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Article

Error Management Climate and Job Stress in Project-Based Organizations: An Empirical Evidence from Pakistani Aircraft Manufacturing Industry

by
Hassan Ashraf
1,
Ahsen Maqsoom
1,
Tayyab Tahir Jajja
1,
Rana Faisal Tufail
1,
Rashid Farooq
2 and
Muhammad Atiq Ur Rehman Tariq
3,4,5,*
1
Department of Civil Engineering, COMSATS University Islamabad, Wah Campus, Wah Cantt 47040, Pakistan
2
Department of Civil Engineering, International Islamic University, Islamabad 44000, Pakistan
3
College of Engineering, IT & Environment, Charles Darwin University, Darwin, NT 0810, Australia
4
Institute for Sustainable Industries & Liveable Cities, Victoria University, P.O. Box 14428, Melbourne, VIC 8001, Australia
5
Centre of Excellence in Water Resources Engineering, University of Engineering and Technology, Lahore 54890, Pakistan
*
Author to whom correspondence should be addressed.
Sustainability 2022, 14(24), 17022; https://doi.org/10.3390/su142417022
Submission received: 24 September 2022 / Revised: 28 November 2022 / Accepted: 7 December 2022 / Published: 19 December 2022

Abstract

:
Drawing on the JD-R model, this study examines the influence of error management climate (EMC) on the job stress of frontline aeronautical employees. It also analyzes the moderating role of psychological capital (PsyCap) dimensions (i.e., hope, optimism, self-efficacy, and resilience) for the relationship between error management climate and job stress. The data was collected from 208 individuals through a questionnaire survey and was analyzed using a partial least squares structural equation modeling (PLS-SEM) approach. The results revealed that employees’ perceptions of error management climate have a significant negative impact on job stress. PsyCap optimism and PsyCap self-efficacy were found to have a negative moderating influence on the relationship between EMC and job stress. The other two dimensions of hope and resilience were found to have a moderating influence in the same direction as expected, but not at statistically significant levels. The findings of this study provide a unique perspective in realizing the part national and organizational cultures could play in either enhancing or attenuating the influence of an individual’s psychological resources such as psychological capital.

1. Introduction

Occupational accidents are a tremendous burden on organizations and result in substantial pain and suffering [1]. Understanding that organizational environment impinges on workers’ performance and safety, researchers have been increasingly interested in identifying variables that are fundamental in creating havoc for individuals and organizations. A number of studies have found that occupational stress has negative consequences and has rapidly affected organizational members’ productivity, particularly within complex systems such as aeronautical organizations, construction firms, and the hospital industry [2,3,4]. Further, job stress is a cause of turnover intention and a poor level of employee well-being [5]. In a recent study conducted by Wang et al. [6], safety-related stress was found to have a negative effect on safety participation, thereby compromising the overall safety performance of individuals. Job stress and its link with safety is further established by the fact that Dupont’s [7] Human Performance Model considers stress as one of the twelve precursors to accidents. Project-based organizations operate in an extremely competitive environment, where projects are designed, executed, and are required to be delivered within the stipulated time and cost. Working in these organizations is emotionally and psychologically challenging and stressful [8]. In project-based organizations, job stress mainly depends on a demanding work environment characterized by peak work loads, complex tasks, and high uncertainty [9,10], and on interpersonal and role conflict [11].
The aeronautical industry has a complex organizational structure and the technology used in this industry has changed remarkably over the past few years [12]. In the aeronautical industry, the human factor is very important in handling these complexities and advancements. In human activity, errors and mistakes are natural consequences, particularly in complex systems which lead to job stress [13]. Total elimination of errors is a difficult task as it is nearly impossible to fully eliminate errors from an organization. Where one stream of organizational and management literature connotes error with a negative event that can be life-threatening, inefficient, and costly in some cases [14], the other stream considers errors to be helpful in learning, decision making, and system improvement [15]. Within the latter stream of error management, error management climate refers to shared perceptions of individuals about organizational procedures and practices related to support that individuals provide others in error situations, communicating about errors, sharing error knowledge, and quick detection and handling of errors [15]. A strong error management climate in an organization encourages employees to communicate about errors openly and in a well-coordinated manner. Owing to the error management climate, individuals are more likely to communicate about error occurrence as they feel confident that they will not be blamed, leading to mutual trust and respect [16]. Organizational members who have psychological strengths or personal resources such as psychological capital are more confident in handling negative events [17].
Although previous research has identified that error management climate is negatively related to stress, there is scant work explaining the relationship between error management climate (EMC) and job stress [16] as a function of individuals’ predisposition to manage challenges and adversities. Personal resources are theorized to have positive behavioral outcomes such as dedication, job commitment, and work engagement [18]. According to Luthans, Youssef and Avolio [17], psychological capital is a positive psychological state that is reflective of: (1) an individual’s confidence in his/her abilities in relation to the successful execution of a task at hand (self-efficacy); (2) the individual’s ability to set goals and strategize alternative pathways to surmount challenges in a bid to achieve goals successfully (hope); (3) the individual’s tendency to realistically appreciate one’s control of life events in order to succeed now and in future (optimism); and (4) the individual’s capacity to keep one’s mission alive despite challenges and to remain steadfast in the face of adversities (resilience). Therefore, psychological capital is a psychological resource that provides a basis for individuals to succeed at work as they find themselves better equipped to manage daily stressors of work-life. Psychological capital as a psychological resource invokes positive emotions which in turn play their role in influencing positive attitudes such as work engagement [19]. Conversely, empirical studies in the general management literature suggest that psychological resources such as self-efficacy can negatively moderate the relationship between organizational-level variables and individual-level outcomes. For example, Kacmar et al. [20] found that the negative relationship between perceived organizational politics and an individual’s job performance is exacerbated by core self-evaluations such as self-efficacy. In another study conducted by Bozeman et al. [21], self-efficacy was found to intensify the negative effects of perceived politics on job satisfaction. Therefore, besides investigating the relationship between EMC and job stress, this study also aims to contribute to psychological capital theory by determining the role PsyCap dimensions play in moderating the relationship between EMC and job stress.
In the extant research, there is ample empirical evidence which suggests that the non-implementation of work-related policies or plans provides the breeding ground for job-related stress [22]. Another stream of research indicates that error also leads to the development of stress in large projects [23]. It is, therefore, important not only to have a climate that promotes the implementation of safety practices but also an environment or climate that provides the basis for error to be managed productively.
Using the job demands-resource (JD-R) model, the present study investigates the impact of error management climate on job stress. It further investigates the moderating role of psychological capital dimensions (hope, optimism, self-efficacy, resilience) for the relationship between error management climate and job stress. Based on the JD-R theory [18], error management climate (EMC) is conceptualized as a potential job resource and psychological capital (PsyCap) as a potential personal resource for the mitigation of employees’ job stress.

