It’s a new day – is it? Testing accumulation and sensitisation effects of workload on fatigue in daily diary studies

Studies investigating the stressor – strain relation using daily diary designs have been interested in within-person deviations that predict well-being outcomes on the same day. These models typically have not accounted for the possibility of short-term accumulation (i.e. previous stressor experiences having a lasting e ﬀ ect and a ﬀ ecting strain on subsequent occasions) and sensitisation (i.e. previous stressor experiences amplifying subsequent reactions to stressors) e ﬀ ects of stressors such as workload across days. In this study, we test immediate, accumulation, and sensitisation e ﬀ ects of workload on fatigue within and across days using four diary studies (mean observations = 1,406; mean N = 166). In all four studies, we observed that workload had positive concurrent e ﬀ ects on fatigue. In addition, we found that workload had positive e ﬀ ects on fatigue within one day. However, there was insu ﬃ cient support for short-term accumulation or sensitisation e ﬀ ects, implying that higher levels of workload on previous days did not directly a ﬀ ect or amplify the e ﬀ ect of workload on fatigue on that day. We discuss implications for recovery theories and potential future avenues to re ﬁ ne the theoretical propositions that describe intra-individual stress and recovery processes across days.

Employee well-being is an important antecedent of work performance and has significant implications for individual, organisational, and societal functioning (Wright & Cropanzano, 2000).An increasing number of studies have used diary designs to investigate the temporal dynamics of stress processes and employee well-being (Podsakoff et al., 2019).Typically, such studies have been interested in how within-person fluctuations of stressors predict strain outcomes on the same day, offering explanations as to when and why well-being deviates from its usual level.An underlying assumption of this approach is that repeated experience of these deviations may alter well-being over time; consequently, daily diary studies can provide information on the mechanisms that potentially lead to long-term changes in well-being.Therefore, testing for the possibility of events having a lingering effect and affecting employee well-being across days may provide insights that could be crucial to understanding how daily fluctuations manifest into well-being impairments over time.
There are two theoretical perspectives on how the stressor-strain relation may evolve over short time periods.Some theories such as the initial impact model (Frese & Zapf, 1988) assume that employees immediately react to stressors with heightened levels of strain.As soon as the stressor is removed, strain levels and activation return to their base level (McEwen, 1998).These models imply that there are concurrent positive relationships between job stressors and strain, but not necessarily lagged relationships (e.g. from previous day's job stressors to current strain).Other theoretical positions assume that exposure to stressors may accumulate over time.For example, Meijman and Mulder (1998) assume that exposure to high workload leads to insufficient time to recover which may increase the intensity of subsequent load reactions.This implies that we may observe lagged relationships between job stressors and strain (accumulation), but more importantly, that the exposure to job stressors on previous days may amplify the reaction to job stressors (sensitisation).In this paper, we compare these different temporal models of how the stressor-strain relation may evolve within and across days.To test the relevance of the different theoretical propositions, we use four daily diary studies to assess a prototypical stressor (workload) and strain outcome (fatigue; see Figure 1).
Our research makes both theoretical and methodological contributions to the stress and recovery literature.By comparing different perspectives on how job stressors affect employees' well-being within and across days, we respond to the call to pay more attention to temporal issues in order to extend our knowledge of the temporal dynamic of the stressor-strain relation (Sonnentag, 2012;Sonnentag et al., 2017).Previous stress research using diary study designs has mainly focused on immediate effects or effects within one day, offering valuable insights into the linkages between daily work experiences and well-being fluctuations (Ilies, Aw, et al., 2015).In this study, we test two alternative modelsnamely, accumulation and sensitisation models (Frese & Zapf, 1988;Meijman & Mulder, 1998) that have been developed to explain intra-individual processes within and across days.These models serve to temporally expand the investigation of the dynamic interplay between work experiences and wellbeing across days in the hopes of offering explanations as to why daily stressors not only affect employees' health in the short run, but may also trigger a loss spiral leading to health impairments in the long run.To increase the generalizability, reliability, and hence confidence in our conclusions, we have cross-validated our findings using four samples.

