, the availability and usage of WLB policies (R2 = 0.73), as well as the organisation's understanding and support (R2 = 0.46), were considered a crucial strategy for WLB in this study. This affirms pasts submissions of Baicker et al. (2010) and Chan et al. (2020) that have noted the importance of having effective health and wellness programmes and policies to implement these programmes. Health and wellbeing programs like wellness seminars, health and fitness, healthy breakfast and lunches, physical exercise programs, and organisation-based or subsidised gyms can be adopted, as Meyer and Maltin (2010) suggested. More so, Galinsky and Bond (1998) have earlier noted that the use of health insurance with family coverage can be adopted to improve WLB. This submission is in line with the findings of this study which shows that access to health insurance with family coverage (R2 = 0.72) can go a long way in improving construction workers WLB.
Work flexibility-related strategies
Past studies have emphasised the need for work flexibility to create a balance between the work and personal life of employees (Lingard et al., 2007; Tijani et al., 2020; Wedderburn, 1996). The finding of this current study affirms these past submissions as flexible working time (R2 = 0.41), work from home on an ad hoc basis (R2 = 0.54), and compressed week (R2 = 0.50) were considered crucial strategies needed for construction workers WLB. These approaches have been adopted in diverse countries worldwide, and significant benefits have been recorded (Lingard et al., 2007; Thorgeirsdóttir and Kelliher, 2016; Wedderburn, 1996). However, in Eswatini, the normal statutory working hours in the construction industry should not exceed 45 h, made up of 9 working hours per day (Swaziland Government, 2010). Unfortunately, the Eswatini construction industry, like its counterpart worldwide, is characterised by complex job functions and long working hours that exceed the stipulated 45 h per week (Dlamini et al., 2019). Therefore, there is the need for policies that will ensure flexi-time and compresses working week to improve employees WLB. Lingard et al. (2012) noted that using a rostered day off has also been beneficial to WLB of construction organisations in Australia.
Days off and shared work-related strategies
The study found that rostered days off (R2 = 0.29) and job share (R2 = 0.52) were revealed as a significant component. This finding is in tandem with the submission of Albertsen et al. (2008) that allowing employees to share job functions can lead to immense benefits for the organisation and attainment of WLB. Also, Burnand (2015) noted that job sharing could immensely lower recruitment costs while improving staff effectiveness. Much more, Lingard et al. (2012) have earlier noted that in Australia, the when workers are away from work for up to three days away as a result of a public holiday coinciding with a “rostered day off, they tend to complete tasks at home better”. Therefore, construction organisations and professional bodies can help improve employees WLB through imbibing the culture of job share and days off.
Implication of findings
The findings of this study have shown that for both male and female construction workers, having maternity, parental and annual leave is essential. While countries worldwide have their minimum leave requirements, construction organisations will do well to ensure that the leave requirements in their organisational policies are designed to comply with international standards and adequately help workers relieve the pressure from work. Also, the study's findings have noted the importance of health and wellness programmes, especially to female construction workers who are encumbered with the challenge of balancing the long working hours of the construction industry with family commitment. To ensure that workers within the industry experience good WLB and be productive, construction organisations must design programmes that will promote health and wellbeing of their workers. In doing this, careful assessment of employee wellness interests and needs and their health risk is necessary to ensure that the designed programme meets the needs of the workers. In addition, seeking the buy-in of senior management whose decision will influence the success of the designed programme is also necessary for health and wellness programmes to be implemented.
There is no naysaying that the COVID-19 pandemic has significantly affected the construction industry worldwide, with major restrictions and shortage of jobs evident, among other issues (Aigbavboa et al., 2022). To circumvent these major restrictions, most organisations have resulted in the use of working remotely for workers whose physical presence are not required on site. For those who cannot work remotely, implementing WLB initiatives such as flexible working hours, compressed weeks, and days off can go a long way in ensuring they have adequate family time like their colleagues working remotely. More so, instead of creating agitation among workers by letting workers go due to the shortage of works during this era of the pandemic, adopting the option of job share will help ensure more workers are retained within the organisation pending when more jobs can be acquired. Through this job share, workers will have some time to attend to family issues while still retaining their source of livelihood.
