Life Events and Personality Change: A Systematic Review and Meta-Analysis

Personality

Consistent with this literature, we focus on both Big Five personality traits (sometimes referred to as "core characteristics" or "dispositional traits"; Kandler et al., 2014; McAdams & Pals, 2006) and self-esteem and life satisfaction (sometimes referred to as “surface characteristics” or “characteristic adaptations”). Self-esteem and life satisfaction are trait-like in that they are relatively stable, associated with a wide range of life outcomes and have often been studied in the context of major life events (Luhmann et al., 2012; Orth et al., 2010). However, they are not always conceptualized as personality traits, in part because they have somewhat lower rank-order stabilities than the Big Five (Anusic & Schimmack, 2016; see also Fraley & Roberts, 2005; Kuster & Orth, 2013). A potential reason for this difference is that these surface characteristics develop through the transaction with specific environments (Henry & Mõttus, 2020). It would follow that self-esteem and life satisfaction change more in response to life events than Big Five personality traits, although evidence for this hypothesis has so far been ambiguous.

Life Events

Life events can be defined as time-specific transitions that indicate a new status (i.e., position, rank, role, condition) or denote the end of a previous status (e.g., Bleidorn et al., 2018; Luhmann et al., 2012). In this study, we focused on the 10 major life events that have been studied most often: Entering a new relationship, marriage, birth of a child, separation, divorce, widowhood, graduation, entering the first job, unemployment, and retirement. Life events often require individuals to react to the transition with a new repertoire of cognitive, emotional, and behavioral tendencies (Hopson & Adams, 1976; Luhmann et al., 2014). Life events are thought to trigger change in personality through changes in a person’s everyday pattern of thoughts, feelings, and behaviors (Roberts, 2018; Roberts & Jackson, 2008; Wrzus & Roberts, 2017).

The broad variety of life events can be organized in several ways. A common distinction has been the classification of events that fall in the “love” versus “work” domains (see Bleidorn et al., 2018; Luhmann et al., 2012). For the love or relationship domain, theory and some evidence suggested that the beginning of a romantic relationship, marriage, the birth of a child, separation, divorce, and widowhood may be associated with change in Big Five personality traits, self-esteem, and life satisfaction (e.g., Denissen et al., 2019; Lucas, 2007; Reitz, 2022; Specht et al., 2011b). For the work domain, theory and evidence suggest that graduation from school and college, the first job, unemployment, and retirement may be associated with personality change (e.g., Bleidorn et al., 2013; Lucas, 2007; Luhmann et al., 2012; Reitz, 2022; Specht et al., 2011b).

Within both of these domains, life events can be further divided in terms of their provision of gains or losses (Denissen et al., 2019). Gain-based life events occur when something is added to someone’s life. Examples include entering a new relationship or beginning the first job. Loss-based life events occur when something that has been a part of someone’s life is taken away. Examples include divorce or retirement. Gain-based life events involve accommodating new roles, resources, or burdens, whereas loss-based life events involve changing established patterns to adapt to new contingencies. As such, the gain-loss distinction of events might be an important factor in whether or how personality variables change in response to an event. For instance, gain-based events tend to be more normative and positive, meaning that they reflect generally good things that happen to most people, particularly during certain life stages, whereas loss-based events tend to be less normative, meaning that they generally reflect bad things that are less common (Bühler et al., 2022; Neyer et al., 2014). Societies tend to develop strong expectations regarding how people ought to change in response to normative life events, and it is easier to find other people who have gone through a normative than a non-normative life event. In contrast, non-normative life events come with a greater likelihood of standing out or feeling unique, which could lead people to feel special or lonely. On the one hand, normative life events that come with a specific script of how to react may be associated with more pronounced mean-level changes in traits, because they may produce more similar changes in people’s patterns of thoughts, feelings, and behaviors than less scripted, less normative events (e.g., Caspi & Moffitt, 1993; Neyer et al., 2014). However, it has also been argued that negative, loss-based life events would tend to show stronger and more persistent effects than positive, gain-based life events (e.g., Baumeister et al., 2001). Current evidence is mixed about the overall effect of gain-based, normative, and positive versus loss-based, less normative, and negative life events in affecting personality change (Bleidorn et al., 2018; Luhmann et al., 2012).

Life Events and Personality Change

Existing research provides some evidence for the effects of life events on change in personality in the domains of love and work.

Summary

Table 1 summarizes the research on life events and personality change across domains. Several themes are evident. First, there is, at least based on this narrative review, some evidence that personality changes as a function of life events. Moreover, there is evidence for specificity, in that different personality variables change as a function of different life events. Second, changes in self-esteem and life satisfaction tended to be more consistent than changes in Big Five personality traits, as predicted by theories that suggest that these surface characteristics are more responsive to environmental changes (Henry & Mõttus, 2020). Third, there is some support for the idea that gain-based events are associated with positive personality changes and loss-based events are associated with negative personality changes, although this picture is complicated. For instance, childbirth, a gain-based event, seems to be associated with decreases in self-esteem and life satisfaction, whereas divorce, a loss-based event, may be associated with increases in agreeableness and openness. Fourth, there is a lot of mixed evidence, as indicated by the many question marks in Table 1.

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Table 1.

Summary of Existing Evidence for the Impact of Life Events on Personality Change.

Life event	Emotional Stability	Agreeableness	Extraversion	Conscientiousness	Openness	Self-Esteem	Life Satisfaction
Love
New relationship*	+		+	+		+	+
Marriage*	?		?		?		^
Childbirth*			?	?		-	-
Separation∼		?	?		?	-	-
Divorce∼	-	+	?	?	+	^	^
Widowhood∼				?		-	-
Work
Graduation*	?	?		?	?	?
First job*	+		+			+
Unemployment∼	?	?		?	?	^	-
Retirement∼	?	?	?	?	?	^	^

Note. * = gain-based event, ∼ = loss-based event, + = increase, - = decrease, ^ = change occurs in different directions as a function of the timing of the event, ? = mixed evidence.

Notably, this summary is based on a qualitative review of the existing literature, thus suffering from all of the attendant biases and imprecision, many of which can be addressed via systematic meta-analysis. Moreover, several conceptual and methodological issues need to be considered when evaluating the empirical literature on life events and personality change, such as differences in study designs and sample compositions.

Methodological Considerations

A major challenge in studying life events and personality change is the reliance on correlational studies to test causal hypotheses. To strengthen the conclusions that can be drawn from observational studies, scholars have used prospective-longitudinal designs in which personality differences were assessed before and after the occurrence of an event. While some studies only included an event group (i.e., participants who experienced the life event), others included both an event and a comparison group of participants who did not experience the life event during the study period or experienced the life event at a later time (e.g., Neyer & Asendorpf, 2001; Neyer & Lehnart, 2007). In this meta-analysis, we therefore compared effect sizes that were drawn from event-group studies with studies that included both event and comparison groups to quantify potential effect-size differences between these study designs.

An additional complexity is that comparison and event groups may differ in several ways even before an event occurs, limiting the conclusions that can be drawn about group differences that occur after the experience of an event (Rosenbaum & Rubin, 1983). More recent studies have adopted matching approaches, such as propensity score matching, to match participants from both groups in their preexisting differences (e.g., Luciano & Orth, 2017; Jackson er al., 2012; Schwaba & Bleidorn, 2019; van Scheppingen & Leopold, 2020; Wagner et al., 2015). This technique allows scholars to statistically isolate the net effect of a life event because participants of both groups had the same propensity to experience a life event (Rosenbaum & Rubin, 1983). Therefore, in this research, we tested whether the type of matching (e.g., no matching, propensity score matching) explains heterogeneity in the findings.