2. Literature Review

2.1. Theoretical Foundation of Variables

2.1.1. Job Stress

In the past few decades, stress has been a critical problem for organizations [4]. Stress can be categorized as either a stimulus or a response [24]. Job stress refers to psychological strain that leads to tension, anxiety, frustration, job-related hardness, and worry that have roots in one’s work [25]. Stress literature points out a lot of key factors, such as workload, management support, psychological support, and work environment, that can affect employees’ mental health and psychological emotions [26]. The notion of job stress has gained traction in industrial and organizational management as stress has been found to have a negative influence on the health of working people [11] and to have a role in the impairment of their work performance [27,28].
In organizations, when stress is a result of occupational factors such as required expectations mismatching employees’ capabilities, resources, needs, and job demands, it is known as occupational or job stress [23]. Stress exists in every organization either small or big and the place of work becomes complex due to the presence of stress [29].

2.1.2. Error Management Climate

Organizations that follow the “learning from errors” approach have more productive and innovative opportunities [15] and improved safety behavior [30]. Van Dyck, Frese, Baer and Sonnentag [15] argue that error management is comparatively a suitable and supportive approach for an organization as it allows quick error detection, damage control, and learning. Capitalizing on the concept of climate, error management climate is a concept that refers to the shared perception of individuals with regard to error management practices and procedures such as quick error detection and handling of errors, communicating about errors, sharing error knowledge, and helping others in error situations [15].
Error management climate deals with stress and reduces it through reporting, communicating, and sharing with management and other colleagues [16]. A strong error management climate is based on organizational resources such as error communication, error analysis, error competency, and learning from errors [15]. Such resources not only allow employees to improve on their tasks but also provide a basis for handling problems effectively and rendering help when needed. Therefore, the mentioned outcomes of error management climate reduce the employee’s turnover intention and job stress [16].

2.1.3. Psychological Capital (PsyCap)

Psychological capital (PsyCap) as a positive psychological state comprises personal resources of hope, efficacy, resilience, and optimism [31]. According to Luthans, Youssef and Avolio [17], Psychological capital is an individual’s positive psychological state reflective of the individual’s ability to: (1) bounce back from adversity (resilience); (2) strategize alternative pathways with the aim of achieving goals (hope); (3) attribute the reasons for success in a just manner (optimism); and (4) to execute tasks with confidence (self-efficacy).
Psychological capital recognizes the individual’s capital and refers to an individual’s psychological character development, measurement, and effective management [31,32]. PsyCap has recently received more attention from organizational scholars due to its role in fostering positive behavior and its beneficial effects for an organization [33]. There is a wide range of research in which the relationship between some desirable variables and PsyCap has been examined [6,19,32,34]. The results gathered from the surveys and panel data describe the direct relationship between employees’ well-being and psychological capital [35]. Combining the results of different studies into a single study, the coherent analysis showed that there is a strong and direct relationship between PsyCap and workers’ behavior, including a worker’s psychological well-being, organizational commitment, and job satisfaction [34].

2.2. Research Model and Development of Hypothesis

In this section, the research framework and theoretical basis for hypotheses development are presented. This section presents the relationship between research variables. The current study argues that error management climate (EMC) reduces job stress and that psychological capital (PsyCap) plays a moderating role in the relationship between EMC and job stress.

2.2.1. Job Demands-Resource (JD-R) Model

The job demands-resource (JD-R) model [36] posits that the additive effect of job demands and job resources drives individuals toward either positive or negative behavioral outcomes. Schaufeli and Taris [37] argue that the JD-R model assumes that employee wellbeing and stress are based on the balance between demands (negative) and resources (positive).
Based on the JD-R model, Demerouti et al. [38] argue that every job includes demands as well as resources. Job demands are reflective of elements of a working environment that can lead to stress whereas job resources facilitate work, growth, and learning, and decrease stress levels and stressors of the job [36,39]. Job demands refer to “those physical, social, or organizational aspects of the job that require sustained physical or mental effort and are therefore associated with certain physiological and psychological costs (e.g., exhaustion)” (p. 501). Generally these are energy-consuming efforts at work such as job insecurity, work overload, conflicts, a tense environment, and error-free work requirements. Job resources refer to “those physical, psychological, social, or organizational aspects of the job that may do any of the following: (a) be functional in achieving work goals; (b) reduce job demands at the associated physiological and psychological costs; (c) stimulate personal growth and development”(p. 501) [38]. Job resources are the helping factors in achieving work goals and meeting job demands positively such as social support, performance feedback (which may enhance learning), and job control (which might reduce job demands). Hence, by increasing resources such as job autonomy, job control, social support, climate, a positive workplace, and coworker support, two birds are killed with one stone: stress and negative events are decreased or prevented and positive events are increased [40]. These resources are helpful and stimulate personal growth, development, and learning [38]. The research model is presented in Figure 1.

