Online Distance Education and Transition to Parenthood Among Female University Students in Sweden


Vol.:(0123456789)

European Journal of Population (2019) 35:795–823
https://doi.org/10.1007/s10680-018-9503-3

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Online Distance Education and Transition to Parenthood 
Among Female University Students in Sweden

Linus Andersson1 

Received: 20 November 2017 / Accepted: 23 October 2018 / Published online: 28 November 2018 
© The Author(s) 2018

Abstract
The expansion of tertiary education is key to understanding postponement of first 
births. Currently, online distance education is changing the nature of university 
enrolment. In this study, I suggest that online distance education impacts on fertility 
by facilitating the transition to parenthood among students. I examine the relation-
ship between online distance education and first births during university enrolment. 
Using survival analysis of register data for the 1968–1991 female cohorts, I exam-
ine the impact of distance and campus education on first-parity transitions during 
university enrolment between 2004 and 2012 (N = 938,768). Results indicate that 
the negative association between enrolment and first parity conception differs sub-
stantially between campus and distance enrolment. Compared to non-enrolment, the 
hazard of first parity conception is 70% lower during campus enrolment but 43% 
lower during distance enrolment. These findings are discussed in relation to edu-
cational heterogeneity and fertility postponement and the impact of technological 
innovation on family dynamics.

Keywords Technology · Fertility · Sweden · Education · Student fertility · Fertility 
postponement

1 Introduction

University students have low rates of first birth, despite favourable age and sex 
ratios on campus (Begall and Mills 2012; Blossfeld and Huinink 1991; Hoem, 
1986; Lappegård and Rønsen 2005; Baizán and Martin-Garcia 2006; Tesching 
2012; Thalberg 2013). Increased enrolment in higher education is a key com-
ponent in the postponement of parenthood (Balbo et  al. 2013; Blossfeld and 
Huinink 1991; Skirbekk 2008). Today, student populations are still growing or 
have stabilized at high levels. Moreover, tertiary enrolment itself is increasingly 

 * Linus Andersson 
 linus.andersson@sofi.su.se

1 Swedish Institute for Social Research, Universitetsvägen 10 F, Stockholm, Sweden

http://orcid.org/0000-0002-0347-3802
http://crossmark.crossref.org/dialog/?doi=10.1007/s10680-018-9503-3&domain=pdf


796 L. Andersson 

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being postponed to older ages (OECD 2009), which is likely to further increase 
postponement. Importantly, the completion of education is central to age at first 
birth (Ní Bhrolcháin and Beaujouan 2012; Neels et al. 2017). Consequently, fac-
tors that affect the timing of fertility after the completion of tertiary education 
can necessarily only explain a limited amount of the variation in age at first birth. 
It is therefore essential to understand which factors influence the transition to par-
enthood during tertiary enrolment.

One such factor may be online distance education (ODE). Parallel to the trend 
towards expansion in higher education, the last decade has seen an even more 
rapid growth in ODE (Allen and Seaman 2010). Universities are increasingly 
offering distance courses and full programmes at distance, and some are exclu-
sively using ODE platforms (Cowen and Tabarrok 2014). In Sweden, up to 20% 
of enrolled students in 2009 obtained credits from courses conducted at a dis-
tance (Amneus et al. 2011). ODE platforms offer flexibility in combining studies, 
work and activities in the home (Edmonds 2010; Mårald and Westerberg 2006). 
The next section will therefore argue that ODE may facilitate childbearing and 
childrearing among students.

The central role of higher education for postponed fertility is well documented 
(Blossfeld and Huinink 1991). An expanding literature has also documented that 
the transition to parenthood differs substantively between study disciplines (Hoem 
et al. 2006), study intensity (Spéder and Bartus 2017) and occupations (Begall and 
Mills 2012). The teaching platform (ODE vs. brick-and-mortar enrolment) repre-
sents an unexplored part of this puzzle. Fertility researchers have emphasized that 
changes in the flexibility and organization of educational institutions are central 
to understanding and formulating policy regarding the timing of first births (Lutz 
and Skirbekk 2005). Policy advocates have also argued that distance tertiary educa-
tion is necessary to meet the needs of students with increasingly heterogeneous life 
courses (Peters 2009). To date, however, there is no empirical research on the asso-
ciation between ODE and the transition to parenthood. Furthermore, the association 
between ODE and student fertility constitutes a concrete example of how technology 
may impact on fertility (e.g. Bellou 2015; Chesley and Johnson 2014).

Students may select into ODE on the basis of childbearing intentions, and ODE 
may stimulate fertility among students. Hence, new technologies may be producing 
a horizontal differentiation of higher education based on student childbearing behav-
iour. The present study focuses on establishing an associative relationship by asking: 
Are university students more likely to become parents during online enrolment than 
campus enrolment?