Conclusion
This study set out to assess the strategies needed to improve the WLB of construction workers in Eswatini. Based on the information gathered from construction professionals, the study concludes that the level of implementation of WLB interventions is low in the study area. The study also found that the key strategies needed for effective WLB can be classified into four significant components, namely: (1) leave, (2) health and wellness, (3) work flexibility, and; (4) days off/shared work. The findings from this study (science) could be used to develop management frameworks around WBL strategies as a precursor for bridging the policy-practice interface (Dale et al., 2019). This would enable the revisiting of the policies surrounding leave (particularly maternity leave) in Eswatini, thus enabling the creation of a more appealing leave system for workers, which could lead to revising current practices and thus improving their WLB. More so, statutory regulations should be created for paternity and parental leaves to encourage WLB among workers in these categories. The study's findings also offer directions for industry development as the identified WLB strategies will help organisations improve the WLB of their workers and, by extension, improve their productivity and overall performance. Much more, organisations, government institutions and professional bodies such as the AESAP can also adopt the study's findings as a guide to shape policies surrounding the wellness of construction workers in the country.
Theoretically, the study offers insight into WLB issues in Eswatini, a country that has not gained significant attention in the existing WLB literature. More so, the findings can serve as a theoretical backdrop for future studies on WLB in similar developing countries around the world. However, while this study contributes to existing knowledge, the findings are limited by several issues. For instance, there is a possibility of a different outcome had other non-registered construction professionals been included in the study. Therefore, it is recommended that future studies explore the inclusion of more construction professionals drawn from the country's four regions to gather more samples. More so, while the findings from this study are consistent with past studies from other developed and developing countries, the findings cannot be generalised for other countries as the study was based on constructional professionals operating in Eswatini only. Further studies are recommended in countries where such research is absent. Much more, studies seeking the views of high-level managers and construction organisation owners are suggested to get the management perspective of the issue of WLB among their workers as this current study was limited to just construction professionals.
Figures
Summary of the WLB strategies
Demographic characteristics
| Category | Classification | Frequency | Percentage |
|---|---|---|---|
| Gender | Male | 46 | 61.3 |
| Female | 27 | 36.0 | |