2.2.2. Error Management Climate and Job Stress

According to Demerouti, Bakker, Nachreiner and Schaufeli [38], resources are helpful in work engagement and decreasing negative events such as stress, burnout, and turnover intentions. Error management climate provides an environment and resources and policies to members so that they can handle and deal with errors more effectively. An error management climate can provide job resources for organizational employees to work in an environment in which they share errors willingly with coworkers and others and seek help and advice from coworkers. At organizations in which strong error management is applied, employees feel more confident and manage errors effectively [15,41]. Error management climate provides a positive organizational environment in which employees help others, gain knowledge about causes of errors, and openly communicate and share their experience about errors. This error-related behavior is helpful for safety compliance [42] and safety citizenship behavior [43].
Guchait, Paşamehmetoğlu and Madera [16] studied the service industry and noted that strong error management may reduce employees’ stress and turnover intention. In a similar vein, Hodges and Gardner [44] have shown that error management climate is negatively related to stress. Error management climate does not remove the errors but instead focuses on changing employees’ responses to errors and dealing with an error after its occurrence [16]. When an individual perceives that job demands are high and beyond his perceived ability and resources are not available to achieve goals then the individual b stressed [45]. According to the JD-R model, when job resources are available then organizational members experience less job stress [46]. Thus, a supportive environment enables organizational members to cope with stress. Empirical evidence found that a supportive environment is negatively related to exhaustion, burnout, anxiety, and stress [47]. Given the theoretical reasoning and empirical evidence, it is hypothesized that:
Hypothesis 1. 
Error management climate is negatively related to job stress.

2.2.3. Psychological Capital Dimensions (Hope, Optimism, Efficacy, Resilience) as Moderators

Credible empirical evidence points out that PsyCap as a higher-order construct plays a significant role in suppressing stress and anxiety. For example, Avey et al.’s [34] meta-analysis and other studies indicate that PsyCap as a personal psychological resource plays an important role in suppressing stress and anxiety and that it is negatively related to undesirable attitudes such as cynicism, turnover intentions, stress, and anxiety. However, there is emerging evidence that suggests that PsyCap’s influence as a potential psychological resource becomes diluted under different aspects of organizational and national cultures. For example, in their seminal study, Kacmar, Collins, Harris and Judge [20] found that when perceived organizational politics are combined with core self-evaluations (CSE) such as self-efficacy and locus of control, the deleterious effects of perceived politics on job performance are intensified. Similarly, Rego et al.’s [48] study points out numerous aspects of national culture as potential neutralizers of PsyCap as a resource. They note that organizational cultural aspects such as the absence of performance feedback and lack of clarity on goals could neutralize the positive influence of PsyCap as a resource. Similarly, Rego, Marques, Leal, Sousa and Pina e Cunha [48] note that national cultures characterized by high power distance do not promote proactive and assertive individuals and thus highly self-efficacious individuals find it suitable to be obedient and less assertive.
Referring to Hofstede’s [49] insights on national cultures, developing countries such as Pakistan score high on the dimensions of power distance, uncertainty avoidance, and collectivism. People from these cultures are likely to find politics to be high in organizations owing to unequal distribution of power, ambiguity, and chaos, and strong in-groups [50,51,52]. Hofstede’s (2001) insights on the culture of developing countries provide reasonable ground to consider organizational politics to be an inevitable part of organizations working in these countries. This context, therefore, holds a fundamental importance for hypothesizing the moderating role of PsyCap dimensions for the relationship between EMC and job stress.
The concept of locus of control provides a meaningful theoretical distinction between the two similar yet different constructs of hope and optimism [53]. Hope is theorized to be driven by an internal locus of control as opposed to the outer locus of control that feeds optimism. Individuals with an internal locus of control (agency and pathway approach) expect the turn of events as a function of their agency and pathway approach [54]; and hence, they are less susceptible to forces emanating from organizational contexts. It is therefore expected that individuals with high PsyCap hope and PsyCap optimism will yield to negative organizational contexts differently. Hope signifying an individual’s ability to strategize alternative pathways in the face of adversities [55,56] and its connection with an internal locus of control [53] is expected to allow individuals to fare better even when the organizational politics impede their expectations to achieve goals and achievements. Therefore, hopeful individuals are expected to take advantage of the prevailing error management climate, resulting in effective management of job stress. In contrast, PsyCap optimism as a function of external locus of control [53] may not be of value to individuals as expectations attached to significant others are compromised in an environment rife with organizational politics [57]. Therefore, optimistic individuals are expected to remain insulated from the theorized benefits of EMC, resulting in poor management of job stress.
Self-efficacy is reflective of an individual’s confidence in him/herself to succeed at work [17]. Organizational politics interfering with an individual’s chances of succeeding at work is likely to lead an individual to find alternative opportunities where one could employ skills and abilities in the advancement of professional goals. For example, Allen and Griffeth [58] note that high performing individuals are more likely to quit when they find salaries not commensurate with the promotion policies and practices; with this line of reasoning, it is plausible to argue that self-efficacious individuals find organizational politics a hindrance for the advancement of professional goals and so are not expected to capitalize on the benefits of EMC, resulting in the poor management of job stress. Lastly, PsyCap resilience reflective of an individual’s capacity to bounce back from adversity [59,60] is expected to provide the basis for individuals to carry on even in a politicized organizational environment. Furthermore, because that resilience plays an important role in replenishing the energy levels of employees and rendering them able to find solutions in difficult organizational circumstances [60], the odds that resilient individuals perceive organizational politics as an obstacle to their work are less [40]. It is therefore expected that individuals with high PsyCap resilience are expected to fare better in cultures characterized by high power distance, uncertainty avoidance, and collectivism. With this line of reasoning, PsyCap resilience is argued to provide the basis for individuals to harness the benefits EMC offers, resulting in the effective management of job stress.
Based on the above theoretical reasoning and empirical evidence it is hypothesized that:
Hypothesis 2a. 
Hope positively moderates the relationship between error management climate and job stress.
Hypothesis 2b. 
Optimism negatively moderates the relationship between error management climate and job stress.
Hypothesis 2c. 
Self-efficacy negatively moderates the relationship between error management climate and job stress.
Hypothesis 2d. 
Resilience positively moderates the relationship between error management climate and job stress.

3. Research Methodology

3.1. Research Participants

This study analyzes the effect of error management climate on the job-related stress of employees employed in industries related to the development of aerospace and avionics engineering works. The respondents of the current study work in all departments of aerospace and avionics, such as manufacturing, production, support, and light aircraft group.