I use individual level longitudinal data obtained from national registers, which 
include the entire female population of Sweden in the cohorts born between 1968 
and 1991. Uniquely, Swedish educational registers also include data on the teaching 
platform (campus or distance) for each academic course. For each academic term 
between 2004 and 2012, I distinguish between states of enrolment pursued with or 
without the inclusion of a substantial amount of distance studies. Controlling for 
study types (full- or part-time studies, degree completion and continuity) and soci-
odemographic characteristics, I model the risk of first parity conception during these 
forms of enrolment, compared to non-enrolment, using event-history models.



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2  Theoretical Framework and Previous Research

Below, I briefly discuss the theoretical explanations and known correlates of student 
parenthood and the role of educational enrolment for the transition to parenthood. I 
also present an argument about the role of ODE for student parenthood and outline a 
general hypothesis.

2.1  University Enrolment and Fertility

Educational enrolment and level of educational attainment are critical aspects 
in most theories on the timing of first birth. According to new home economics 
(Becker 1981), the decision to start a family takes the form of a cost–benefit calcula-
tion, with the costs consisting in time spent on parenting instead of labour or human 
capital accumulation. Foregoing the latter is more costly for those with a high or 
prospectively high earning capacity, which produces a lower likelihood of first birth 
among the highly educated and those enrolled in higher education (Gustafsson 
2005). Empirical support for this theory is found in the positive relationship between 
childlessness and the level of education across many countries and institutional con-
texts (Wood et  al. 2014). However, the most prevalent pattern is that rather than 
rejecting parenthood altogether, individuals with a tertiary education enter parent-
hood after tertiary graduation, at a later age than those with lower levels of educa-
tion, but quite rapidly following the completion of their university studies (Blossfeld 
and Huinink 1991). Therefore, low fertility among students is commonly construed 
as reflecting a deliberate postponement behaviour. One important implication of this 
conclusion is that in addition to the post-enrolment fertility delay found among uni-
versity graduates (Gustafsson 2005), enrolment itself acts as a central proximate fac-
tor behind increased age at first birth (Ní Bhrolcháin and Beaujouan 2012; Blossfeld 
and Huinink 1991; Hoem 1986).

For students then, the postponement of parenthood is in part a strategic choice 
to increase the payoff provided by higher education, e.g. in the form of labour mar-
ket positioning (Sweeney and Cancian 2004) and finding a highly educated part-
ner (Oppenheimer 1994). At the same time, however, there are more rudimentary 
explanations for fertility postponement among students. Studying requires time 
and effort (Blossfeld and Huinink 1991). The need to commute or travel locally to 
attend courses compromises social interactions in the non-university social sphere 
and complicates childrearing. Labour market attachment, which is often a require-
ment for becoming a parent, may be hard to achieve in combination with rigid study 
schedules (Spéder and Bartus 2017). Further, exposure to and expectations of cam-
pus culture, including scheduled activities and extracurricular activities, may distract 
from or be difficult to reconcile with family formation. Physical social interactions 
with students, who are less likely to have near-future childbearing in mind, may also 
offset social learning mechanisms (Bernardi 2003) that promote childbearing plans. 
Age and sequencing norms further steer the transition to parenthood towards the 
period subsequent to the conclusion of higher education (Blossfeld and Huinink 
1991; Liefbroer and Billari 2010).



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Previous research on determinants of student fertility has focused on economic 
activity and part-time work among students. Spéder and Bartus (2017) have noted 
that working during one’s studies is a predictor of student first birth transitions and 
they suggest that such “double-status positions” enhance student fertility by miti-
gating role conflict. In Sweden, Thalberg (2013) has presented similar results and 
suggests that since earnings are related to eligibility for parental leave insurance, 
working students will have higher fertility rates. Having contact with the labour 
market as a student might also provide the means to satisfy the “affordability clause” 
(Rindfuss and VandenHeuvel 1990) for childbearing, overcoming a critical amount 
of uncertainty and risk. Part-time students have been found to be more likely than 
full-time students to marry (Thornton et al. 1995), and this finding could extend to 
parenthood. A number of studies have also found correlations between student fertil-
ity and educational domains leading to occupations that might be easier to combine 
with childbearing, such as teaching (Hoem et al. 2006; Lappegård and Rønsen 2005; 
Baizán and Martin-Garcia 2006; van Bavel 2010). In contrast, parent students in 
regular brick-and-mortar education report a lack of institutional support (Brown and 
Nichols 2013), that they struggle with schedules that are difficult to reconcile with 
parental obligations (Moreau 2016) and that they have to cope with stigmatizing ste-
reotypes from the university campus environment, which portray them as both bad 
students and bad parents (Estes 2011).

To summarize, the impediments to entering parenthood as a student are not only 
linked to the issue of utility maximization based on earnings capacity, they are also 
a matter of practicalities. This is an important distinction, since it indicates that stu-
dents may be willing, but simply not able, to have children. It is possible that many 
students are focused on optimizing their human capital, whereas others may be less 
concerned about their labour market prospects (Hakim 2003) and might consider 
becoming a parent during enrolment, provided that it is possible to resolve certain 
critical practical issues. On the basis of this perspective, we might expect that vari-
ous factors linked to the study environment, including certain technological and 
institutional innovations, may predict student fertility.