Moderators

The substantial heterogeneity in the effects of life events on personality variables raises questions about the factors that may explain these differences. In this meta-analysis, we examined the moderating effects of age, gender, time lag between assessments, birth cohort, country, ethnicity, sample type, and type of matching (if a comparison group was used; see above) on the between-study differences in the effect sizes.

Some evidence suggests that life events may have different effects on people’s personality depending on their age and gender (Costa et al., 2000; Specht et al., 2011b; Wagner et al., 2015; but see Bühler et al., 2022). For example, Wagner et al. (2015) found that entering a romantic relationship was linked with increases in emotional stability, extraversion, and conscientiousness among young adults who entered their first romantic relationship between 23 and 25 years, but not among young adults who entered their first romantic relationship between 21 and 23 years. Moreover, Specht et al. (2011b) found differences between how women and men changed in conscientiousness following the death of their spouse.

The effect of a life event may also depend on the time that passed since the occurrence of that event. For example, some changes may occur immediately after the event, while other changes may be delayed over longer periods of time (e.g., Luciano & Orth, 2017; Hopwood et al., 2022). To study the role of time in the effects of life events on personality change, we tested whether the length of the lag between the pre- and post-event assessments moderated between-study differences in the effect sizes.

Finally, we also explored the effects of birth cohort, country, ethnicity, and sample type (see also Bühler et al., 2021; Orth et al., 2018). The normativity of specific life events may differ across cohorts, such as how normative it is to stay single versus to enter a romantic relationship (Scheling & Richter, 2021; Yu et al., 2018), and this may have an effect on personality change. Moreover, certain life events may be culture-sensitive, for instance, regarding their expected onset (e.g., age at first marriage; Bleidorn et al., 2013), so it is important to test whether effect sizes differ between countries and ethnic groups. Finally, representative samples typically allow for more valid conclusions compared to non-representative samples, such as community samples and samples of college students (Orth et al., 2018). Therefore, testing the moderating effects of birth cohort, country, ethnicity, and sample type provides important information about the robustness and generalizability of the findings.

The Present Research

The goal of this preregistered meta-analysis was to provide precise and robust evidence about the extent to which life events are associated with personality change. We estimated the average effect of 10 life events (i.e., entering a romantic relationship, marriage, birth of a child, separation, divorce, widowhood, graduation, first job, unemployment, retirement) on change in Big Five personality traits, self-esteem, and life satisfaction. This design allowed us to compare different combinations of life events and personality characteristics to assess, for example, whether self-esteem and life satisfaction as surface characteristics change more than Big Five personality traits as core characteristics. Moreover, we aggregated all gain-based and loss-based life events within the love and work domains to examine their overall effects on change in Big Five personality traits, self-esteem, and life satisfaction. In addition, we compared effect size measures from event and comparison groups. Finally, we tested a series of theoretically relevant moderators (e.g., age, gender, time lag) that may explain variance in the effect size.

Search and Selection Procedure

To identify relevant studies, we searched for English-language journal articles, books, book chapters, and dissertations in the database PsycINFO. ¹ We used the following search terms: ²

(personality or big five or extraver* or introver* or agreeable* or conscientious* or openness or open to experience* or neurotic* or emotional stability or emotionally stable or self-esteem or life satisfaction) and (life event* or transition* or romantic relationship* or marriage or marry or parenthood or motherhood or fatherhood or birth or separat* or divorc* or widow* or graduat* or first job or new job or unemploy* or retire*)

Methodological limiters were empirical, longitudinal, and quantitative studies. The search was conducted on February 16, 2022, and yielded 1,710 potentially relevant articles. We updated the search on May 16, 2023, and also included “bereavement” as search term, which yielded 70 additional potentially relevant articles. We used three additional strategies to identify relevant studies: First, we sent a call for unpublished data via relevant mailing lists in the field (e.g., Association for Research in Personality, German Psychological Society, European Association of Personality Psychology, and Society for Personality and Social Psychology); the call was sent in December 2022. Second, we examined the references cited in reviews on the effects of life events on personality change (e.g., Bleidorn et al., 2018; Bühler et al., 2022; Lucas, 2007; Luhmann et al., 2012; Reitz, 2022; Specht, 2017). Third, we included relevant articles that we were aware of but that were not identified by these strategies. These strategies resulted in 56 additional articles, yielding an overall number of 1,836 potentially relevant articles. A file that shows all articles assessed for eligibility is available on OSF (https://osf.io/dnjs2/?view_only=None).

Screening, Eligibility, and Inclusion of Studies

To decide on the eligibility of studies, the fourth or fifth author assessed all study abstracts. ³ The coders were trained by the first author and followed the guidelines reported in the coding manual (see https://osf.io/dnjs2/?view_only=None) and described below. The search and selection procedure is summarized in Figure 1 (Moher et al., 2009).OPEN IN VIEWER

Coding of Studies

The raters coded the samples according to the coding manual (see https://osf.io/dnjs2/?view_only=None). The following data were coded: year of publication, publication type, sample size, sample type, country, ethnicity, mean age, proportion of female participants, year of Time 1 assessment, type of intervention (if any), life event, measure of personality characteristic, mean and standard deviation of personality characteristic at Time 1 and subsequent assessment(s), time lag between Time 1 and event, time lag between Time 1 and subsequent assessments, and the test-retest correlation of the personality characteristic between Time 1 and subsequent assessments. If the study also included a comparison group, the following additional information was coded for the comparison group: type of matching between groups (if any), sample size, mean and standard deviation of the personality characteristic at Time 1 and subsequent assessment(s), and the test-retest correlation of the personality characteristic between Time 1 and subsequent assessments. If information on year of Time 1 assessment was not reported, we estimated these data as follows: Year of Time 1 assessment = publication year—3 years—time lag between the first and last measurement occasion of the study (based on the assumption that studies are, on average, published 3 years after data collection has been completed; for a similar procedure, see Orth et al., 2018).

To obtain estimates of interrater agreement in this second step of coding, about two-thirds of all included samples (k = 46) were rated by both coders for sample and effect size information. The interrater agreement was high, with an average κ of .95 for categorical variables and an average r of .99. for continuous variables. ⁴ All diverging assessments were discussed until consensus was reached.

Effect Size Measure

We computed two types of effect size measures. First, given that all samples included an event group, we computed the standardized mean change between the pre-event (i.e., Time 1) and post-event (e.g., Time 2, Time 3) assessment of the personality characteristic in the event group (denoted as d_E). Thus, this effect size measure is based on a pretest–posttest event group design. Following Becker (1988) and Morris (2008), the standardized mean change for the event group is given by

d E = c E M p o s t , E − M p r e , E S D p r e , E

c E = 1 − 3 4 ( n p r e , E − 1 ) − 1

Second, some samples included a comparison group of participants who did not experience the life event. For these samples, we computed an additional effect size measure, which compared the standardized mean change between the event and comparison group. To that aim, we first computed the standardized mean change of the personality characteristic in the comparison group (denoted as d_C). Following Becker (1988) and Morris (2008), the standardized mean change in the comparison group is computed in the same way as in the event group, specifically by

d C = c C M p o s t , C − M p r e , C S D p r e , C

c C = 1 − 3 4 ( n p r e , C − 1 ) − 1

d E C = d E − d C

Thus, the effect size measure d_EC is based on a pretest–posttest event-comparison group design and was available for the subset of studies that include a comparison group. ⁵ The effect size d_EC was computed for all post-event assessments (i.e., Time 2, Time 3, etc.), for which data on the event and comparison group were available.