3.2. Sample and Data Collection Procedure

In this study, the sample is drawn from the employees of the Pakistan aeronautical complex. A sample size of 260 respondents was drawn. The questionnaire was developed with the help of past literatures and empirical studies. Items of the questionnaire were adapted from already developed scales used in the previous researches. The questionnaire was translated into Urdu using the standard translation-back translation procedure [61], as the respondents included frontline workers.
A cross-sectional survey method has been used for data collection in the current study. A total of 250 questionnaires were floated among aeronautical employees, out of which 208 were returned that reflects an 84.8% response rate. Out of 208 responses, 141 respondents were workers (67.8%), 52 respondents were supervisors (25%), and only 14 engineers participated in responding to the questionnaire survey. The demographic characteristics of the sample are summarized in Table 1. After the data was collected from these employees, it was coded into numeric form.

3.3. Measures

The questionnaire developed for this study was divided into four parts. The first part included the demographic factors of respondents. It included age, education, total job experience, tenure in the current department, employment status, and designation. The second part included elements of error management climate (EMC), which is the independent variable of this study. The third part included questions related to psychological capital (PsyCap) which is the moderator. The last part included items of job-related stress, which is the dependent variable of this study. All the questions except those of part one were based on a 5-point Likert scale ranging from 1 to 5, where 1 represented “strongly disagree” and 5 represented “strongly agree”. Items are scaled because they help the respondent to give an appropriate response by consuming less time [62]. Questionnaires in English as well as in Urdu are reported as Appendix A and Appendix B respectively.

3.4. Error Management Climate

In this study, error management climate (EMC), being the independent variable of the study, was measured by sixteen items adapted from the previous study [15,30]. In this scale, one item–“For us, errors are very useful for improving the work process”—was omitted due to a lower internal consistency threshold value (0.6). The Cronbach alpha was 0.976 for 15 items-based EMC in this study (Table 2).

3.5. Job Stress

In this study, job stress, being the dependent variable, was measured by sixteen items adapted from the study by Parker and DeCotiis [63]. This variable measured the short-term psychological state of job stress. This job stress measure has been used in various previous studies, e.g., [64]. Two items—“My job gets to me more than it should” and “I feel relaxed when I take time off from my job”—were omitted due to a lower internal consistency threshold value (0.6). The Cronbach alpha was 0.944 for 13 items-based job stress measure employed in this study.

3.6. Psychological Capital

Psychological capital (PsyCap), playing the moderating role in the current study, consists of four subscales (i.e., optimism, hope, resilience, and self-efficacy). The PsyCap was measured with the shortened version of the psychological capital questionnaire PCQ-12 developed and validated by Luthans, Avolio, Avey and Norman [31]. In this study hope (4 items), optimism (2 items), self-efficacy (3 items), and resilience (3 items) found Cronbach’s alpha value of 0.937, 0.929, 0.844, and 0.870 respectively. The four subscales of PsyCap were measured separately in this study model.

3.7. Data Analysis Technique

Partial Least Squares Structural Equation Modeling (PLS-SEM) was adopted, using the Smart PLS 3.0 software package. PLS-SEM has been used successfully in various researches of a similar kind for assessing the interrelationships among the latent variables [65].
The results of PLS-SEM are based on two sets of models. The first is the measurement model that deals with interrelationships between measurement items and latent constructs. The second is the structural model that shows the relationship results among the latent constructs. The measurement model was assessed by internal consistency reliability convergent validity and discriminant validity [66]. For the assessment of the structural model, path coefficients’ t-values and p-values were used. Path coefficients were assessed by adopting bootstrapping. Bootstrapping is a resampling procedure in which the original sample serves as the population.

4. Results

4.1. Measurement Model Evaluation

The measurement model is primarily concerned with the assessment of convergent validity, discriminant validity, and the internal consistency reliability of the constructs of the research model. It is to be noted that the two parameters of loadings of indicator variables and the average variance extracted (AVE) are used to evaluate convergent validity [66]. For convergent validity, the average variance extracted (AVE) threshold should be >0.50. Similarly, the two parameters of Fornell and Larcker and cross-loadings of indicator variables are used to evaluate the discriminant validity.
Table 2 shows the summary of the measurement model. The result shows the Cronbach’s alpha and composite reliability of this study to be >0.7 threshold value, which shows the high level of internal consistency and reliability of reflective constructs [67]. Additionally, all outer loadings were greater than 0.50 with the t-values greater than 2.3.
Only four reflective measures are omitted, i.e., EMC1, HOP4, JS3, and JS10. Omitting these reflective measures resulted in an increase in AVE and composite reliability (CR) above the suggested threshold value [68]. Most of the items’ outer loading in this study is >0.708 whereas the minimum outer loading of measurement items is equal to 0.664. Three items (EMC9, JS5, JS6) were retained because deletion did not increase AVE and CR above the suggested threshold values. Further, the value of AVE is greater than 0.5 for all constructs that indicate the maximum convergent validity of all constructs (Table 2).
For discriminant validity evaluation, values of cross-loadings and Fornell and Larcker criterion correlation were assessed. Table 3 shows that all the diagonal values are high as compared to the off-diagonal elements in the corresponding rows and columns, indicating that Fornell and Larcker criterion is met and the constructs demonstrate discriminant validity [69]. Table 4 shows that all indicators load on their respective constructs, thereby establishing discriminant validity at the indicator variable level.