2.2  Online Distance Enrolment and Fertility

ODE has been promoted for its presumed fit to the needs of non-traditional students 
(Cowen and Tabarrok 2014). It has been argued that ODE bridges both cultural and 
physical distance (Jacob et al. 2016) and offers a flexibility that enables individuals 
to combine studies with adult roles and responsibilities (McIntosh 2005). University 
students have reported flexibility to be an important reason for choosing an online 
study platform (Kowalski et al. 2014). In interviews, distance students have empha-
sized that online platforms help them to combine the parental obligations with 
higher education (Edmonds 2010). In Sweden, general skill attainment as well as 
flexibility and overcoming distance barriers have been mentioned as motivations for 
participating in online education (Mårald and Westerberg 2006). If ODE enables the 
combination of university studies with other engagements, it influences at least three 
interconnected mechanisms that impact on student fertility: the cost of childbearing, 



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parental leave eligibility and role conflict. ODE may influence the cost of having a 
child during the specific life course phase of university studies (Gustafsson 2001, 
2005). First, childbearing entails opportunity costs in terms of foregone investment 
in human capital, such as education and work experience, as well as the direct loss 
of income from paid work, and direct monetary costs of childrearing. But provided 
that childlessness is not considered an option, one may find it efficient to have one’s 
first birth as a student because the opportunity costs of lost income and labour mar-
ket experience are lower for students (as students normally do not work full-time 
to begin with). Furthermore, the presence and anticipation of a motherhood wage 
penalty might make student childbearing particularly appealing to women, since one 
factor affecting the motherhood wage penalty is the loss of work experience during 
the child’s infant years. In anticipation of employer preconceptions and discrimina-
tory practices towards employed mothers, the prospect of engaging in careers that 
are unbroken by lengthy leaves might be highly valued. However, the time costs of 
studies entailed by transportation and participation at fixed hours need to decrease 
enough for this parallel activity to be manageable. To the extent that this neces-
sary flexibility is enabled by ODE, distance enrolment may have a positive effect 
on student childbearing. Second, in welfare states that condition parental leave on 
individual income, employment can be associated with a rapid transition to child-
bearing (Matysiak and Vignoli 2008). Students who also work are not locked out 
from the parental leave system. Eligibility for parental leave receipt might matter 
for the childbearing decisions of students. Again, if ODE provides the flexibility to 
maintain a connection to the labour market during studies, this enables the transi-
tion to parenthood. Third, it has been proposed that sequencing norms, and norms 
about the conditions under which a child should be raised, prevent student child-
bearing (Blossfeld and Huinink 1991). The role of student is arguably tied to the 
practices involved in participation at the many venues of the university. The role of 
mother and carer is tied to the household. Because of their ability to separate them-
selves from the campus environment, distance students may be less subjected, or 
less exposed, to negative sanctions and expectations tied to their role as students and 
mothers. If parallel employment also shifts the students towards the normative role 
of earners (cf. Spéder and Bartus 2017), and ODE accommodates such a combina-
tion, then distance enrolment is an enabling factor for student fertility. The mecha-
nisms behind direct effects of ODE on childbearing are intrinsic to indirect effects 
that predict selection into ODE based on childbearing intentions. The difference lies 
in when and how childbearing decisions are made. Childbearing plans are formed 
continuously. ODE may be used strategically to accommodate childbearing, since 
parenthood is potentially easier to combine with ODE than traditional studies. At 
the same time, a re-evaluation about childbearing plans and decisions while in dis-
tance education, regardless of the initial reason for enrolling, could tilt actions in 
favour of childbearing.

Previous research clearly shows that flexibility, mobility and being independ-
ent of the campus environment are beneficial to student parenthood and that online 
education is characterized by flexibility, mobility and independence from campus. 
Hence, ODE may positively influence the perceived and actual feasibility of mak-
ing the transition to parenthood as a student. Students who are already looking to 



800 L. Andersson 

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have a child may select into this platform, while students who choose ODE for other 
reasons may find the option of becoming parents to be consistent with this form of 
study. This leads to the study’s main hypothesis: enrolment in distance education 
will be less negatively associated with transition to parenthood than enrolment in 
campus education. Of course, the reasoning above also predicts distance enrolment 
to occur shortly after transitioning to parenthood. This follows from the assump-
tion that individuals formulate childbearing decisions in anticipation of the future. 
An awareness that studies can be pursued from home after childbirth, via distance 
studies, would promote both childbearing and subsequent enrolment in ODE. This 
is the reverse temporal sequence but is indicative of the same substantive trajectory 
of combined studies and parenthood. In the event-history framework of this study, I 
focus on analysing the impact of distance enrolment on the risk of transitioning to 
parenthood, but provide complementary analyses of parity, conception and platform 
type in “Appendix” Table 10.