Workload and fatigue
Prominent frameworks, such as the effort-recovery model (Meijman & Mulder, 1998), the job demands-resources model (Demerouti et al., 2001), and the conservation of resources theory (Hobfoll, 1989), postulate that stressors such as workload require physical and psychological resources because employees need to invest energy and effort to deal with the stressors.These investments leave employees feeling drained and lacking energy.Research has shown support for this assumption across various studies for multiple stressors (for meta-analytic results of betweenand within-person effects; see Pindek et al., 2019).
One of the stressors employees report being exposed to most frequently is workload (Bowling et al., 2015), which is described as "having high amounts of work, having to work fast, and working under time pressure" (Ilies, Huth, et al., 2015, p. 2).Previous daily diary studies have demonstrated that workload varies substantially across working days and that high workload is negatively related to employee affective (e.g.distress), cognitive (e.g.detachment), and physiological (e.g.blood pressure) reactions (Baethge et al., 2018;Ilies et al., 2010;Teuchmann et al., 1999;Zohar et al., 2003).Theoretically and empirically, fatigue is a relevant outcome of workload.Work fatigue refers to the drainage of resources, which leads to tiredness, reduced functional capacity, and the feeling of a need to recover at the end of the workday (Frone & Tidwell, 2015;Ilies, Huth, et al., 2015;Sonnentag & Zijlstra, 2006).It is a central component in models of employee well-being and health (e.g.Demerouti et al., 2001) and has shown considerable variation within and across workdays (Cranford et al., 2006;Hülsheger, 2016;Ilies, Huth, et al., 2015).As such, fatigue offers a mechanism between job stressors and well-being.
However, there is a lack of understanding of the temporal pattern of the relationship between workload and fatigue.It has been argued that employees are confronted not only with present stressors, but also with residual stress from past stressors.Hence, the effects of workload may differ depending on frequency and exposure time (McGrath & Beehr, 1990).Considering the temporal pattern of workload, in the following sections, we theorise on immediate, accumulation, and sensitisation effects.

Temporal pattern of workloadfatigue within one day
A key assumption is that daily stressors have an immediate effect on employees' functioning on the day they occur.For example, the initial impact model (Frese & Zapf, 1988;Garst et al., 2000) proposes that stressors have an immediate effect on strain.According to this model, strain increases with increasing stressors because one must also invest resources to cope with the stressors.This model is especially relevant to diary research in which stressors and strains are measured on the same day.For example, daily diary studies report effects from workload experienced during the workday on strain outcomes such as distress, fatigue, and blood pressure the same day (e.g.Baethge & Rigotti, 2013;Ilies et al., 2010;Smit & Barber, 2016).We, therefore, propose the following hypothesis: Hypothesis 1.In line with the initial impact model, workload has a positive effect on fatigue within the same day.