Meta-Analytic Procedure

Data were analyzed using R (R Development Core Team., 2022) and the meta-analytic computations were conducted with the metafor package (Viechtbauer, 2010).

Effect Size Analyses

As noted above, many samples provided more than one effect size measure. Specifically, effect size measures based on different post-event assessments were nested in samples. Therefore, we accounted for the multilevel structure in the meta-analytic computations, by using the “rma.mv” function in the metafor package (Viechtbauer, 2010). Following Lipsey and Wilson (2001), we used multilevel random-effects models to estimate weighted mean effect sizes and multilevel mixed-effects models to test for moderators.

In the effect size analyses, we computed weighted mean effect sizes. First, we focused on all possible combinations of specific life events (e.g., entering a new relationship, beginning a new job) and personality constructs. This approach allowed us to obtain construct-specific estimates for specific types of life events. Then, in each of the domains (i.e., love and work), we aggregated the life events into the categories of gain-based and loss-based life events, consistent with prior research (Denissen et al., 2019). In each category, we then computed weighted mean effect sizes, which resulted in construct-specific estimates for gain-based and loss-based life events. ⁶

Following Becker (1988), the sampling variance in the event group was computed by

v a r ( d E ) = 2 ( 1 − r E , p r e / p o s t ) n p r e , E + d E 2 2 n p r e , E

where r_E,pre/post is the test-retest correlation of the personality characteristic between the pre-event assessment (i.e., Time 1) and the post-event assessment (e.g., Time 2, Time 3) in the event group, n_pre,E is the sample size of the event group at Time 1, and d_E is the bias-corrected standardized mean change of the personality characteristic in the event group.

Correspondingly, the sampling variance in the comparison group was computed by

v a r ( d C ) = 2 ( 1 − r C , p r e / p o s t ) n p r e , C + d C 2 2 n p r e , C

where r_C,pre/post is the test-retest correlation of the personality characteristic between the pre-event assessment (i.e., Time 1) and the post-event assessment (e.g., Time 2, Time 3, etc.) in the comparison group, n_pre,C is the sample size of the comparison group at Time 1, and d_C is the bias-corrected standardized mean change of the personality characteristic in the comparison group.

As preregistered, if a study did not report the requested test-retest correlation or did not report this coefficient separately for both groups, we used an estimate of the correlation coefficient. Specifically, we used the average correlation in the meta-analytic data set (for a similar approach, see Bühler et al., 2021), which was r = .64. In total, 40 samples reported the correlation coefficient, while it was estimated in 49 samples.

As described above, we used two types of effect size measures for the analyses. For all samples, we used the d_E effect size measure (i.e., standardized mean change between the pre- and post-event assessment in the event group). In the subset of samples that also included a comparison group, we additionally used the d_EC effect size measure (i.e., difference between the standardized mean change for the event and comparison groups) and compared it with the d_E effect size measure. In the effect size analyses with d_E, we used the sampling variance computed for the event group, and in the effect size analyses with d_EC, we used the sum of both sampling variances (Morris, 2008). ⁷

Description of Studies

The meta-analytic data set included 44 studies, which provided information on 89 samples and 519 effect sizes. The publication years ranged from 1995 to 2022 (Mdn = 2015). The average lag between pre- and post-event assessments was M = 2.45 years (SD = 2.44, range = 0.08–15.00). Table 2 provides an overview of the samples, including their descriptive information; all effect sizes are reported on OSF (https://osf.io/dnjs2/?view_only=None).

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Table 2.

Descriptive Information on the Samples Included in the Meta-Analysis.