3  The Swedish Context

The Swedish educational system is characterized by a low degree of tracking and 
a high degree of tertiary enrolment, free tuition at all levels and universal student 
loans and entitlements. For higher education, the level of study activity and parallel 
employment among Swedish university students lies at the average in a European 
comparison (Eurostudent 2015). It is possible that the subsidized financial situation 
of students eases the transition to parenthood. At the same time, a generous earn-
ings-related parental leave system encourages stable employment prior to childbear-
ing (see Thalberg 2013 for an extended discussion). In comparison with many other 
Western countries, the transition to parenthood during and after enrolment might be 
more compatible with Swedish conditions (Billari and Philipov 2004; Liefbroer and 
Corijn 1999).

Swedish university students either compile sets of courses freely or study within 
the framework of a more restrictive programme. As there are only a few fully online 
distance programmes and no exclusively online universities, by far the most prev-
alent use of distance education involves alternating between distance courses and 
on-campus courses as a means of compiling the requisite number of courses to com-
plete tertiary education. Sweden was relatively early in its development of ICT. In 
2004, all municipalities had at least one broadband provider (PTS 2004), and about 
80% of the population aged 18–44 had access to the Internet at home. By 2010, this 
figure had increased to over 95% (Finndal 2010). The number of students enrolled in 
distance education increased by 100% between 2002 and 2009 (Amneus et al. 2011). 
In 2011, every fourth university student had registered for at least one credit-award-
ing online distance course (Swedish register data, author’s own calculations). These 
figures are comparable to those of other developed countries such as the USA (Allen 
and Seaman 2010). Cross-sectional bivariate measures indicate that online students 
tend to have lower retention rates, are more likely to be female, and are older than 
campus students (Amneus et al. 2011).



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4  Method

4.1  Data and Sample

The paper employs administrative register data from Statistics Sweden covering the 
entire Swedish population. The data provide longitudinal monthly information on 
childbirths. The date of conception is defined by subtracting 9 months from the date 
of childbirth. Information on tertiary enrolment on individual courses is available 
per term. I include all women born between 1968 and 1991 who were registered as 
living in Sweden in 2004, giving a total of 1,458,241 individuals. Since the char-
acteristics of distance students are less well known than those of campus students, 
I did not restrict the sample to typical enrolment ages. The population examined 
includes all individuals who could have entered tertiary education during the obser-
vation period and who could be followed for at least 3 years between the ages of 18 
and 44. The results section will present year and cohort-specific regressions. The 
observation window spans the period from 2004 to 2012. The year 2004 was chosen 
as the starting date due to the availability of data and because by then the level of 
Internet access was high and the supply of distance courses was quite extensive. The 
final observation year, 2012, corresponds to the latest available data. After applying 
left censoring of conception prior to 2004, the analytical sample consists of 938,768 
individuals, of whom 345,232 experienced first parity conception during the obser-
vation period.

4.2  Educational Measures

Studies are performed in different ways and student fertility may be limited to spo-
radic, non-continuous, non-committed forms of education. Previous measures of 
online education consist mostly of dichotomous indicators, e.g. ever being in educa-
tion in a given year. This disregards the extent of students’ studies (e.g. Allen and 
Seaman 2010) and it seems plausible to distinguish between enrolment in substan-
tial amounts of ODE and spells where online studies constitute only a small propor-
tion of all studies. I differentiate between part-time and full-time studies. A term in 
which a student accumulated at least 22.5 study credits (75% of full-time activity or 
more) is considered full-time; a term producing fewer study credits is considered 
as being part-time. The academic terms are set to overlap the summer break so that 
term one runs from January to June, while the other runs from July to December. 
Completed rather than registered courses are used for all tertiary categories due to 
variation in attrition between platforms.

For each academic course, there is information on whether or not it was given 
at distance. The official criterion for reporting a course as a distance course is that 
“Teacher and students are separated in time and/or space”. This could include any 
procedure, ranging from letter correspondence to web-based courses, but distance 
must be the mode of learning. By 2004, however, it is reasonable to assume that 
all distance courses were supported by online platforms in some sense, as email 



802 L. Andersson 

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correspondence was common practice by this time. The lion’s share of distance edu-
cation is pursued in alternation with campus education. Since the most prevalent 
usage of online courses involves taking a mix of online and campus courses during 
the years of formal education (rather than exclusively online or campus trajectories), 
the distinction made in the analysis focuses on the amount of distance online plat-
form usage during a given term. A dummy for distance education takes the value 
one if at least 15 distance course credits were accumulated during the term in ques-
tion (corresponding to half a term of full-time studies). Thus, full-time terms (75% 
study activity or higher) and part-time terms1 (less than 75% study activity) are both 
considered to contain a significant use of distance education if at least 15 credits 
(50% or more of full-time study activity) relate to online courses. The selection of 
threshold levels is discussed in the results section and tested in Table  3. Informa-
tion on the study platform (online or campus) is only available for higher education. 
Secondary and non-tertiary post-secondary education is measured using registra-
tion information on a yearly basis. This operationalization results in eight discrete 
time-varying states: non-enrolment (reference category), upper secondary educa-
tion, post-upper secondary non-tertiary, full-time tertiary with less than 15 ECTS 
distance credits; full-time tertiary with 15 or more ECTS distance credits, part-time 
tertiary with less than 15 ECTS distance credits, part-time tertiary with 15 or more 
ECTS distance credits.