Temporal pattern of workloadfatigue across days
To understand long-term adaptation, the lack thereof, and the consequences for wellbeing, researchers have investigated daily stressors and strains, hoping to find mechanisms that explain how daily stressors and strain reactions accumulate and turn into chronic stressors and strain reactions (Almeida, 2005;Lazarus & Folkman, 1984).One assumption is that stressors not only have an effect on the day they were experienced, but also carry forward and have an effect across days.Hence, fatigue on one day may be affected not only by experiences on that day, but also by previous experiences and exposures to workload.This theoretical position is captured in accumulation and sensitisation models (Frese & Zapf, 1988;Gump & Matthews, 1999;Wickham & Knee, 2013).These models propose that previous experiences of stressors may have a direct (accumulation) or moderating (sensitisation) effect on strain.
The effect of exposure to workload on previous days may linger and accumulate across days, capturing the idea that experiences can have immediate effects but that those effects can also carry forward.Accumulation across multiple days may occur due to the lack of recovery after exposure to the stressor; in effect, the resources depleted due to job stressors were not fully restored (Sonnentag & Fritz, 2015).Reduced opportunities to recover may occur because employees facing high workload work harder and longer, which in turn impairs their ability to recover outside of work (Baethge et al., 2019).Hence, not only single occurrences of stressors may have an impact on employees, their temporal spacing may also play a role if components of the stress process start to overlap (exposure, reaction, recovery; Schilling et al., 2022).As a consequence, the impact of a job stressor increases over time, and even after the stressor is reduced or no longer present, strain remains heightened (Dormann & van de Ven, 2014); hence the stressor, and reactions to it, start to accumulate and pile up.
Previous research has demonstrated accumulation effects at the between-person level or over long time periods such as five or ten years (e.g.Garst et al., 2000;Igic et al., 2017).Some daily diary studies have explored the effects of exposure to various life stressors and found accumulation effects over one week and within one day (Schilling & Diehl, 2014;Schilling et al., 2022).Unfortunately, these studies cannot shed light on whether the accumulation is driven by accumulation across different life domains (i.e.work and private stressors) or the temporal spacing of stressors.Within the work domain, we are not aware of any study investigating such effects; however, some studies found that job stressors can reach across days.For example, Nicholson and Griffin (2015) showed negative effects of incivility on end-of-day well-being and next-day recovery levels, and Park and Kim (2019) reported negative effects of customer mistreatment on next-morning recovery.
According to accumulation models, effects of previous experiences of workload may persist across days even if workload on that day is lower (Dormann & van de Ven, 2014;Frese & Zapf, 1988).To test these effects, we create a pile-up index variable of workload, capturing workload experiences prior in the work week, to predict fatigue over and above workload experienced on the same day.
Hypothesis 2. In line with accumulation models, pile-up of workload has a positive effect on fatigue over and above workload on that day.
Besides the lingering direct effect of workload, continued exposure may make employees more vulnerable to future workloada process called sensitisation.Sensitisation refers to the extent to which previous experiences change individuals' reactions to subsequent experiences, specifically increasing their sensitivity to stressors (e.g.Harkness et al., 2015;Wickham & Knee, 2013).The term sensitisation was coined by research on psychopathology, which showed that, for example, increasingly mild stressors can maintain an affective disorder compared to the initial trigger that was required for the first episode (Harkness et al., 2015;Monroe & Harkness, 2005).Sensitisation refers to the phenomena of heightened sensitivity or reactivity to stressors (Mroczek & Almeida, 2004).Theoretical arguments relating to sensitisation effects can also be found in other areas.For example, in the effort-recovery model, Meijman and Mulder (1998) positioned workload as a job stressor that requires effort to deal with.Notably, they also theorised that, when faced with insufficient opportunities for recovery, employees who are already in a suboptimal state need to invest additional effort to deal with sustained workload.This will intensify the negative reaction to workload (i.e.sensitisation), making it even more difficult to recover (Meijman & Mulder, 1998).Similarly, the conservation of resources theory (COR; Hobfoll, 1989) notes that individuals need to invest additional effort to recover from resource loss.Particularly relevant for the sensitisation effect, the theory also proposes that an initial loss of resources, reflected in a state of fatigue, may lead to future resource losses that make employees increasingly vulnerable.
To the best of our knowledge, research on the sensitisation effects of job stressors has been scarce.In a study with accountants, Teuchmann et al. (1999) compared the effect of a two-week period of high workload against regular workweeks.The authors compared the amount of explained variance in affect and exhaustion across two path models and concluded that job characteristics explained employee well-being better during the period with sustained high workload.This finding lends indirect support for the proposition that employees may become sensitised during a period of sustained high workload.
Parallel to accumulation effects, we will test sensitisation effects using the workload pile-up index.
Hypothesis 3. In line with sensitisation models, workload pile-up moderates the positive relationship between workload and fatigue within one day such that the relationship is stronger at higher levels of workload pile-up.