Sample	Personality Construct(s)	Life event	Event Sample						Comparison Sample
			Sample Size	Mean age T1	Female (in %)	Sample Type	Country	Ethnicity	Sample Size	Matching
Bleidorn (2012)	Big Five traits	Graduation	137	20.00	73	Community	DEU	White	—	—
Bleidorn and Schwaba (2018)	Self-esteem	Retirement	690	64.41	—	National	NLD	White	515	Strong
Bleidorn et al. (2016), female	Self-esteem	Birth of a child	132	49.92	100	Community	NLD	White	51	No
Bleidorn et al. (2016), male	Self-esteem	Birth of a child	132	52.07	0	Community	NLD	White	51	No
Brazil and Andersson (2020)	Self-esteem	Graduation	1453	15.40	55	National	USA	White	—	—
Bühler et al. (2022)	Big Five traits	New relationship	1233	32.13	—	National	DEU	White	11,359	No
Bühler et al. (2022)	Big Five traits	New relationship	361	34.13	—	National	AUS	White	1,999	No
Bühler et al. (2022)	Big Five traits	Marriage	1839	35.10	—	National	AUS	White	7,870	No
Bühler et al. (2022)	Big Five traits	Separation	2056	36.57	—	National	AUS	White	7,656	No
Bühler et al. (2022)	Big Five traits	Divorce	504	43.91	—	National	AUS	White	9,039	No
Bühler et al. (2022)	Big Five traits	Widowhood	363	70.85	—	National	AUS	White	9,184	No
Bühler et al. (2022)	Big Five traits	Marriage	512	36.78	—	National	GBR	White	2,567	No
Bühler et al. (2022)	Big Five traits	Separation	158	42.13	—	National	GBR	White	2,587	No
Bühler et al. (2022)	Big Five traits	Divorce	229	46.83	—	National	GBR	White	2,508	No
Bühler et al. (2022)	Big Five traits	Widowhood	156	69.66	—	National	GBR	White	2,579	No
Chen et al. (2020)	Life satisfaction	Widowhood	198	64.89	70	National	CHN	Asian	—	—
Chopik (2018), Sample 1	Big Five traits	Widowhood	570	71.65	59	National	USA	White	9,374	No
Chopik (2018), Sample 2	Big Five traits	Widowhood	255	70.18	85	Community	USA	White	280	No
Denissen et al. (2019)	Emo. stability	Widowhood	97	44.50	60	National	NLD	White	—	—
Dingemans and Henkens (2014), retirees before Wave 2	Life satisfaction	Retirement	972	60.96	23	National	NLD	White	—	—
Dingemans and Henkens (2014) retirees before Wave 3	Life satisfaction	Retirement	276	63.64	29	National	NLD	White	—	—
Galdiolo and Roskam (2019), female	Big Five traits	Birth of a child	204	28.32	100	Community	FRA	White	63	No
Galdiolo and Roskam (2019), male	Big Five traits	Birth of a child	204	30.79	0	Community	FRA	White	63	No
Gnambs and Stiglbauer (2019)	Big Five traits	Unemployment	74	46.65	43	National	DEU	White	4,774	No
Hansson et al. (2020)	Big Five traits, self-esteem, life satisfaction	Retirement	475	63.00	53	National	SWE	White	—	—
Henning et al. (2022), retirees 1996–2002	Life satisfaction	Retirement	196	58.48	47	National	DEU	White	—	—
Henning et al. (2022), retirees 2002–2208	Life satisfaction	Retirement	111	59.35	45	National	DEU	White	—	—
Henning et al. (2022), retirees 2008–2014	Life satisfaction	Retirement	257	60.13	54	National	DEU	White	—	—
Keizer et al. (2010), female	Life satisfaction	Birth of a child	130	35.00	100	National	NLD	White	208	No
Keizer et al. (2010), male	Life satisfaction	Birth of a child	98	35.00	0	National	NLD	White	164	No
Krämer et al. (2020), female	Life satisfaction	Birth of a child	439	30.00	100	National	DEU	White	317	Strong
Krämer et al. (2020), male	Life satisfaction	Birth of a child	374	30.00	0	National	DEU	White	354	Strong
Leikas and Salmela-Aro (2015)	Big Five traits	New relationship	54	20.00	47	Community	FIN	White	—	—
Leikas and Salmela-Aro (2015)	Big Five traits	New job	128	20.00	47	Community	FIN	White	—	—
Lindfors et al. (2014)	Life satisfaction	Graduation	1491	29.41	89	College	SWE	White	—	—
Luciano and Orth (2017)	Self-esteem	New relationship	685	26.40	52	National	DEU	White	1,323	Strong
Luciano and Orth (2017)	Self-esteem	Marriage	127	26.40	52	National	DEU	White	251	Strong
Luciano and Orth (2017)	Self-esteem	Separation	462	26.40	52	National	DEU	White	786	Strong
Ludtke et al. (2009)	Big Five traits	Graduation	2141	19.51	63	Community	DEU	White	—	—
Malinauskas and Dumciene (2017)	Self-esteem	Graduation	197	18.54	58	College	LTU	White	—	—
Nakagawa and Hülür (2021)	Life satisfaction	Widowhood	142	74.83	74	National	JPN	Asian	—	—
NEXT Study (2019)	Big Five traits, life satisfaction	New relationship	20	21.61	73	Community	DEU	White	—	—
NEXT Study (2019)	Big Five traits, life satisfaction	Separation	8	21.61	73	Community	DEU	White	—	—
NEXT Study (2019)	Big Five traits, life satisfaction	Graduation	86	21.61	73	Community	DEU	White	—	—
NEXT Study (2019)	Big Five traits, life satisfaction	New job	28	21.61	73	Community	DEU	White	—	—
NEXT Study (2019)	Big Five traits, life satisfaction	Unemployment	4	21.61	73	Community	DEU	White	—	—
Orth and Luciano (2015), Study 1	Self-esteem	Separation	28	21.20	—	Community	CHE	White	—	—
Orth and Luciano (2015), Study 2	Self-esteem	Separation	32	29.00	—	Community	CHE	White	—	—
PEC Study (2021)	Big Five traits, life satisfaction	New relationship	23	29.10	74	Community	DEU	White	—	—
PEC Study (2021)	Big Five traits, life satisfaction	Separation	24	29.10	74	Community	DEU	White	—	—
PEC Study (2021)	Big Five traits, life satisfaction	Graduation	18	29.10	74	Community	DEU	White	—	—
PEC Study (2021)	Big Five traits, life satisfaction	Unemployment	42	29.10	74	Community	DEU	White	—	—
Reitz et al. (2020)	Self-esteem	New job	78	27.08	69	National	DEU	White	—	—
Reitzes et al. (1996)	Self-esteem	Retirement	295	61.00	52	Community	USA	White	432	No
Salmela-Aro and Tynkkynen (2010), female	Life satisfaction	Graduation	317	15.00	100	Community	FIN	White	—	—
Salmela-Aro and Tynkkynen (2010), male	Life satisfaction	Graduation	325	15.00	0	Community	FIN	White	—	—
Schwaba and Bleidorn (2019)	Big Five traits	Retirement	134	63.60	—	National	NLD	White	306	Strong
SOS Study (2021)	Life satisfaction	New relationship	16	34.18	71	Community	DEU	White	—	—
SOS Study (2021)	Life satisfaction	Separation	16	34.18	71	Community	DEU	White	—	—
SOS Study (2021)	Life satisfaction	Graduation	16	34.18	71	Community	DEU	White	—	—
SOS Study (2021)	Life satisfaction	Unemployment	25	34.18	71	Community	DEU	White	—	—
Specht et al. (2011a)	Big Five traits	Marriage	664	47.21	52	National	DEU	White	—	—
Specht et al. (2011a)	Big Five traits	Birth of a child	993	47.21	52	National	DEU	White	—	—
Specht et al. (2011a)	Big Five traits	Separation	690	47.21	52	National	DEU	White	—	—
Specht et al. (2011a)	Big Five traits	Divorce	229	47.21	52	National	DEU	White	—	—
Specht et al. (2011a)	Big Five traits	Widowhood	228	47.21	52	National	DEU	White	—	—
Specht et al. (2011a)	Big Five traits	New job	456	47.21	52	National	DEU	White	—	—
Specht et al. (2011a)	Big Five traits	Unemployment	860	47.21	52	National	DEU	White	—	—
Specht et al. (2011a)	Big Five traits	Retirement	693	47.21	52	National	DEU	White	—	—
Specht et al. (2011a)	Life satisfaction	Widowhood	387	64.95	69	National	DEU	White	—	—
Stringer et al. (2012)	Emo. stability	Graduation	454	17.20	60	Community	USA	Other	—	—
Uglanova and Staudinger (2013)	Life satisfaction	Marriage	475	48.70	53	National	DEU	White	—	—
Uglanova and Staudinger (2013)	Life satisfaction	Birth of a child	283	48.70	53	National	DEU	White	—	—
Uglanova and Staudinger (2013)	Life satisfaction	Unemployment	46	48.70	53	National	DEU	White	—	—
van der Velde et al. (1995)	Emo. stability, extraversion, self-esteem, life satisfaction	New job	168	19.80	60	College	NLD	White	146	No
van Scheppingen et al. (2016), female	Big Five traits	Birth of a child	276	27.28	50	National	AUS	White	789	No
van Scheppingen et al. (2016), male	Big Five traits	Birth of a child	280	27.28	50	National	AUS	White	908	No
van Scheppingen et al. (2018), first child	Self-esteem	Birth of a child	45,488	28.04	100	National	NOR	White	—	—
van Scheppingen et al. (2018) second child	Self-esteem	Birth of a child	25,524	30.47	100	National	NOR	White	—	—
van Scheppingen et al. (2018), third child	Self-esteem	Birth of a child	11,211	34.72	100	National	NOR	White	—	—
van Scheppingen et al. (2018), fourth child	Self-esteem	Birth of a child	2488	32.72	100	National	NOR	White	—	—
van Scheppingen and Leopold (2020)	Life satisfaction	Divorce	787	36.00	60	National	DEU	White	1,629	Strong
Wagner et al. (2013)	Self-esteem	Graduation	4532	19.60	55	Community	DEU	White
Wagner et al. (2015)	Big Five traits, self-esteem, life satisfaction	New relationship	105	21.40	48	Community	DEU	White	136	Strong
Wille et al. (2012)	Big Five traits	Graduation	260	22.80	47	College	BEL	White	—	—
Williams et al. (2015)	Life satisfaction	Graduation	466	17.00	55	Community	AUS	White	—	—
Yeung (2018)	Life satisfaction	Retirement	197	58.78	37	Community	CHN	Asian	—	—
Zhan et al. (2023)	Life satisfaction	Retirement	667	52.12	51	National	CHN	Asian	—	—

In sum, 121,187 participants were included in the samples, and sample sizes ranged from 4 to 45,488 (M = 1,362, SD = 5,577, Mdn = 255). Of the samples, 60% were nationally representative, 36% were community samples, and 4% were samples of college students. Almost all samples came from Western countries (96%), including Germany (46%), the Netherlands (12%), Australia (9%), USA (6%), Finland (5%), Norway (5%), United Kingdom (5%), France (2%), Sweden (2%), Switzerland (2%), Belgium (1%), and Lithuania (1%). Only 4% were from Asian countries (i.e., China, Japan), and none from South American and African countries. Of the samples, 94% were predominantly White/European (with “predominantly” defined as at least 70% of the sample), 5% predominantly Asian, and 1% belonged to another ethnicity or were ethnically diverse. No samples were predominantly Black or predominantly Hispanic/Latin America.