4.2. Structural Model Evaluation

The structural model was assessed by examining the path coefficients. The R2 value was used to evaluate the model’s predictive accuracy, f2 to assess the substantial impact of the exogenous variable on an endogenous variable, and Q2 to evaluate the model’s predictive relevance [68].
Structural model prediction power is assessed by the value of R2 (coefficient of determination). Table 5 shows that the R2 value for this study is 0.383, that is the combined variation of all independent or exogenous variables can cause 38.3% variance in job stress (endogenous variable), and the Q2 is larger than zero, which shows the predictive relevance of the model (Table 5).
The path coefficient is used for structural model assessment and is checked by bootstrapping in Smart PLS. Path coefficient explains how strong one variable influences the other variable; its value must be higher than 0.20 [65]. It is found that three paths (EMC → Job Stress, Optimism → Job Stress, and Efficacy → Job Stress) are significant; on the other side, two paths (Hope → Job Stress and Resilience → Job Stress) are insignificant. However, path relevance is determined by the magnitude of the path coefficients. In this study, the highest path coefficient is that of Mod eff of Optimism → Job Stress (−0.418), followed by EMC → Job Stress (−0.328), and Mod eff of Efficacy → Job Stress (−0.242).
Figure 2 shows the relationship between the studied variables (error management climate, job stress, and psychological capital dimensions). As per the bootstrapping procedure, the significance of path coefficient, p-statistics, and t-values of this study model are shown in Table 6.

4.3. Hypothesis Testing

After the validity of the structural model is confirmed, the next step is to assess the paths of the proposed structural model. A total of five hypotheses were proposed in this study. Out of these five hypotheses, one hypothesis is predictive of the direct relationship of the exogenous variable (EMC) on the endogenous variable (Job stress). The other four hypotheses reflect the moderating effect of PsyCap dimensions (hope, optimism, efficacy, and resilience) on the relationship between EMC and the dependent variable (job stress). The hypotheses’ results are provided in Table 6 below.

5. Discussion

The purpose of this research was to explore the relationship between error management climate (EMC) and employees’ job-related stress. A sample of Pakistani aeronautical employees was used to evaluate error management climate, psychological capital dimensions, and job stress relationships. This study found that error management climate is negatively related to job stress.
Referring to Table 6, the path coefficient for the relationship between EMC and job stress is −0.328, which shows that the individual’s perceived organizational error management climate is negatively and significantly associated with job stress [38]. Consistent with the above and in the specific case of the aeronautical employees, it has been found that those who find the organizational climate to be supportive of error management tend to feel low job stress [14]. This study’s findings are consistent with the previous study results, e.g., [15,30]. In other words, it could be said that in organizations in which a strong error management climate is provided, employees feel more confident and manage errors effectively [41].
For the moderating role of PsyCap dimensions, Optimism (β = −0.418, p = 0.000) and self-efficacy (β = −0.242 p = 0.016) are found to have a significant negative moderating effect. Therefore, H2b and H2c are accepted. These findings are in line with the findings of Abbas et al.’s [70] study which was also conducted in Pakistan’s context. The current study is conducted in the largest and the only aircraft manufacturing facility in Pakistan. This facility operates in the public sector and the personnel’s job nature is governed by the Government’s policies. Jobs in the public sector at the working-staff level may not appear lucrative owing to tough working environments, continuous pressure to meet deadlines, and almost no incentives on achieving goals and targets. Furthermore, lack of proper feedback and guidance, poor communication, and ambiguous policies and procedures fuel perceived organizational politics [70]. It is possible to argue that organizational politics is a dominant part of Pakistani public sector organizations considering Hofstede’s [49] insights on Pakistani culture. Therefore, it could be argued that perceptions of organizational politics when combined with employees’ psychological state of self-efficacy and optimism have a role to play in retarding the influence of EMC on job stress.
Results indicate that hope (β = 0.130, p = 0.254) and resilience (β = 0.167 p = 0.110) moderate the relationship between EMC and job stress as hypothesized, but not at statistically significant levels. Therefore, both H2a and H2d are rejected. Results are of significance for understanding that hope and resilience might play a significant role in strengthening the relationship between EMC and job stress provided that organizations are supportive of individuals and provide systemic help in the development and maintenance of psychological resources such as hope and resilience. These results also highlight that the JD-R model in tandem with Hofstede’s [49] insights on national cultures holds more relevance in hypothesizing the relationships involving PsyCap dimensions and individual-level outcomes.

6. Conclusions

Current study findings demonstrated that within the context of aeronautical project organizations, error management climate has a direct impact on job stress. This study further suggests that core self-evaluations of individuals in the form of optimism and self-efficacy could have a negative moderating effect on the relationship between EMC and job stress. Thus, it is important to note that the cultivation of an error management climate may not work in combating an individual’s stress when an individual’s psychological resources are threatened in the wake of organizational politics.
This study’s findings are in-line with Kacmar, Collins, Harris and Judge’s [20] and Bozeman, Hochwarier, Perrewe and Brymer’s [21] findings whereby core self-evaluation in the form of self-efficacy has been found to have counter-productive effects. Furthermore, the results of the study lend support to Avey et al.’s [34] conclusion that industry type and sample base (the US vs non-US) have a significant influence on the effects of PsyCap. This study, nonetheless, provides an alternative perspective on psychological capital which must be investigated further in other countries with similar profiles of power distance and uncertainty avoidance.
The present study has important theoretical implications of error management in several directions. First, it is one of the first studies to investigate the relationship between error management climate (EMC) and job-related stress. Although EMC and stress have been studied independently as important organizational factors [71], their role in the aeronautical industry has been largely neglected. Second, this study is the first to empirically examine error management climate (EMC) in an aeronautical project-based industry context, asserting that EMC principles are relevant to aeronautical employee job stress and need to be applied more extensively. Third, the current study has contributed to the literature on job-related stress by considering the combination of psychological capital (PsyCap) and error management climate (EMC) in the conceptual model.
From a practical perspective, this study’s results suggest that interventions can be made from the perspective of error management climate in job-related stress. Considering the negative effect of errors on employee stress, managers should be aware of the benefits error management provides and the effects employees may experience, allowing them to take measures to reduce the errors. In complex organizations, managers should handle error as an event that can provide knowledge and learning, rather than blaming or punishing anyone. Additionally, organizations should promote an environment in which rewards for excellent error recoveries, sharing information, and assisting situations are provided. Where it is important to develop procedures and norms that would be fundamental in cultivating perceptions of error management, it is equally important for management to introduce structural changes in a system for the cultivation of a just culture. Adhering to important elements of justice such as substantive justice, procedural justice, and restorative justice could prove critical in aligning management’s efforts to cultivate error management climate. For example, substantive justice underscores the importance of morality and the legitimacy of rules’ content [72]. Rules made in isolation and neglecting the requirements of reality may induce pressure on workers to get the job done, paving way for errors that may lead to serious accidents. In a similar vein, procedural justice is what individuals witness and internalize in their subconscious. This internalization later provides a guide for individuals’ actions. The cultivation of procedural justice is thought to have a significant role in the successful cultivation of error management climate.. Individuals should be able to witness the investigations in relation to error occurrence through impartial mechanisms. For example, the appointment of objective judges [72] may go a long way in allowing workers to have faith in the procedural justice of the organization, thereby allowing individuals to develop attitudes considered optimum for error management. Lastly, an accountability system based on restorative justice could potentially provide a strong basis for error management climate to develop and thrive. Restorative justice deals with the idea of healing whereby the victims of accidents and those being alleged in accident causation are provided with the opportunity to have their voices heard. Organizations have a crucial role in demonstrating that organizations are not focused on holding individuals responsible for the errors or accidents, rather that their main concern is to understand the principal practices, norms, and work routines that have led to such procedural lapses, errors or accidents. Such an all-inclusive approach is expected to provide firm foundations for EMC to take hold in the organization.