Method
We investigated the hypotheses using four daily diary samples that followed the same procedure.We first administered a baseline questionnaire, which was followed by daily assessments for two weeks (10 workdays).All four samples included participants with various occupational backgrounds (e.g.variety of industries, professions, and hierarchy levels).For Sample 2, ethical approval was obtained from the local institution (Ethics Committee Psychology, University of Groningen, 17161-O) prior to data collection.For Sample 1, 3, and 4 no institutional ethics committee was available at the time, however, the studies were conducted in accordance with ethical guidelines and the Declaration of Helsinki.

Participants
Sample 1. Participants were recruited by students as a part of their Master's thesis research project (for a critical discussion on advantages and disadvantages of this procedure see Demerouti & Rispens, 2014).To be eligible for the study, participants were required to work at least 21 h per week (50% of full-time employment).The baseline questionnaire was completed by 127 participants, who all also completed daily questionnaires.Participants were asked to fill in questionnaires three times a day: one in the morning (not used for this study), one in the afternoon approximately 1.5 h before the end of work, and one at the end of the workday.On average, the participants completed 8.80 (SD = 1.64) afternoon questionnaires, and 9.67 (SD = 0.83) end-of-workday questionnaires.Participants were 35.6 years old (SD = 11.46),45% were female, and worked 38.6 h per week (SD = 5.84).
Sample 2. Participants were recruited using a research panel company.To be eligible for the study, participants were required to be fully employed.The baseline questionnaire was completed by 312 participants, 272 of whom also completed daily questionnaires.
Participants were asked to fill in questionnaires twice a day: one in the early afternoon and one at the end of the workday.On average, the participants completed 6.2 (SD = 3.65) afternoon questionnaires and 7.6 (SD = 3.05) end-of-workday questionnaires.Participants were 46.5 years old (SD = 10.53),47% were female, and worked 39.7 h per week (SD = 4.21).
Sample 3. As in Sample 1, students recruited participants working at least 21 h per week (50% of full-time employment).The baseline questionnaire was completed by 131 participants, who all completed daily questionnaires.Participants were asked to fill in questionnaires three times a day: one in the morning (not used in this study), at the end of the workday, and at bedtime (not used in this study).On average, the participants completed 7.5 (SD = 2.28) end-of-workday questionnaires.Participants were 33.4 years old (SD = 12.6), 64% were female, and worked 36.1 h per week (SD = 7.05).
Sample 4. Participants were recruited through online newsletters and social media.In addition, members of a study participant pool were contacted, and students recruited eligible participants from their personal networks.To be eligible for the study, participants were required to work at least 33 h per week (80% of full-time employment).The baseline questionnaire was completed by 150 participants, 146 of whom also completed daily questionnaires.Participants were asked to fill in one questionnaire in the morning (not used in this study), at the end of the workday, and at bedtime (not used in this study).Participants were asked to continue taking the daily survey until they completed the study (defined as having 10 days of data with at least two surveys filled in).On average, the participants completed 9.3 (SD = 1.53) end-of-workday questionnaires.Participants were 34 years old (SD = 9.7), 53% were female, and worked 40.4 h per week (SD = 5.3).

Measures
Table 1 gives an overview of the measures used across the four studies, including reliability estimates.As recommended, we report omegas for the daily measures (Geldhof et al., 2014).
Daily workload.The studies used items originally developed by Semmer et al. (1995), but adapted to the daily context.An example item is: "Today, a fast pace of work was required." Daily fatigue.The four studies used three different measures to assess daily fatigue.A sample item is: "This evening, to what extent do you feel mentally exhausted?"adjusted from Frone and Tidwell (2015).