The mean proportion of female participants was 60%, ranging from 0% to 100% (SD = 25%, Mdn = 55%). Mean age of participants was 38.15 (SD = 16.13), ranging from 15.00 years to 74.83 years. Participants’ mean year of birth was 1967 (SD = 20.57), ranging from 1912 to 1996, and mean year of Time 1 assessment was 2005 (SD = 9.47), ranging from 1984 to 2021. All samples used self-report measures, and no sample was an intervention or prevention study. The effect sizes were related to six life events from the love domain—beginning of a romantic relationship (k = 74), marriage (k = 20), birth of a child (k = 65), separation (k = 69), divorce (k = 23), widowhood (k = 41), and to four life events from the work domain—graduation (k = 80), first job (k = 39), unemployment (k = 61), and retirement (k = 47). The effect sizes were based on the following personality constructs: emotional stability (k = 81), agreeableness (k = 74), extraversion (k = 75), conscientiousness (k = 74), openness (k = 74), self-esteem (k = 52), and life satisfaction (k = 89).

While 67% of the studies did not include a comparison group, 33% did. Of the latter, 79% did not use matching and 21% used strong matching (e.g., propensity score matching); none of the studies used a weak matching procedure (e.g., matching with regard to some sample characteristics, such as age and gender). In sum, 12,758 participants were included in the comparison samples, and their sample sizes ranged from 74 to 2,056 (M = 440, SD = 488, Mdn = 276). The right part of Table 2 shows descriptive information for the samples that included a comparison group.

Standardized Mean Change in the Event Groups

Specific Types of Life Events

Table 3 reports the construct-specific estimates of standardized mean change for each type of life event in the love domain. Most of the meta-analytically aggregated effect sizes were relatively small, with absolute values ranging between d = 0.000 and d = 0.337. Entering a new relationship, marriage, and divorce were the life events, for which significant effects were observed for the largest number of personality constructs (i.e., two), whereas none of the construct-specific effects were significant for widowhood. Entering a new relationship showed the strongest effect on a personality construct, indicating an increase in life satisfaction. Specifically, the weighted mean effect size was d = 0.337, which corresponds to a small to medium effect size based on Cohen (1977, 1988). Thus, people who entered a new relationship showed meaningful albeit relatively mild increase in life satisfaction. As we will discuss later, small effects may be consequential in the long run (Funder & Ozer, 2019). Overall, conscientiousness and life satisfaction were the personality constructs that showed the largest number of significant changes in response to specific life events in the love domain, followed by extraversion and openness, while no effects were observed for emotional stability, agreeableness, and self-esteem.

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Table 3.

Standardized Mean Change in Personality Constructs in Response to Life Events in the Love Domain.

Personality Construct	k	N	Weighted Mean Effect Size (dE)	95% CI	Q	Variances
						σ12	σ22
Entering a new relationship
Emotional stability	12	1796	0.116	[−0.085, 0.316]	51.0	.039	.007
Agreeableness	12	1797	−0.084	[−0.188, 0.020]	10.4	.007	.000
Extraversion	12	1796	0.009	[−0.071, 0.088]	10.5	.004	.000
Conscientiousness	12	1796	0.154	[0.044, 0.265]	29.2	.000	.014
Openness	12	1795	−0.035	[−0.137, 0.067]	20.2	.000	.011
Self-esteem	4	790	0.156	[−0.109, 0.420]	18.2	.016	.016
Life satisfaction	10	164	0.337	[0.221, 0.452|	6.8	.002	.002
Marriage
Emotional stability	3	3015	0.023	[−0.063, 0.109]	12.6	.000	.005
Agreeableness	3	3017	−0.121	[−0.353, 0.111]	34.6	.025	.004
Extraversion	3	3017	−0.091	[−0.191, 0.009]	9.0	.002	.003
Conscientiousness	3	3014	−0.011	[−0.183, 0.161]	21.8	.014	.000
Openness	3	3010	−0.175	[−0.316, −0.033]	14.9	.010	.000
Self-esteem	3	127	−0.043	[−0.129, 0.043]	1.1	.000	.000
Life satisfaction	2	475	0.066	[0.012, 0.120]	0.5	.000	.000
Birth of a child
Emotional stability	7	1957	0.038	[−0.074, 0.151]	22.2	.008	.001
Agreeableness	7	1957	−0.090	[−0.225, 0.044]	37.2	.013	.000
Extraversion	7	1957	−0.098	[−0.156, −0.040]	11.2	.000	.002
Conscientiousness	7	1957	0.022	[−0.079, 0.124]	52.2	.000	.010
Openness	7	1957	−0.078	[−0.167, 0.012]	22.5	.005	.000
Self-esteem	20	84975	0.035	[−0.129, 0.198]	1612.3	.013	.000
Life satisfaction	10	1324	−0.067	[−0.139, 0.004]	92.3	.003	.000
Separation
Emotional stability	11	2936	0.070	[−0.041, 0.181]	53.8	.000	.012
Agreeableness	11	2941	0.041	[−0.037, 0.119]	29.1	.004	.000
Extraversion	11	2940	−0.026	[−0.064, 0.011]	16.2	.000	.000
Conscientiousness	11	2937	0.076	[−0.081, 0.233]	43.3	.021	.002
Openness	11	2933	−0.032	[−0.117, 0.054]	43.2	.006	.000
Self-esteem	5	522	−0.097	[−0.285, 0.091]	10.2	.014	.000
Life satisfaction	9	48	0.136	[0.006, 0.266]	11.3	.003	.003
Divorce
Emotional stability	3	962	0.065	[−0.130, 0.260]	24.0	.000	.027
Agreeableness	3	962	0.008	[−0.047, 0.062]	1.9	.000	.000
Extraversion	3	962	−0.024	[−0.165, 0.117]	5.3	.009	.000
Conscientiousness	3	961	0.096	[0.033, 0.158]	1.3	.000	.000
Openness	3	961	−0.062	[−0.138, 0.015]	4.0	.000	.002
Self-esteem	5	225	0.000	[−0.050, 0.050]	9.3	.000	.000
Life satisfaction	3	787	−0.052	[−0.087, −0.017]	38.6	.000	.000
Widowhood
Emotional stability	7	1669	0.034	[−0.175, 0.243]	45.5	.038	.020
Agreeableness	6	1578	0.060	[−0.026, 0.146]	16.7	.000	.007
Extraversion	6	1575	−0.074	[−0.152, 0.005]	11.8	.000	.005
Conscientiousness	6	1574	−0.079	[−0.200, 0.043]	19.4	.000	.016
Openness	6	1571	−0.111	[−0.231 0.009]	11.6	.009	.000
Self-esteem	0	0	—	—	—	—	—
Life satisfaction	10	727	0.112	[−0.053, 0.276]	142.4	.010	.010

Note. Computations were made with multilevel random-effects models. Dash indicates that meta-analytic coefficients are not available because of insufficient number of effect sizes. Values in bold are significant at p < .05. k = number of effect sizes; N = number of participants included in the effect size analyses; d_E = standardized mean change in personality construct; CI = confidence interval; Q = test statistic of the test for (residual) heterogeneity; σ12 = variance proportion attributable to the grouping variable (i.e., between samples); σ22 = variance proportion attributable to the level nested within the grouping variables (i.e., within samples). Note that in some cases a single study reported multiple effect sizes with the same participants.