| Prefer not to say | 2 | 2.7 | |
| Total | 75 | 100.0 | |
| Marital Status | Single | 30 | 40.0 |
| Married | 32 | 42.7 | |
| Divorced | 7 | 9.3 | |
| Widowed | 2 | 2.7 | |
| Prefer not to say | 4 | 5.3 | |
| Total | 75 | 100.0 | |
| Type of organisation | Government | 36 | 48.0 |
| Contracting | 18 | 24.0 | |
| Consulting | 21 | 28.0 | |
| Total | 75 | 100.0 | |
| Professional affiliation | Architect | 13 | 17.3 |
| Construction managers | 13 | 17.3 | |
| Engineers | 24 | 32.0 | |
| Project managers | 14 | 18.7 | |
| Quantity surveyors | 11 | 14.7 | |
| Total | 75 | 100.0 | |
| Academic qualification | Ordinary national diploma | 9 | 12.0 |
| Higher national diploma | 12 | 16.0 | |
| Bachelor's degree | 48 | 64.0 | |
| Master's degree | 6 | 8.0 | |
| Total | 75 | 100.0 | |
| Years of experience | 1–5 years | 19 | 25.3 |
| 6–10 years | 12 | 16.0 | |
| 11–15 years | 16 | 21.3 | |
| 16–20 years | 22 | 29.3 | |
| Above 20 years | 6 | 8.0 | |
| Total | 75 | 100.0 | |
| Average | 10.8 | ||
| Knowledge of WLB | Low | 10 | 13.3 |
| Average | 4 | 5.3 | |
| High | 61 | 81.3 | |
| Total | 75 | 100.0 | |
| Implementation of WLB initiatives | Rarely | 50 | 66.7 |
| Sometimes | 25 | 33.3 | |
| Total | 75 | 100.0 |
Ranking and Mann–Whitney test of WLB strategies
| Male | Female | Overall | M–W | |||||
|---|---|---|---|---|---|---|---|---|
| WLB strategies | Rk | Rk | Rk | Z-value | p-value | |||
| Paternity/Maternity leave (WLS9) | 4.57 | 1 | 4.67 | 2 | 4.56 | 1 | −0.665 | 0.506 |
| Sick leave (WLS10) | 4.52 | 2 | 4.48 | 4 | 4.49 | 2 | −0.530 | 0.596 |
| Taking annual leaves as required (WLS18) | 4.43 | 3 | 4.52 | 3 | 4.45 | 3 | −0.035 | 0.972 |
| Health and wellness programme (WLS17) | 4.20 | 8 | 4.78 | 1 | 4.37 | 4 | −2.609 | 0.009** |
| Organisation understanding and support (WLS19) | 4.33 | 5 | 4.44 | 5 | 4.36 | 5 | −0.591 | 0.555 |
| Study leave (WLS2) | 4.37 | 4 | 4.37 | 7 | 4.33 | 6 | −0.395 | 0.693 |
| Childcare arrangements/benefits (WLS8) | 4.28 | 6 | 4.15 | 9 | 4.23 | 7 | −0.694 | 0.488 |
| Access to health insurance with family coverage (WLS12) | 4.07 | 10 | 4.41 | 6 | 4.16 | 8 | −1.153 | 0.249 |
| Telecommuting (WLS11) | 4.20 | 8 | 4.00 | 11 | 4.12 | 9 | −0.362 | 0.717 |
| Availability and usage of WLB policies (WLS20) | 4.02 | 11 | 4.22 | 8 | 4.09 | 10 | −0.823 | 0.411 |
| Paid parental leave (WLS7) | 4.24 | 7 | 3.81 | 12 | 4.07 | 11 | −1.174 | 0.240 |
| Job share (WLS5) | 3.85 | 13 | 4.07 | 10 | 3.95 | 12 | −0.771 | 0.441 |
| Flexi-time (WLS3) | 3.93 | 12 | 3.81 | 12 | 3.87 | 13 | −0.654 | 0.513 |
| Flexible holidays (WLS15) | 3.52 | 15 | 3.74 | 15 | 3.61 | 14 | −0.745 | 0.456 |
| Work from home on an ad hoc basis (WLS4) | 3.72 | 14 | 3.41 | 17 | 3.59 | 15 | −0.662 | 0.508 |
| Career Break (WLS13) | 3.48 | 17 | 3.81 | 12 | 3.59 | 15 | −1.461 | 0.144 |
| Rostered days off (WLS6) | 3.50 | 16 | 3.63 | 16 | 3.57 | 17 | −0.114 | 0.909 |
| Compressed week (WLS14) | 3.15 | 19 | 3.22 | 18 | 3.17 | 18 | −0.137 | 0.891 |
| Part-time work (WLS1) | 3.24 | 18 | 2.96 | 20 | 3.13 | 19 | −0.979 | 0.327 |