Analytical procedure
To test the within-person effects, we applied hierarchical linear modelling using Mplus 8 to account for the nested data structure (Muthén & Muthén, 1998-2017).Daily workload was modelled as a predictor of fatigue at Level 1.To test the accumulation and sensitisation effects of previous workload experiences, we created a workload pile-up index variable.First, we person-mean centred workload to remove between-person effects from the index variable.Next, we created a weighted pile-up variable per workday (Schilling et al., 2022).For that, we added up an employee's workload from previous days until the current day and weighted the previous workload measures according to their temporal distance that has passed.Hence, the workload that was experienced earlier in the week contributes less to the pileup index than workload experienced later in the week.The pile-up variable was calculated for week 1 and 2 separately to account for the prolonged recovery time over the weekend.Overall, the workload pile-up variable represents the individual workload pile-up from what an employee is used to experience across the two work weeks we observed in our studies.Table 2 illustrates the calculation of the pileup variable for a fictitious example of an individual participant.Daily workload was person-mean centred.We ran a series of models to test for withinand across-day effects of workload, modelling random slopes for the effects of workload on fatigue.First, we estimated the effect of workload on fatigue within one day (model 1).Second, we added the workload pile-up variable (model 2) to test for the accumulation effect.Then, we added the interaction term between workload and workload pile-up (model 3) to test for the sensitisation effect.We also ran a series of alternative models (e.g.latent growth curve models).None of these alternatives led to different conclusions regarding accumulation and sensitisation effects.The results of these analyses are available from the authors upon request.
It is recommended to control for cyclical patterns in diary studies to avoid reporting spurious relationships or failing to detect relationships (Beal & Ghandour, 2011;Gabriel et al., 2019;Liu & West, 2016).To control for a variety of weekly cycles, we included study day, sine, and cosine in all our models, modelled as fixed slopes (Liu & West, 2016).

Results
Table 3 shows the means and standard deviations of the study variables across the four studies.We first estimated the amount of within-person variance for the Level 1 variables by calculating ICC1s.Across all four studies, we found considerable within-person variance for workload (ranging from .40 to .66,see Table 3) and fatigue (ranging from .34 to .68,see Table 3) at the day level, thus justifying the use of multilevel modelling (Raudenbush & Bryk, 2002).Across the four studies, there was no consistent weekly cycle identified (see Table 3), implying that the weekly cycles in diary studies vary greatly between studies.
Table 4 provides the effects of workload on fatigue for the four studies.In all four studies, workload was positively related to fatigue concurrently (S3 and 4) and later in the day (S1 and 2).These results support the initial impact model as stated in Hypothesis 1.
Considering the effects across days, we found no significant effect in any of the four studies (model 2 in Table 3 for Samples 1-4).These findings do not support the accumulation hypothesis over the workweek.
Finally, we tested sensitisation effects by adding the interaction term of workload pileup and current workload.Across the four studies, none of the interaction terms were significant (model 3 in Table 4).

Discussion
With this study, we compared effects of workload within one day and across days to understand how daily work experiences may have lasting effects on employees' wellbeing.Our results supported the initial impact model (Frese & Zapf, 1988), as we consistently found concurrent positive relationships between workload and fatigue.Conversely, the four samples did not support the assumption that workload has an effect across days, at least not over the time periods we were able to test.In terms of accumulation, we found no evidence that workload experienced on previous days had a direct effect on fatigue.Similarly, we found no support for sensitisation effects, as workload pile-up did not moderate the relationship between workload and fatigue within one day.These results showcase that employees are able to recover overnight and are resilient to short-term accumulation and sensitisation effects.Accordingly, sleep may play an even more important role in the stressor-strain relation than assumed thus far, as the lagged effect of workload on strain seems to vanish overnight.That being said, it is possible that employees can withstand short-term accumulation and sensitisation effects related to workload, but they may suffer from these effects if other factors are present as well.For example, workload experienced on one day may alter the reaction to subsequent workload if autonomy and social support are low.Although most studies have investigated the effects of single job characteristics on employee well-being, considering the concert of different stressors and resources may be particularly useful for investigating how short-term fluctuations relate to well-being impairments over time.
We also controlled for weekly cycles in all four studies by using sine and cosine functions, an approach that is considered useful for detecting and modelling a variety of different weekly cycles (Gabriel et al., 2019;Liu & West, 2016).It is notable that across the four studies, we found no consistent weekly pattern for daily measurement of fatigue.This lack of consistency may imply that fatigue over the workweek fluctuates Notes: Correlations below the diagonal reflect the within-person associations of the constructs.Correlations above the diagonal reflect the between-person associations of the aggregated measures.SD w = within-person standard deviation; SD b = between-person standard deviation; ICC = intraclass correlation (proportion of the between-person variance compared with the total variance).*p < .05(two-tailed testing).For clarity, no further differentiation between p-values below .05 is shown in this and subsequent tables.considerably, possibly depending on other factors such as season or characteristics of the sample.