Table 4 reports the construct-specific estimates of standardized mean change for each life event in the work domain. Overall, the effect sizes were relatively small, with absolute values ranging from d = 0.010 to d = 0.276. Graduation and entering the first job were the life events, for which significant effects were observed for the largest number of personality constructs (i.e., three), while unemployment showed two effects, and retirement showed no significant effect. Entering the first job showed the strongest effect, indicating an increase in conscientiousness. This effect size, however, was based on a small number of participants (N = 612). Overall, emotional stability, conscientiousness, self-esteem, and life satisfaction were the personality constructs that showed most changes in response to specific life events in the work domain (i.e., two effects), while no effects were observed for extraversion and openness.

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Table 4.

Standardized Mean Change in Personality Constructs in Response to Life Events in the Work Domain.

Personality Construct	k	N	Weighted Mean Effect Size (dE)	95% CI	Q	Variances
						σ12	σ22
Graduation
Emotional stability	16	3096	0.164	[0.019, 0.310]	106.1	.015	.015
Agreeableness	11	2642	0.070	[−0.150, 0.289]	80.1	.030	.030
Extraversion	11	2642	−0.011	[−0.079, 0.057]	18.9	.002	.002
Conscientiousness	11	2642	0.128	[−0.142, 0.398]	137.9	.046	.046
Openness	11	2642	−0.041	[−0.285, 0.202]	186.8	.037	.037
Self-esteem	3	6182	0.128	[0.040, 0.215]	26.1	.002	.002
Life satisfaction	17	2719	0.133	[0.043, 0.222]	72.0	.003	.008
First job
Emotional stability	7	780	0.089	[−0.005, 0.184]	7.3	.003	.003
Agreeableness	6	612	0.077	[−0.104, 0.257]	20.8	.011	.011
Extraversion	7	780	0.071	[−0.056, 0.197]	18.2	.007	.007
Conscientiousness	6	612	0.276	[0.092, 0.460]	12.9	.011	.011
Openness	6	612	−0.054	[−0.197, 0.088]	14.0	.006	.006
Self-esteem	2	246	0.232	[0.117, 0.347]	0.0	.000	.000
Life satisfaction	5	196	0.222	[0.045, 0.399]	7.4	—	—
Unemployment
Emotional stability	10	980	0.095	[0.046, 0.143]	4.7	.000	.000
Agreeableness	10	980	0.182	[−0.298, 0.662]	26.3	.107	.107
Extraversion	10	980	0.053	[−0.151, 0.258]	16.3	.017	.017
Conscientiousness	10	980	−0.058	[−0.097, −0.019]	5.2	.000	.000
Openness	10	980	−0.039	[−0.191, 0.113]	11.1	.007	.007
Self-esteem	0	0	—	—	—	—	—
Life satisfaction	11	117	0.010	[−0.205, 0.225]	30.0	.021	.021
Retirement
Emotional stability	5	1302	0.058	[−0.030, 0.146]	11.4	.002	.002
Agreeableness	5	1305	−0.056	[−0.166, 0.054]	15.6	.004	.004
Extraversion	5	1310	−0.056	[−0.151, 0.038]	14.5	.003	.003
Conscientiousness	5	1305	−0.047	[−0.307, 0.213]	112.0	.025	.025
Openness	5	1304	−0.076	[−0.161, 0.009]	9.6	.002	.002
Self-esteem	10	1666	0.012	[−0.070, 0.093]	44.7	.002	.002
Life satisfaction	12	3359	−0.006	[−0.132, 0.121]	123.8	.017	.003

Note. Computations were made with multilevel random-effects models. Dash indicates that meta-analytic coefficients are not available because of the insufficient number of effect sizes. Values in bold are significant at p < .05. k = number of effect sizes; N = number of participants included in the effect size analyses; d_E = standardized mean change in personality construct; CI = confidence interval; Q = test statistic of the test for (residual) heterogeneity; σ12 = variance proportion attributable to the grouping variable (i.e., between samples); σ22 = variance proportion attributable to the level nested within the grouping variables (i.e., within samples). Note that in some cases a single study reported multiple effect sizes with the same participants.

Gain-Based and Loss-Based Life Events

Table 5 (upper part) reports the construct-specific estimates of standardized mean change for gain-based life events in the love domain, while Table 5 (lower part) reports the estimates for loss-based life events in the love domain. As the table shows, gain-based life events yielded three significant effects and loss-based life events yielded two, and these significant effects were uniformly small. Table 6 (upper part) reports the construct-specific estimates of standardized mean change for gain-based life events in the work domain, while Table 6 (lower part) reports the estimates for loss-based life events in the work domain. In contrast to the love domain, here there was somewhat more evidence that effects are larger and more frequent for gain-based life events than for loss-based life events: Gain-based life events yielded four significant effects on personality constructs, while loss-based life events had one significant effect.

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Table 5.

Standardized Mean Change in Personality Constructs in Response to Gain-Based and Loss-Based Life Events in the Love Domain.

Personality Construct	k	N	Weighted Mean Effect Size (dE)	95% CI	Q	Variances
						σ12	σ22
Gain-based life events
Emotional stability	22	6768	0.082	[−0.025, 0.190]	87.3	.016	.006
Agreeableness	22	6771	−0.092	[−0.172, −0.013]	86.9	.009	.000
Extraversion	22	6,770	−0.059	[−0.109, −0.010]	43.2	.001	.003
Conscientiousness	22	6,767	0.082	[−0.007, 0.170]	121.8	.009	.006
Openness	22	6,762	−0.066	[−0.141, 0.008]	81.7	.006	.003
Self-esteem	27	85,892	0.081	[−0.051, 0.213]	1655.1	.016	.000
Life satisfaction	22	1,963	0.154	[−0.013, 0.320]	186.6	.044	.000
Loss-based life events
Emotional stability	21	5,567	0.074	[−0.054, 0.202]	175.2	.015	.013
Agreeableness	20	5,481	0.038	[−0.016, 0.092]	50.2	.001	.002
Extraversion	20	5,477	−0.042	[−0.101, 0.017]	43.2	.002	.002
Conscientiousness	20	5,471	0.019	[−0.108, 0.147]	108.8	.014	.010
Openness	20	5,465	−0.063	[−0.138, 0.011]	83.5	.005	.001
Self-esteem	10	747	−0.020	[−0.053, 0.013]	20.5	.000	.000
Life satisfaction	22	1,562	0.089	[−0.013, 0.190]	244.2	.008	.008

Note. Computations were made with multilevel random-effects models. Gain-based life events included beginning of a new relationship, marriage, and birth of a child. Loss-based life events included separation, divorce, and widowhood. Values in bold are significant at p < .05. k = number of effect sizes; N = number of participants included in the effect size analyses; d_E = standardized mean change in personality construct; CI = confidence interval; Q = test statistic of the test for (residual) heterogeneity; σ12 = variance proportion attributable to the grouping variable (i.e., between samples); σ22 = variance proportion attributable to the level nested within the grouping variables (i.e., within samples). Note that in some cases a single study reported multiple effect sizes with the same participants.

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Table 6.

Standardized Mean Change in Personality Constructs in Response to Gain-Based and Loss-Based Life Events in the Work Domain.