4.3  Other Measures

I include two variables to account for confounding effects of social origin. Parental 
SES is associated with tempo in the transition to parenthood, and the efficient use 
of new technologies may be stratified by social origin. I include a proxy for Social 
class background, based on the parent’s occupation [whichever parent has the high-
est ranking occupation (Erikson 1984)]. Decennial census data from 1960 to 1990 
include socio-economic index scales (Erikson and Goldthorpe 1992) that are coded 
into five levels closely resembling the EGP schema (labour contract, mixed contract, 
professional, proprietors and farmers and unknown). Taking online courses may 
place greater demands on language proficiency. For this reason, I include a dummy 
variable labelled Migrant background indicating whether or not an individual was 
born in Sweden.

Transition speed varies by the level of education attained and this may also be the 
case for students. Educational level might confound the results if distance users have 
obtained a degree while enrolled to a greater extent than campus students. Therefore, 
I include a yearly time-varying, non-lagged, categorical variable for completed Edu-
cational level (compulsory, secondary, post-upper secondary non-tertiary, tertiary 
graduate or at least 2  years of studies, tertiary postgraduate.) If sparsely populated 

1 In practice, this means that half-time distance studies range from 15 to 22 while half-time campus 
studies range from 1 to 22. I decided to keep the present imbalance, as the main purpose is to discrimi-
nate between part-time and full-time enrolment. Limiting part-time students to a 15–22.5 credits defini-
tion did not impact on the estimates.



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and remote areas disproportionately use online education, regional variations in fer-
tility might confound the effects of distance education on student fertility. I therefore 
include a yearly time-varying dummy indicating the characteristics of the Region of 
residence in which an individual is registered at any given time (metropolitan, urban 
and rural) from the “H-region” classification of Statistics Sweden (SCB 2015).

Partner resources predict fertility among students and could confound the rela-
tionship between platform and event. Civil status is included as a yearly time-vary-
ing categorical variable, denoting individuals as married, not married or of unknown 
status. Unfortunately, information on cohabitation is not available for the present 
sample. Distance course-takers may on average be older. As age is associated with 
likelihood of first parity conception, Age and Age squared are included. Calendar 
year is included to account for Period effects.

4.4  Analytical Strategy

The first conception event is observed from 2004 to 2012. Individuals enter at-risk 
status from the age of 18 and onwards, depending on cohort entry. Individuals are 
censored at event, death, migration, turning 45, or in April 2012. I use piece-wise 
constant baseline intensity models (Hoem 1993). The strategy used here is to utilize 
the population scale data to show main effects across detailed educational groups 
and relevant subgroups, paying special attention to practices that may differ between 
online and campus platforms (e.g. Lappegård and Rønsen 2005).

First, I describe the analytical sample. I show how different proportions of online 
education within a term are related to student fertility. Second, I examine the general 
association between transition to parenthood in full- and part-time distance stud-
ies and campus studies, relative to non-enrolment and disaggregate this model by 
age and cohort. Third, I disaggregate the model by disposable income quartiles and 
educational field. For income measures, the age-specific rank of disposable income 
was calculated based on the entire Swedish population for each calendar year. While 
working hours would be a preferable variable, this measure captures available 
resources and provides a rough indication of work activity. For educational field, I 
use Statistics Sweden’s schema that identifies the following separate fields: educa-
tion and teaching, humanities and art, social science, natural science, technology, 
agriculture, health and services. Finally, I present results from sensitivity analyses, 
i.e. a set of complementary analyses that tap into the choice of distance versus cam-
pus education (Table 8), the transition to second parity (Table 9) and the implication 
of partner resources (Table 10). These analyses are restricted to “Appendix” as they 
extend beyond the aim of the present study, but nonetheless provide the reader with 
important information about ODE and fertility.

All models, unless otherwise specified, employ non-enrolment as the reference 
category. Results are presented as hazard ratios with 95% confidence intervals. 
Unless otherwise stated, all models include controls for period, age, age squared, 
social background, region of residence, migrant status, civil status and educational 
level.