Theoretical and methodological implications
While the lack of support for short-term accumulation and sensitisation effects is good news for employees, speaking to their resilience, the findings also have implications for theorising and study designs aimed at understanding the linkage between daily fluctuations and long-term effects on well-being.
The findings of this study generally support the core assumptions of recovery models and highlight once more the relevance of recovery processes in the stressor-strain relation (Meijman & Mulder, 1998;Sonnentag et al., 2017).Although some research has examined recovery activities and experiences, our findings may serve as a starting point to inform the less considered question of the temporal dynamics of stressors and recovery (Sonnentag et al., 2017), specifically in terms of the duration of the strain effects of workload.Our findings consistently showed that workload has withinday effects.Moving forward, it will be insightful to learn whether and how recovery processes can make a difference in the onset, speed, and duration of these effects.Some researchers have proposed that exposure to repeated stressors such as high workload could also have positive effects on employees, for example, through learning, mastery experiences, and development of self-efficacy (Gump & Matthews, 1999;Ilies, Aw, et al., 2015;Meurs & Perrewé, 2011).Perhaps, employees who have established successful recovery activities and routines may experience such positive learning and habituation effects.Such a habituation effect would be indicated through an interaction term opposite to the sensitisation effect (i.e. the experience of previous workload attenuates the relationship between workload and fatigue within one day), which we did not observe across the four studies.
For this study, we used an observation period of two work weeks, which allowed us to consider pile-up up to four previous days for the within-person effects.However, this timeframe may not have been sufficient to uncover previous experiences of workload carrying forward to the present day.Previous research has reported the effects of stressors on next-day strain (e.g.Zhang et al., 2016), whereas others have failed to find such effects (e.g.Demerouti & Cropanzano, 2017).These studies typically used previous-day or next-morning assessments to test for lingering effects; however, effects on next morning's strain are still short-term and are only of limited use to explain the build-up of strain that can eventually lead to well-being impairment.In conclusion, our findings imply that the daily diary designs that many researchers have adopted are optimally suited to investigate research questions focusing on short-term processes within one day.However, to understand how these short-term experiences and mechanisms build up and develop over time, researchers need to adopt more extensive research designs that go beyond the usual one or two work weeks.
We believe that accumulation and sensitisation mechanisms should be further investigated, expanding the knowledge to other stressors and well-being.The lack of empirical support for these mechanisms also necessitates the refinement and alternative explanations of how intraand inter-individual processes may be linked.Greater clarity on these linkages would be important for understanding positive human development and would enable researchers to investigate predictors of fluctuations relevant to such positive development (versus short-term fluctuations that do not hold any meaning or relevance for long-term well-being).One potential avenue for refinement may relate to the interplay between previous experiences and the anticipation of upcoming experiences.Some researchers have argued that current strain experiences are affected not only by past experiences, but also by the anticipation of future stressors (Kecklund & Akerstedt, 2004;Rook & Zijlstra, 2006;van Eck et al., 1998).For example, Hülsheger et al. ( 2014) investigated mean-level changes in recovery-related variables over the work week, showing improvements in detachment and sleep over the course of the week.These results indicated that employees may worry about job stressors at the beginning of the week but become more relaxed as the week goes on.Neubauer et al. (2018) proposed a more nuanced pattern by considering the interplay of stressor presence, anticipation, and emotional reactions.In their study, stressor experience and anticipation of a stressor had a negative effect on emotions; however, the anticipation effect was stronger if participants had experienced a previous stressor.Similarly, Casper and Sonnentag (2020) showed that anticipation of workload during time outside of work was related to next-morning vigour and exhaustion over and above experienced workload.These findings imply that the stressor-strain relationship may be more complex, influenced by both past and future-oriented cognition and processes.