Limitations and Future Directions

The findings of this study like any other research study are not without limitations. The hypothesized moderating influence of hope and resilience did not find support from the data at the statistically significant levels. Although the sample size of this study was determined following the guidelines provided by [73], the relationships must be studied with a larger sample size. Furthermore, this study conducted in the air crafts manufacturing industry may have been influenced by peculiar job routines which may be uncommon in the service industry. Therefore, a similar study in the service industry is recommended to broaden our perspective in understanding the role PsyCap plays in reducing job stress.

Author Contributions

Conceptualization, H.A. and A.M.; methodology, T.T.J.; software, H.A.; validation, R.F.T.; formal analysis, A.M.; investigation, H.A.; resources, A.M.; data curation, T.T.J.; writing—original draft preparation, T.T.J., R.F. and H.A.; writing—review and editing, A.M, R.F., M.A.U.R.T. and R.F.T.; supervision, H.A. and M.A.U.R.T.; project administration, H.A. All authors have read and agreed to the published version of the manuscript.

Funding

This research received no external funding.

Data Availability Statement

Not applicable.

Conflicts of Interest

The authors declare no conflict of interest.

Appendix A. Measures Used in the Study (English Version)

Table A1. Error Management Climate.
Table A1. Error Management Climate.
S.#Please, Indicate How Strongly You Disagree or Agree with the Following Statements.Strongly DisagreeDisagreeNeutralAgreeStrongly Agree
1.For us, errors are very useful for improving the work process.12345
2.An error provides important information for the continuation of the work.12345
3.Our errors point us at what we can improve.12345
4.When mastering a task, people can learn a lot from their mistakes.12345
5.After an error, people think through how to correct it.12345
6.After an error has occurred, it is analyzed thoroughly.12345
7.If something went wrong, people take the time to think it through.12345
8.After making a mistake, people try to analyze what caused it.12345
9.While working with this organization, people think a lot about how an error could have been avoided.12345
10.Although we make mistakes, we don’t let go of the final goal.12345
11.When an error is made, it is corrected right away.12345
12.When an error has occurred, we usually know how to rectify it.12345
13.When people are unable to correct an error by themselves, they turn to their co-workers.12345
14.When people make an error, they can ask others for advice on how to continue.12345
15.If people are unable to continue their work after an error, they can rely on others.12345
16.When someone makes an error, he shares it with others so they don’t make the same mistake.12345
Table A2. Job Stress.
Table A2. Job Stress.
S.#How Do You Feel about Your Job? Please Rate the Extent to Which You Agree with the Following Statements by Circling a Number from 1 to 5.Strongly DisagreeDisagreeNeutralAgreeStrongly Agree
1.I have felt fidgety or nervous as a result of my job.12345
2.Working here makes it hard to spend enough time with my family.12345
3.My job gets to me more than it should.12345
4.I spend so much time at work, I can’t see the forest for the trees.12345
5.There are lots of times when my job drives me right up the wall.12345
6.Working here leaves little time for other activities.12345
7.Sometimes when I think about my job I get a tight feeling in my chest.12345
8.I frequently get the feeling I am married to the company.12345
9.I have too much work and too little time to do it in.12345
10.I feel relaxed when I take time off from job.12345
11.I sometimes dread the telephone ringing at home because the call might be job-related.12345
12.I feel like I never have a day off.12345
13.Too many people at my level in the company get burned out by job demands.12345
14.I don’t have enough time to develop my people.12345
15.People find this place of work uncomfortable.12345

Appendix B. Measures Used in the Study (Urdu Version)