804 L. Andersson 

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5  Results

5.1  Descriptive Results

The upper section of Table 1 shows the number of individuals, conceptions and per-
son-months by different enrolment statuses. 40,495 individuals can be seen to be 
in full-time distance enrolment and 24,326 in part-time distance enrolment. 1573 
(full-time) and 1157 (part-time) conceptions have been recorded for these groups. 
Together they account for 9% of the observed tertiary enrolment person-months. 
The lower section of Table 1 shows the percentage of person-months across all vari-
ables used by campus and distance enrolment spells. Note that the data only pertain 
to the period 2004–2012 and only to women who have not reached first parity. In the 
present sample, the ages at which distance enrolment occurs (44% above age 25) are 
higher than those for campus enrolment (26% above age 25). As expected, distance 
education occurs increasingly frequently over the period examined. Distance edu-
cation is more evenly spread across birth cohorts, reflecting its usage among older 
individuals. Working class background is overrepresented in distance compared to 
campus educational spells (parent manual occupation = 24% for campus and 31% for 
distance). Distance enrolment occurs more often from small towns and rural areas 
than do campus studies (campus 11%, distance 28%). Individuals with a migrant 
background contribute somewhat fewer spells of distance than campus education. 
Four per cent of campus enrolment spells were contributed by married students, and 
the corresponding figure for distance enrolment is 8%. Distance enrolment spells are 
somewhat more common among individuals from the highest income quartile (cam-
pus 13%, distance 17%). Distance students spend somewhat more time as students 
while also having at least 2  years of previous university experience (campus 48%, 
distance 53%) or having a postgraduate degree (campus 4%, distance 8%). This may 
possibly simply indicate that skills-upgrade studies are more prominent among dis-
tance than among campus courses. Distance enrolment occurs more in the humani-
ties and social sciences than in the natural or technical sciences. Still, health and 
medicine is a common field of study among distance students. Taken together, this 
descriptive information indicates that distance studies, more often than campus stud-
ies, occur in populations with characteristics that are predictive of a rapid transition 
to parenthood. This is in line with the general idea that distance study platforms are 
perceived as being practical from a childbearing perspective and attract individu-
als with parenthood in mind. At the same time, distance education appears to be a 
widely dispersed study platform that is also found, for example, among urban (40%) 
and metropolitan (32%) populations and within normatively expected study ages 
(e.g. 22–25 = 42%).

5.2  Survival Model Results

Table  2 presents hazard ratios for all enrolment statuses (please see “Appen-
dix” Table  7 for estimates of all included variables). It is clear that, in line with 



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Table 1  Descriptive statistics

Enrolment status Subjects 1st parity Person-months Share person-months in 
Uni. enrol.

Population size and events across all enrolment statuses
Not in education 919,924 298,940 42,726,994
Upper secondary 308,586 2641 2,651,082
Further 234,213 15,572 4,34,1700
Full-time University, no distance 307,957 10,962 6,251,307 0.44
Full-time University, distance 40,495 1573 354,294 0.06
Part-time University, no distance 324,413 14,387 4,541,411 0.47
Part-time University, distance 24,326 1157 176,798 0.03
Totale 938,768 345,232 61,043,586 100

Variable distribution across campus and distance enrolment Share person months

Campus Distance

Age
18–21 0.26 0.14
22–25 0.48 0.42
26–29 0.18 0.25
30–33 0.05 0.11
34–37 0.02 0.06
38≥ 0.01 0.03
Period
2004 0.12 0.06
2005 0.12 0.09
2006 0.12 0.09
2007 0.12 0.09
2008 0.12 0.10
2009 0.12 0.14
2010 0.12 0.17
2011 0.12 0.18
2012 0.04 0.07
Cohort
1968–1972 0.06 0.12
1973–1977 0.17 0.20
1978–1982 0.24 0.21
1983–1987 0.27 0.24
1988–1990 0.26 0.23
Social background
Manual 0.24 0.31
Non-manual 0.10 0.11
Prof. 0.46 0.41
Self/farm 0.07 0.08
Unknown 0.13 0.10



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Table 1  (continued)

Variable distribution across campus and distance enrolment Share person months

Campus Distance

Region of residence
Metropolitan 0.46 0.32
Urban 0.42 0.40
Small town and rural areas 0.11 0.28
Unknown 0.00 0.00
Migration status
Born in Sweden 0.89 0.93
Born Abroad 0.11 0.07
Civil status
Not married 0.96 0.92
Married 0.04 0.08
Unknown 0.00 0.00
Income quartile
1st 0.24 0.23
2nd 0.36 0.31
3rd 0.27 0.28
4th 0.13 0.17
Unknown 0.00 0.00
Attained education
Compulsory 0.00 0.00
Upper Secondary 0.13 0.10
Post-upper secondary non-tertiary 0.35 0.29
University graduate degree or at least 2 years of studies 0.48 0.53
University postgraduate degree 0.04 0.08
Unknown 0.00 0.00
Educational field
Education and teaching 0.10 0.16
Humanities and art 0.14 0.17
Social sciences 0.33 0.32
Natural sciences 0.11 0.08
Technology 0.07 0.03
Agriculture 0.00 0.00
Health 0.20 0.17
Services 0.04 0.05
Unknown 0.01 0.00
N subjects 319,901 53,595
N person-months 10,792,718 531,092