Limitations and future research directions
This study used four samples using daily diary methodology to offer a systematic investigation of the relation between workload and fatigue within and across days.All four studies exceeded the currently recommended number of observations needed to be able to detect effects (Gabriel et al., 2019).However, the study also has some shortcomings.
The four datasets were limited to the stressor-strain relation between workload and fatigue.We chose workload as an indicator of a typical stressor many employees are exposed to, but other stressors may be more likely to trigger accumulation and sensitisation processes over these short periods of time.The few previous studies investigating accumulation effects across days reported the effects of social stressors on fatigue and recovery-related indicators the next day (Nicholson & Griffin, 2015;Park & Kim, 2019;Zhang et al., 2016).Although social stressors tend to occur less often, they have strong effects on employees' well-being (Bowling & Beehr, 2006).Furthermore, social stressors are particularly likely to trigger ruminative thoughts that hinder the recovery process and can have lingering effects on mood across days (Wang et al., 2013).It is possible that stressors that elicit more intense strain reactions could lead to accumulation and sensitisation effects.We therefore encourage future research to investigate whether these short-term developments depend on the type and intensity of the stressor.
Related, we focused our investigation of the effects of workload pile-up, however, future research may also focus on strain reactions.Theoretically, accumulation and sensitisation effects may occur when components of the stress process start to overlap.Hence, the accumulation of strain (e.g.fatigue) might amplify future reactions to stressor exposure (i.e.sensitise).In addition, systematic research is needed to investigate the potential moderating effects of chronic stressors.In additional analyses (available upon request), we did not find a sensitisation effect of chronic workload (measured in the baseline survey), but previous research has found support for this assumption.For example, in a diary study, employees with high chronic organisational constraintsbut not workloadreacted more strongly to daily fluctuations in incivility than employees with low chronic constraints (Zhou et al., 2015).
All four studies ran for ten working days only, and it is possible that the accumulation and sensitisation effects of workload require more time.We therefore recommend that researchers design studies to cover an extended time span (e.g. two months), which would allow them to test for these effects over longer time periods.More recently, scholars have started to collect daily data over a three-week period (e.g.Lennard et al., 2019).However, due to the high burden for participants, we believe that daily measures over an even longer time period are not always feasible.Therefore, to examine longer time periods, scholars could opt for repeated weekly (instead of daily) measures of stressors and strain (e.g.Totterdell et al., 2006).In addition, so-called measurement burst designs could be promising for future studies on the accumulation and sensitisation effects of work stress.These study designs have been employed in the area of developmental psychology, but to the best of our knowledge, have yet to be implemented in applied research (Nesselroade, 1991;Sliwinski, 2008;Stawski et al., 2016).A measurement burst study consists of repeated bursts of intensive assessments over a longer time period (e.g.two-week period of daily assessments three times, separated by a time lag of six months), which enables researchers to study both short-term fluctuations and long-term changes.More specifically, such a study design would allow researchers to examine both work stress-related changes in well-being (accumulation effects) and changes in reactivity to daily stressors (sensitisation) across bursts.

Conclusion
Using four diary studies, we tested the theoretical assumptions of immediate impact, accumulation, and sensitisation effects to investigate the temporal dynamics of workload and fatigue.This study is the first to rigorously test if and how stressors reach across days.We found support for the initial impact model, but not for the accumulation and sensitisation processes.Therefore, our results imply that employees manage to recover from demanding work overnight.The study calls for a methodological extension of daily diary designs to allow researchers to test longer time frames for potential accumulation and sensitisation effects.

Figure 1 .
Figure 1.Theoretical model on the proposed relations between workload and fatigue within and across days.

Table 1 .
Measures for the four studies.

Table 2 .
Fictitious example of workload pile-up index across study observation period (2 weeks).

Table 3 .
Means, standard deviations, and correlations for study variables.