Table A3. Error Management Climate.
Table A3. Error Management Climate.
بالکل درست ہےکچھ حدتکدرست ہےکچھ نہیں کہہ سکتاکچھ حدتکدرست نہیںبالکل درست نہیںبرائے مہربانی، نشاندہی کریں کہ آپ اس ادارےمیں رہتے ہوئے مندرجہ ذیل کیفیات سے کتنا متفق ہیں۔ کسی ایک نمبر کے گرد دائرہ لگایں۔نمبر
54321کام کرنے کے مراحل کو بہتر بنانے کے لئے غلطیاں ہمارے لئے مفید ثابت ہوتی ہیں۔1
54321کام کےتسلسل کو برقرار رکھنے کے لئے غلطی ہمیں اہم معلومات فراہم کرتی ہے۔2
54321ہماری غلطیاں اس بات کی نشاندہی کرتی ہیں کہ ہم کیا بہترکرسکتے ہیں۔3
54321کسی کام میں مہارت حاصل کرنے کے لئے لوگ اپنی غلطیوں سے بہت زیادہ سیکھ سکتے ہیں۔4
54321غلطی کے بعد لوگ تفصیلی طورپر سوچتے ہیں کہ اس کو کیسے درست کیا جائے۔5
54321غلطی ہوجانے کے بعد اس کا بخوبی تجزیہ کیا جاتا ہے۔6
54321اگر کچھ غلط ہو جائے تو لوگ اس کو مکمل طور پر سمجھنے کے لئے وقت لیتے ہیں۔7
54321غلطی کرنے کے بعد لوگ اس بات کا تجزیہ کرنے کی کوشش کرتے ہیں کے اس غلطی کی وجہ کیا تھی۔8
54321اس ادارے کے ساتھ کام کے دوران لوگ اس بارے میں بہت زیادہ سوچتے ہیں کہ غلطیوں سےکس طرح بچا جا سکتا ہے۔9
54321اگرچہ ہم غلطیاں کرتے ہیں، لیکن ہم پھر بھی اپنے اصل ہدف کو نہیں بھولتے۔10
54321جب غلطی کی جاتی ہے تواس کودرست طریقے سے ٹھیک کیا جاتا ہے۔11
54321جب کوئی غلطی سرزد ہوتی ہے تو عام طورپرہم جانتے ہیں کہ اس کو کیسے درست کرنا ہے۔12
54321جب لوگ خود سے اپنی غلطی درست نہیں کر سکتے تو وہ اپنے ساتھ کام کرنے والے لوگوں سے مدد لیتے ہیں۔13
54321جب لوگ کوئی غلطی کرتے ہیں تو وہ دوسروں سے مشورہ لے سکتے ہیں کہ کیسےاس سے آگے بڑھا جا سکتا ہے۔14
54321اگرلوگوں میں غلطی کرنے کے بعد اپنے کام کو جاری رکھنےکی صلاحیت نہ ہوتوپھروہ دوسروں پر انحصار کرسکتےہیں۔15
54321جب کوئی بھی غلطی کرتا ہے تووہ اسے دوسروں کوبتاتا ہے، تا کہ دوسرے بھی یہی غلطی نہ کریں۔16
Table A4. Job Stress.
Table A4. Job Stress.
بالکل درست ہےکچھ حدتکدرست ہےکچھ نہیں کہہ سکتاکچھ حدتکدرست نہیںبالکل درست نہیںآپ اپنی موجودہ ملازمت کے متعلق کیا سوچتے ہیں۔ کسی ایک نمبر کے گرد دائرہ لگایں۔نمبر
54321مجھے اپنی ملازمت کی وجہ سے گبھراہٹ یا پریشانی محسوس ہوئی ہے۔1
54321یہاں پر کام کرنے کا معمول مجھے اپنی فیملی/خاندان کے ساتھ مناسب وقت گزارنے سے روکتا ہے۔2
54321میری ملازمت مجھے ضرورت سے زیادہ فکر دیتی ہے۔3
54321میں کام میں بہت زیادہ وقت گزارتا ہوں، اورکام کوبہت زیادہ باریکی سے دیکھنے کی وجہ سے میں کام کے اہم اصولوں کو نظر انداز کر جاتا ہوں۔ 4
54321ایسا وقت اکثر آتا ہے جب میں اپنے کام سے شدید تنگ آجاتا ہوں۔5
54321یہاں کام کرنے کے بعد باقی کاموں کےلئے کم وقت بچتا ہے۔6
54321کبھی کبھار جب میں اپنے کام کے بارے میں سوچتا ہوں تومیں سینے میں گھٹن محسوس کرتا ہوں۔7
54321کام کی نوعیت کی وجہ سے مجھے اکثر ایسا محسوس ہوتا ہے جیسے میری اس کمپنی سے شادی ہوگئی ہے۔8
54321مجھے بہت کم وقت میں بہت زیادہ کام کرنا پڑتا ہے۔9
54321کام سے چھٹی کرنے پر مجھے سکون کا احساس ہوتا ہے۔10
54321گھرمیں کبھی کبھار فون کی گھنٹی سن کر مجھے خوف محسوس ہوتا ہے کہ یہ ملازمت سے متعلق ہوگی۔11
54321مجھے ایسا محسوس ہوتا ہے جیسے مجھےکبھی کام سے چھٹی نہیں ہوتی۔12
54321کمپنی میں میرے رتبے کے بہت سارے لوگ ملازمت کےمطالبوں سے اکتا گئے ہیں۔13
54321میرے پاس اپنے لوگوں کی تربیت کے لئے مناسب وقت نہیں ہے۔14
54321لوگ اس جگہ پر کام کرنے کو غیر آرام دہ سمجھتے ہیں۔15