807

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Online Distance Education and Transition to Parenthood Among…

previous research, enrolment has a negative effect on the transition to parent-
hood. Interestingly, there is a striking difference between the types of educational 
platforms in tertiary education. The risk of first birth conception during full-
time campus enrolment is 70% lower than, or about one-third of, that of some-
one who is not enrolled (1–0.30). In contrast, the corresponding risk for enrol-
ment that includes a substantial usage of online distance platforms is only 43% 
lower (1–0.57). For part-time campus enrolment, the risk is 50% lower (1–0.50) 
and for part-time distance enrolment it is 21% lower (1–0.79). For both full- and 
part-time enrolment, the negative impact is considerably smaller for periods of 
enrolment that include a high usage of online distance platforms. Part-time stud-
ies are associated with a higher risk than full-time studies, but the positive impact 
of distance enrolment on the transition to parenthood is seen in both modes of 
study activity. To put the magnitude of the effect sizes into perspective, the differ-
ences in risk between platforms found here are at least as large as the differences 
between female- and male-dominated educational fields in Norway reported by 
Lappegård and Rønsen (2005).

Figure  1a, b presents the estimates for full-time campus and distance enrolment 
for age and cohort-specific models. The model corresponds to that of Table  2. We 
see that the gap between distance and campus education decreases, but remains pre-
sent, for all but the oldest age group. The effect is most pronounced for births at 
particularly young ages, but the differences also remain clear among the prime first 
parity age groups of 28–32  years. Confidence intervals overlap for women above 
the age of 32. For the very late first births, the gap is reversed. The general decrease 
in the gap across age groups is also consistent with the idea of an overall compres-
sion of the childbearing tempo as women approach the biological boundary of child-
bearing. The analysis based on cohorts shown in Fig. 1b reaffirms the pattern. Later 

Table 2  Enrolment effects on 
first birth conception (hazard 
ratio estimates and 95% CI)

Controlled for period, age, age squared, social background, region of 
residence, migrant status, civil status and educational level
***p < 0.001; **p < 0.01; *p < 0.05

Not in education 1.00
Upper secondary 0.56***

(0.53–0.58)
Post-upp. sec. non-ter. 0.67***

(0.66–0.68)
Campus full-time 0.30***

(0.29–0.31)
Distance full-time 0.57***

(0.29–0.31)
Campus part-time 0.50***

(0.49–0.51)
Distance part-time 0.79***

(0.75–0.84)
N 938,768



808 L. Andersson 

1 3

cohorts, who also are younger during the observation period, present the most siz-
able effect.

5.3  Subgroup Analysis

Some students may consider their main activity to be work rather than studies, and 
may present corresponding childbearing behaviour. If online platforms are used 
exclusively to facilitate parallel employment, their impact on non-/sporadically 
working students should diminish when students are stratified by labour market 
attachment. Table 3 uses a proxy for such behaviour in the form of quartiles of dis-
posable income. Estimates of upper secondary and further education are excluded 
for clarity. First, we see that tertiary enrolment has a negative effect on the transi-
tion to parenthood irrespective of the level of disposable income. Second, the effects 
of distance education do not appear to be confounded by an overrepresentation of 
online platform usage in the highest income group. Rather, in all income groups, 
distance enrolment is linked to a higher risk of conception than campus enrol-
ment. Finally, while the medium–high and highest income earners have a higher 
risk of conception across all platforms, the risk associated with distance enrolment 
increases more clearly across the four income groups.

As is evident from the descriptive data in Table  1, distance enrolment is some-
what more common in the disciplines of education and teaching and health. These 
are fields that have been argued to attract family-oriented individuals since they, to 
a greater extent than other disciplines, lead to occupations with lower career pen-
alties for periods away from employment and that offer the possibility of working 
part-time or flexible hours. Since the strategies, resources and needs of university 
institutions are discipline specific, institutions differ in their provision of online 

Fig. 1  a Tertiary enrolment platform effects by age group (hazard ratio estimates and 95% CI). b Tertiary 
enrolment platform effects by cohort group (hazard ratio estimates and 95% CI). Source: Swedish Regis-
ter data. Both figures show estimates controlled for period, age, age squared, social background, region 
of residence, migrant status, civil status and educational level. ***p < 0.001; **p < 0.01; *p < 0.05



809

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Online Distance Education and Transition to Parenthood Among…

distance platforms. The link between campus and distance enrolment and fertility 
may thus be affected by the supply of courses across different disciplines. Table  4 
presents enrolment effects by different educational fields. Estimates of upper sec-
ondary and further education are excluded for reasons of parsimony. As has been 
found in previous research (Lappegård and Rønsen 2005), different fields of educa-
tion are linked to different implications for the transition to parenthood during enrol-
ment. For full-time studies, students of education and teaching and health stand out 
as having a high risk, while students of technology, natural science, social science 
and agriculture are quite unlikely to become parents during enrolment. Students of 
services, humanities and arts and unknown fields of study lie between these two 
groups. These differences across different fields could reflect human capital invest-
ment in prospective careers, such that students of technology anticipate a greater 
need to establish themselves on the labour market than aspiring teachers or nurses. 
The differences might also reflect a selection of individuals who are looking to have 
children into educational fields that lead to so-called family-friendly occupations. 
The nature of the studies in different fields may also be more or less compatible 
with the transition to parenthood. All fields carry a higher risk in part-time enrol-
ment than in full-time enrolment, and teaching students who are studying part-time 
show a particularly high risk. As regards the differences across platform, distance 
enrolment has consistently weaker effects than campus enrolment in the correspond-
ing educational fields. Overall, it appears that the effect of distance education is not 