Personality Construct	k	N	Weighted Mean Effect Size (dE)	95% CI	Q	Variances
						σ12	σ22
Gain-based life events
Emotional stability	23	3,876	0.134	[0.027, 0.241]	121.5	.024	.000
Agreeableness	17	3,254	0.063	[−0.099, 0.225]	130.8	.045	.000
Extraversion	18	3,422	0.020	[−0.045, 0.068]	37.2	.000	.007
Conscientiousness	17	3,254	0.200	[0.006, 0.395]	187.2	.041	.027
Openness	17	3,254	−0.050	[−0.225, 0.126]	260.0	.054	.000
Self-esteem	5	6,428	0.152	[0.077, 0.227]	31.7	.002	.002
Life satisfaction	22	2,915	0.138	[0.053, 0.223]	80.9	.005	.006
Loss-based life events
Emotional stability	15	2,282	0.089	[0.060, 0.118]	16.2	.000	.000
Agreeableness	15	2,285	0.032	[−0.127, 0.192]	45.3	.030	.000
Extraversion	15	2,290	−0.005	[−0.114, 0.104]	31.0	.012	.001
Conscientiousness	15	2,285	−0.021	[−0.148, 0.105]	120.5	.006	.017
Openness	15	2,284	−0.047	[−0.132, 0.038]	25.0	.006	.000
Self-esteem	10	1,666	0.012	[−0.070, 0.093]	44.7	.002	.002
Life satisfaction	23	3,476	0.002	[−0.104, 0.108]	154.5	.020	.003

Note. Computations were made with multilevel random-effects models. Gain-based life events included graduation and first job. Loss-based life events included unemployment and retirement. Values in bold are significant at p < .05. k = number of effect sizes; N = number of participants included in the effect size analyses; d_E = standardized mean change in personality construct; CI = confidence interval; Q = test statistic of the test for (residual) heterogeneity; σ12 = variance proportion attributable to the grouping variable (i.e., between samples); σ22 = variance proportion attributable to the level nested within the grouping variables (i.e., within samples). Note that in some cases a single study reported multiple effect sizes with the same participants.

Difference Between Standardized Mean Change for the Event and Comparison Groups

As described in the Method section, a subset of samples included a comparison group. For these samples, we examined whether the effect sizes differed when including the information from the comparison group. Specifically, we tested whether the effect size measure d_EC (which included data from both the event and comparison group; see Method section) differed from the effect size measure d_E (as used in the analyses reported above) when tested in the set of samples that allowed to compute both effect size measures (k = 130). The mean difference between effect sizes (i.e., d_E − d_EC) was .025 [.004; .045], which was significant, t(129) = 2.36, p = .020. The correlation between the effect sizes was .544 (p < .001), which suggested strong consistency between the effect size measures. Thus, although the mean difference was significant, it was small and suggested together with the large correlation that the effect sizes did not differ systematically from each other.

However, it is still possible that d_E overestimates the effects relative to d_EC, given that changes in the comparison group were not controlled for in d_E. That is, absolute values of d_E could be systematically larger than absolute values of d_EC, both in the positive direction (i.e., among effects with positive sign) and in the negative direction (i.e., among effects with negative sign). If this was the case, then the t-test reported above would not capture the overestimation by d_E, because the overestimation of positive versus negative effects would cancel each other out. Therefore, we also tested whether absolute values of d_E and d_EC differed significantly from each other. The mean difference of absolute values was .014 [−.001; .028], which was nonsignificant, t(129) = 1.78, p = .077. As expected, absolute values were slightly larger for d_E (.101) than for d_EC (.088).

Overall, the present results suggested that the difference between the two effect size measures was small and that the effect sizes measures were consistent across samples with and without comparison groups (as indicated by the large correlation). For these reasons and given that a larger number of effect sizes was available for d_E compared to d_EC, we used the effect size measure d_E in the remainder of the analyses. Nevertheless, we report all effect size analyses with d_EC in the Supplemental Material (Tables S1−S6). Moreover, the small difference in absolute values of the effect size measures suggests that d_E might slightly overestimate the effects. We therefore call for more studies that include comparison groups and ideally use matching procedures to increase the validity of conclusions about the effects of life events.

Moderator Analyses

As noted above, the results suggested significant heterogeneity between studies. Therefore, we tested for moderators of the effect sizes, using multilevel mixed-effects models. In the moderator analyses, we focused on gain-based and loss-based life events in the love and work domains. We tested four continuous moderator variables (age, gender, mean year of birth, and time lag between assessments) and three categorical moderator variables (country, ethnicity, and sample type). ⁸

For the categorical moderator variables, we tested specific contrasts. For country, we contrasted samples from the country for which the largest number of effect sizes were available (i.e., Germany), with samples from other countries. For ethnicity, we contrasted samples that were White/European with samples that had another ethnicity. As regards sample type, we contrasted samples that came from nationally representative samples with community samples. Given the number of tests in the moderator analyses (i.e., 7), we adjusted the significance level to p < .007, following the Bonferroni method (i.e., .05 divided by the number of tests).

The findings are reported in Tables 7 and 8 for the love and work domains, respectively. The results show that time lag was a significant moderator in the love domain. Specifically, for gain-based life events, effect sizes were significantly smaller the longer the time lag between the pre- and post-event assessment was. For loss-based life events, effect sizes were significantly larger, the longer the time lag between assessments was. No other moderator was significant in the love domain, and none of the moderators were significant in the work domain. Therefore, a central conclusion from the moderator analyses is that the effect sizes were relatively robust across the characteristics tested.

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Table 7.

Meta-Regression Models for Study Characteristics Predicting Standardized Mean Change in Personality Constructs in Response to Gain-Based and Loss-Based Life Events in the Love Domain.

Study characteristic	Gain-Based Life Events				Loss-Based Life Events
	k	B	SE	p	k	B	SE	p
Age	159	−0.002	0.002	.451	133	0.001	0.001	.385
Female	139	−0.001	0.022	.956	101	0.355	0.218	.103
Birth cohort	159	0.002	0.001	.192	133	−0.001	0.001	.582
Time lag	159	−0.062	0.002	<.001	133	0.045	0.006	<.001
Country	159	0.019	0.025	.444	133	0.012	0.057	.833
Ethnicity	159	—	—	—	133	−0.122	0.074	.097
Sample type	159	−0.077	0.046	.098	133	−0.007	0.054	.903

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Table 8.

Meta-Regression Models for Study Characteristics Predicting Standardized Mean Change in Personality Constructs in Response to Gain-Based and Loss-Based Life Events in the Work Domain.

Study characteristic	Gain-Based Life Events				Loss-Based Life Events
	k	B	SE	p	k	B	SE	p
Age	119	−0.005	0.003	.063	108	−0.001	0.002	.559
Female	119	0.080	0.109	.465	97	0.162	0.250	.516
Birth cohort	119	−0.000	0.002	.928	108	0.002	0.001	.163
Time lag	119	0.003	0.005	.609	108	0.011	0.006	.061
Country	119	−0.062	0.043	.155	108	−0.054	0.058	.352
Ethnicity	119	−0.015	0.094	.875	108	−0.049	0.086	.570
Sample type	119	0.018	0.064	.773	108	−0.051	0.064	.426

Note. Computations were made with multilevel mixed-effects meta-regression models. Gain-based life events included graduation and first job. Loss-based life events included unemployment and retirement. The variable female refers to the proportion of female participants in the sample. The following variables were dichotomous: country (1 = Germany, 0 = other), ethnicity (1 = White, 0 = other), and sample type (1 = community or student sample, 0 = nationally representative sample). Time lag refers to the interval between the pre-event and post-event assessment (in years). No coefficient was significant at p < .007 (significance level corrected following the Bonferroni method). k = number of effect sizes.