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Figure 1. Research model.
Figure 1. Research model.
Sustainability 14 17022 g001
Figure 2. Model constructs relationships.
Figure 2. Model constructs relationships.
Sustainability 14 17022 g002
Table 1. Demographic characteristics.
Table 1. Demographic characteristics.
Demographics CategoryFrequencyPercentageDemographics CategoryFrequencyPercentage
Age41.9Designation
Less than 20 years5426.0Worker14167.8
20–30 years8239.4Supervisor5225.0
31–40 years2813.5Engineer/Manager157.2
41–50 years4019.2Total Job Experience
Above 50 years Less than 1 year188.7
Education4119.71–5 years5124.5
Matric5124.56–10 years5024.0
Intermediate5426.011–15 years5024.0
Bachelor6129.3Above 15 years3918.8
Master10.5Tenure in Current Department
MS/M.Phil. Less than 1 year3416.3
Employment Status18287.51–5 years6229.8
Permanent209.66–10 years5124.5
Contractual62.911–15 years4421.2
Temporary Above 15 years178.2
Sample size (N) = 208.
Table 2. Results Summary of measurement model.
Table 2. Results Summary of measurement model.
Latent VariableIndicator CodesOuter LoadingsCronbach’s Alpha (CA)Composite Reliability (CR)Average Variance Extracted (AVE)
Error Management ClimateEMC20.9320.976 0.9790.755
EMC30.922
EMC40.872
EMC50.933
EMC60.857
EMC70.861
EMC80.813
EMC90.664
EMC100.828
EMC110.895
EMC120.927
EMC130.89
EMC140.898
EMC150.854
EMC160.849
EfficacyEFF10.8790.8440.9060.764
EFF20.911
EFF30.83
HopeHOP10.930.9370.960.888
HOP20.961
HOP30.936
OptimismOPT10.970.9370.9650.933
OPT20.962
ResilienceRES10.890.870.9190.79
RES20.864
RES30.913
Job StressJS10.7670.8350.950.596
JS20.807
JS40.748
JS50.681
JS60.691
JS70.787
JS80.772
JS90.756
JS110.728
JS120.829
JS130.845
JS140.771
JS150.835
Table 3. Correlation Matrix and Square Root of AVE Fornell and Larcker Criterion.
Table 3. Correlation Matrix and Square Root of AVE Fornell and Larcker Criterion.
Latent VariablesEMCEfficacyHopeJob StressOptimismResilience
EMC0.869
Efficacy0.5200.874
Hope0.6490.8210.943
Job Stress−0.539−0.477−0.5260.772
Optimism0.5810.5190.524−0.4970.966
Resilience0.5070.4320.460−0.3810.8260.889
Table 4. Cross loadings analysis.
Table 4. Cross loadings analysis.
EMCEfficacyHopeOptimismResilienceJob Stress
EMC20.6640.5160.6510.5710.483−0.526
EMC30.8280.5260.6540.5910.472−0.562
EMC40.8950.4110.5410.5130.473−0.461
EMC50.9270.5140.6430.5390.420−0.488
EMC60.8900.4640.5650.5390.471−0.442
EMC70.8980.3890.5460.4520.405−0.438
EMC80.8540.4510.5170.4450.402−0.421
EMC90.8490.3080.3490.2740.314−0.289
EMC100.9320.4090.5170.4550.422−0.460
EMC110.9220.4460.5730.5150.464−0.441
EMC120.8720.4860.6020.5430.476−0.544
EMC130.9330.4420.5560.5620.511−0.520
EMC140.8570.4820.5900.4570.414−0.422
EMC150.8610.4280.5500.5190.444−0.432
EMC160.8130.4600.5290.5000.405−0.489
Eff10.3760.8790.6980.4530.367−0.401
Eff20.4700.9110.7190.4300.355−0.440
Eff30.5150.8300.7360.4810.412−0.409
Hop10.6090.7960.9300.5010.427−0.486
Hop20.5930.7680.9610.4770.431−0.511
Hop30.6340.7580.9360.5060.444−0.489
Opt10.6010.5270.5430.9700.835−0.503
Opt20.5170.4730.4670.9620.757−0.454
Res10.3780.3090.3130.6590.890−0.310
Res20.3740.3310.3800.6680.864−0.264
Res30.5600.4780.5050.8400.913−0.411
JS1−0.551−0.521−0.518−0.565−0.4430.767
JS2−0.481−0.366−0.396−0.404−0.3030.807
JS4−0.444−0.430−0.477−0.493−0.3760.748
JS5−0.314−0.246−0.278−0.268−0.1690.681
JS6−0.324−0.247−0.279−0.183−0.2000.691
JS7−0.494−0.417−0.473−0.362−0.2940.787
JS8−0.339−0.305−0.340−0.289−0.1860.772
JS9−0.279−0.321−0.326−0.301−0.2230.756
JS11−0.323−0.278−0.351−0.304−0.2590.728
JS12−0.413−0.435−0.441−0.431−0.3650.829
JS13−0.405−0.355−0.395−0.400−0.2590.845
JS14−0.454−0.349−0.420−0.347−0.3060.771
JS15−0.426−0.354−0.431−0.419−0.2790.835
Table 5. R2 and Q2 results.
Table 5. R2 and Q2 results.
Endogenous
Latent Variable
R2Adjusted R2Q2
(=1 − SSE/SSO)
Effect Size
Job Stress0.3830.3680.200Medium
Small: 0.0 < Q2 effect size < 0.15; Medium: 0.15 < Q2 effect size < 0.35; Large: Q2 effect size > 0.35.
Table 6. Structural model—Path Coefficients, T-Statistics and Significance of Hypotheses.
Table 6. Structural model—Path Coefficients, T-Statistics and Significance of Hypotheses.
HypothesesPath Coefficients (β)T-Valuesp-ValuesDecision
EMC → Job StressH1−0.3284.9910.000Supported
Mod effect of Hope → StressH2a0.1301.1420.254Not Supported
Mod effect of Optimism → StressH2b−0.4183.7270.000Supported
Mod effect of Self-Efficacy → StressH2c−0.2422.4210.016Supported
Notes: p < 0.05 (two tailed); p < 0.001 (two tailed).
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MDPI and ACS Style

Ashraf, H.; Maqsoom, A.; Jajja, T.T.; Tufail, R.F.; Farooq, R.; Tariq, M.A.U.R. Error Management Climate and Job Stress in Project-Based Organizations: An Empirical Evidence from Pakistani Aircraft Manufacturing Industry. Sustainability 2022, 14, 17022. https://doi.org/10.3390/su142417022

AMA Style

Ashraf H, Maqsoom A, Jajja TT, Tufail RF, Farooq R, Tariq MAUR. Error Management Climate and Job Stress in Project-Based Organizations: An Empirical Evidence from Pakistani Aircraft Manufacturing Industry. Sustainability. 2022; 14(24):17022. https://doi.org/10.3390/su142417022

Chicago/Turabian Style

Ashraf, Hassan, Ahsen Maqsoom, Tayyab Tahir Jajja, Rana Faisal Tufail, Rashid Farooq, and Muhammad Atiq Ur Rehman Tariq. 2022. "Error Management Climate and Job Stress in Project-Based Organizations: An Empirical Evidence from Pakistani Aircraft Manufacturing Industry" Sustainability 14, no. 24: 17022. https://doi.org/10.3390/su142417022

APA Style

Ashraf, H., Maqsoom, A., Jajja, T. T., Tufail, R. F., Farooq, R., & Tariq, M. A. U. R. (2022). Error Management Climate and Job Stress in Project-Based Organizations: An Empirical Evidence from Pakistani Aircraft Manufacturing Industry. Sustainability, 14(24), 17022. https://doi.org/10.3390/su142417022

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