| Non-paid extra holidays (WLS16) | 3.15 | 19 | 3.00 | 19 | 3.12 | 20 | −0.495 | 0.620 |
Note(s): **Significant at p-value < 0.05, M–W = Mann–Whitney U Test,
EFA for the WLB strategies
| Component | S–W | |||||||
|---|---|---|---|---|---|---|---|---|
| Strategies | 1 | 2 | 3 | 4 | Comm. Extr | % of var | Stats | p-value |
| Leave- related strategies | ||||||||
| WLS8 | 0.800 | 0.786 | 40.4 | 0.676 | 0.000 | |||
| WLS9 | 0.718 | 0.663 | 0.548 | 0.000 | ||||
| WLS2 | 0.711 | 0.604 | 0.674 | 0.000 | ||||
| WLS10 | 0.646 | 0.533 | 0.662 | 0.000 | ||||
| WLS7 | 0.640 | 0.707 | 0.721 | 0.000 | ||||
| WLS11 | 0.560 | 0.627 | 0.735 | 0.000 | ||||
| WLS18 | 0.455 | 0.362 | 0.626 | 0.000 | ||||
| Health and wellness-related strategies | ||||||||
| WLS17 | 0.758 | 0.778 | 7.5 | 0.667 | 0.000 | |||
| WLS12 | 0.752 | 0.757 | 0.676 | 0.000 | ||||
| WLS19 | 0.672 | 0.572 | 0.681 | 0.000 | ||||
| WLS20 | 0.669 | 0.724 | 0.729 | 0.000 | ||||
| WLS13 | 0.595 | 0.631 | 0.850 | 0.000 | ||||
| Work flexibility related-strategies | ||||||||
| WLS16 | 0.647 | 0.477 | 6.9 | 0.888 | 0.000 | |||
| WLS15 | 0.614 | 0.525 | 0.876 | 0.000 | ||||
| WLS1 | 0.603 | 0.536 | 0.897 | 0.000 | ||||
| WLS3 | 0.577 | 0.548 | 0.839 | 0.000 | ||||
| WLS4 | 0.516 | 0.585 | 0.854 | 0.000 | ||||
| WLS14 | 0.500 | 0.512 | 0.906 | 0.000 | ||||
| Days off and shared work strategies | ||||||||
| WLS6 | 0.743 | 0.645 | 6.2 | 0.886 | 0.000 | |||
| WLS5 | 0.706 | 0.626 | 0.855 | 0.000 | ||||
| KMO | 0.871 | |||||||
| Bartlett's test of Sphericity | Approx. χ2 | 735.51 | ||||||
| df | 190 | |||||||
| Sig | 0.000 | |||||||
Note(s): Extraction Method: Principal Component Analysis; Rotation Method: Varimax with Kaiser Normalization
Rotation converged in 11 iterations; comm. = communalities; % of var = percentage of variance; S–W = Shapiro–Wilk Test
CFA for the WLB strategies
| Groups | Variables | λ | Z | p-value | Group Z | R2 | Group R2 | α | |
|---|---|---|---|---|---|---|---|---|---|
| Leave related strategies (comp1) | WLS2 | 0.71 | 6.666 | *** | 4.250 | 0.50 | 0.53 | 0.92 | 0.94 |
| WLS7 | 0.784 | 7.619 | *** | 0.62 | |||||
| WLS8 | 0.832 | 4.240 | *** | 0.69 | |||||
| WLS9 | 0.743 | 7.088 | *** | 0.56 | |||||
| WLS10 | 0.607 | 5.474 | *** | 0.37 | |||||
| WLS11 | 0.651 | 5.963 | *** | 0.42 | |||||
| Health and wellness related strategies (comp2) | WLS12 | 0.845 | 7.298 | *** | 3.642 | 0.72 | 0.57 | ||
| WLS13 | 0.748 | 5.660 | *** | 0.56 | |||||
| WLS17 | 0.618 | 5.220 | *** | 0.38 | |||||
| WLS19 | 0.675 | 5.737 | *** | 0.46 | |||||
| WLS20 | 0.853 | 7.365 | *** | 0.73 | |||||
| Work flexibility related strategies (comp3) | WLS3 | 0.637 | 3.692 | *** | 2.860 | 0.41 | 0.48 | ||
| WLS4 | 0.731 | 3.968 | *** | 0.54 | |||||
| WLS14 | 0.706 | 3.899 | *** | 0.50 | |||||
| Days off and shared work strategies (comp4) | WLS5 | 0.721 | 2.716 | *** | 2.180 | 0.52 | 0.40 | ||
| WLS6 | 0.535 | 2.269 | *** | 0.29 |
Note(s): *** = Significant at 95% confidence level
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