Testing for Outliers and Publication Bias

Finally, we tested for outliers and publication bias. The analyses indicated that three samples qualified as potential outliers. Therefore, we computed sensitivity analyses without these samples to examine whether excluding these three samples would alter the conclusions from this meta-analysis. The findings are reported in Table S7−S12, indicating that the findings from the sensitivity analyses did not differ substantially from the main analyses.

The results from publication bias tests indicated that the funnel plot had a slightly asymmetric shape (Figure 2) and that Egger’s regression test was significant, z = 2.953, p = .003. The comparison between published effect sizes (k = 215) and unpublished effect sizes (k = 304) yielded a significant difference, Q_Model = 4.229, df = 1, p = .040. Thus, the tests of publication bias suggested that the evidence could be affected by publication bias. Interestingly, the average effect sizes were 0.04 for published effect sizes and 0.05 for obtained effect sizes. These results suggest that there is not a bias toward publishing larger effects in this literature.OPEN IN VIEWER

General Patterns

The examination of a range of life events and personality variables allowed for the emergence of certain patterns that may provide important clues about underlying mechanisms of personality development. For instance, effects tended to be somewhat more consistent for life events involving work (29% of all possible effects were significant) than love (19%). These domains also seemed to have different implications for features of personality. Whereas life satisfaction showed the most consistent changes in response to life events involving love, self-esteem and conscientiousness showed emerged more often in response to life events involving work. These differences may have to do with factors such as the kinds of demands placed upon people by different kinds of events or the level of variability of responses by people to different kinds of events.

A second general pattern was that gain-based events tended to be more influential than loss-based events in the work domain, although differences were small. This finding contradicts the assumption that negative, loss-based events would show stronger effects than positive, gain-based events (Baumeister et al., 2001), and perhaps implicates models emphasizing how normativity provides cultural scripts that enable more consistent change across people (e.g., Caspi & Moffitt, 1993; Neyer et al., 2014). However, we also found that, within the love domain, gain-based events had larger short-term effects whereas losses had larger long-term effects, which in some sense is consistent with the general hypothesis that loss-based events are more influential. We note that this kind of comparison is complicated, however, by the fact that the same life event could be perceived as positive or negative depending on the person and context, highlighting the importance of better understanding individual differences in changes related to the same kind of event.

A third pattern was that self-esteem and life satisfaction (“surface characteristics”) changed, on average, more consistently as a function of life events than Big Five personality traits (“core characteristics”). Thus, although this pattern was subtle and may have depended on the specific events examined here, it suggests that core and surface characteristics changed differently in response to life events, consistent with theories of personality differences emphasizing the relative sensitivity of surface characteristics to environmental dynamics (Henry & Mõttus, 2020; Kandler et al., 2014).

A fourth pattern was that the longer the time lag between the pre- and post-event assessment, the smaller was the personality change in response to gain-based life events and the larger was the personality change in response to loss-based life events, at least for those events involving love. This suggests that gain-based life events may have more immediate and temporary impacts, whereas loss-based events may have more slowly unfolding and sustained consequences. It also raises the possibility that some studies may not be sensitive to the effects of life events on personality change depending on the frequency and durations of their assessments. In general, this finding highlights the importance of distinguishing between gain-based versus loss-based life events in the domains of work and love and demonstrates the importance of study designs in this kind of research.

Where Do We Go From Here?

This review provides a summary of the kinds of effects and general patterns that are likely to be observed when examining single life events in longitudinal data from mainly Western samples of adolescents and adults. In addition to summarizing the literature on life events and personality change, this meta-analysis also provokes questions about how resources could be most effectively allocated in the next generation of research projects on personality change. Scholars have recently began turning their attention to what form this next generation of research should take.

A general theme in recent work on this topic involves the need to know more about the context surrounding life events. It should not be surprising to personality psychologists that people do not change in the same ways (Schwaba & Bleidorn, 2018) or that people may react differently to the same life event (Haehner et al., 2023), but individual differences in change have generally not been the focus of this area of research. Thus far, few reliable contextual moderators have been identified that help explain these different reactions. In some cases, objective features of the context around the event, such as the duration of employment (Boyce et al., 2015) or relationships (Luciano & Orth, 2017) are strong candidates. The fit between the person and the changes typically prompted by the event is also likely to be relevant in some cases (Bleidorn et al., 2018), as are the specific behavioral reactions the person displays in response to the event (Hutteman et al., 2015). Further complicating this issue, the distinction between traits and outcomes is not always clear, and it is possible that our trait assessments capture environmental features or summarize dynamic processes that go beyond core dispositional variables (Borsboom, 2023; Mõttus, 2016). Emerging research also suggests that the way people perceive the event and its impacts may play an important role in associated personality change (Haehner et al., 2022, Luhmann, et al., 2020a, 2020b; Schwaba et al., under review). Another approach to contextualizing life events is to account for normative sequences. For example, parenthood often follows marriage in many cultures (Mehta et al., 2020). Considering life events together could provide a powerful way to both isolate the effects of a single life event, contrast the effects of concatenated events from each other, and test the impact of normativity in terms of sequences (e.g., marriage before parenthood; Dunlop et al., 2017).

Capturing these contextual factors typically requires different designs than have been common in this area of research. Bleidorn et al. (2020) recently suggested that the yield of studies examining the impacts of life events in panel studies originally designed to test other aims has a ceiling that could be broken with more sophisticated approaches. They proposed four particular innovations for future research on mechanisms of personality change. The first was to more carefully time assessments. Given that personality could change slowly or suddenly in response to a life event and may follow linear or nonlinear patterns of change (e.g., Lucas, 2007; Luhmann et al., 2012; Luhmann et al., 2014), studies whose measures were timed more carefully and thoughtfully are likely to be more sensitive to specific patterns of personality change (e.g., Boyce et al., 2015; Denissen et al., 2019; Luhmann et al., 2014; van Scheppingen et al., 2018). The second proposal was to use multimethod assessments. All of the studies reviewed in this meta-analysis used self-report questionnaires, and very little is known about patterns of personality change in response to life events or other environmental influences using other methods. It is furthermore possible that different methods are better at capturing different kinds of changes or environmental mechanisms (Eid & Diener, 2004). The third was to collect data from more diverse populations. The fact that this meta-analysis mainly included samples from WEIRD (Henrich et al., 2010) countries demonstrates how little is known about patterns and mechanisms of personality development in majority world populations. Similarly, our search for eligible articles relied exclusively on English-language publications, creating a risk for mono-language bias (Johnson, 2021). The fourth was to augment popular correlational designs with experimental studies. Experimental approaches are difficult in this field because people cannot be ethically assigned to experience life events. However, quasi-experimental (Schwaba et al., 2021), computational (Read et al., 2017), or intervention (Allemand & Flückiger, 2022) designs could be used to test specific mechanisms and provide more rigorous tests of causality.

These kinds of innovations are challenging. Studies designed to move past examinations of the impact of isolated life events on self-reported personality change in large panel studies will be more time-consuming and expensive and will likely require a range of skill sets that may go beyond that of any single researcher or team. Bleidorn et al. (2020) emphasized the importance of collaborative multi-lab efforts to meet the challenges likely to come in the next generation of personality change research. An initial stage of such a collaboration would be a field-wide discussion about how to build on the kinds of results reported in this study, to generate effective, efficient, and productive ideas about where we should go from here.