Table 3  Tertiary enrolment effects on first birth conception by income quartiles (hazard ratio estimates 
and 95% CI)

Controlled for period, age, age squared, social background, region of residence, migrant status, civil sta-
tus and educational level. Subjects with partners of unknown income (N = X) were grouped in a separate 
category that is not presented for parsimony. ***p < 0.001; **p < 0.01; *p < 0.05

Not in education 1.00 –
Campus full-time, lowest income quartile 0.30*** (0.29–0.31)
Distance full-time, lowest income quartile 0.38*** (0.34–0.43)
Campus full-time, medium–low income quartile 0.28*** (0.27–0.29)
Distance full-time, medium–low income quartile 0.52*** (0.47–0.56)
Campus full-time, medium–high income quartile 0.29*** (0.28–0.30)
Distance full-time, medium–high income quartile 0.67*** (0.61–0.73)
Campus full-time, highest income quartile 0.43*** (0.41–0.45)
Distance full-time, highest income quartile 0.88* (0.79–0.98)
Campus part-time, lowest income quartile 0.37*** (0.36–0.38)
Distance part-time, lowest income quartile 0.47*** (0.40–0.54)
Campus part-time, medium–low income quartile 0.43*** (0.41–0.44)
Distance part-time, medium–low income quartile 0.79*** (0.70–0.89)
Campus part-time, medium–high income quartile 0.57*** (0.55–0.59)
Distance part-time, medium–high income quartile 0.86** (0.78–0.95)
Campus part-time, highest income quartile 0.75*** (0.72–0.77)
Distance part-time, highest income quartile 1.00 (0.90–1.11)
N 938,768



810 L. Andersson 

1 3

Table 4  Tertiary enrolment 
effects by educational field 
on first birth conception rates 
(hazard ratio estimates and 95% 
CI)

Controlled for period, age, age squared, social background, region 
of residence, migrant status, civil status and educational level. 
***p < 0.001; **p < 0.01; *p < 0.05

Not in education 1 –
Campus full-time, education and teaching 0.51*** (0.48–0.53)
Distance full-time, education and teaching 0.88** (0.80–0.96)
Campus full-time, humanities and art 0.29*** (0.28–0.31)
Distance full-time, humanities and art 0.39*** (0.34–0.45)
Campus full-time, social sciences 0.24*** (0.23–0.25)
Distance full-time, social sciences 0.42*** (0.38–0.47)
Campus full-time, natural sciences 0.20*** (0.18–0.22)
Distance full-time, natural sciences 0.48*** (0.40–0.58)
Campus full-time, technology 0.16*** (0.14–0.17)
Distance full-time, technology 0.24*** (0.15–0.38)
Campus full-time, agriculture 0.20*** (0.15–0.27)
Distance full-time, agriculture 0.00*** (0.00–0.00)
Campus full-time, health 0.39*** (0.38–0.40)
Distance full-time, health 0.77*** (0.69–0.85)
Campus full-time, services 0.25*** (0.23–0.28)
Distance full-time, services 0.55*** (0.45–0.68)
Campus full-time, unknown 0.21*** (0.17–0.25)
Distance full-time, unknown 0.60 (0.31–1.14)
Campus part-time, education and teaching 0.79*** (0.76–0.82)
Distance part-time, education and teaching 1.11 (0.99–1.25)
Campus part-time, humanities and art 0.43*** (0.41–0.45)
Distance part-time, humanities and art 0.59*** (0.50–0.69)
Campus part-time, social sciences 0.41*** (0.40–0.42)
Distance part-time, social sciences 0.64*** (0.57–0.72)
Campus part-time, natural sciences 0.40*** (0.37–0.42)
Distance part-time, natural sciences 0.80* (0.66–0.98)
Campus part-time, technology 0.35*** (0.32–0.38)
Distance part-time, technology 0.94 (0.67–1.30)
Campus part-time, agriculture 0.28*** (0.20–0.39)
Distance part-time, agriculture 0.34 (0.05–2.39)
Campus part-time, health 0.64*** (0.61–0.66)
Distance part-time, health 0.89 (0.78–1.01)
Campus part-time, services 0.47*** (0.43–0.52)
Distance part-time, services 0.81 (0.62–1.06)
Campus part-time, unknown 0.40*** (0.32–0.50)
Distance part-time, unknown 2.00* (1.02–3.91)
N 938,768



811

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Online Distance Education and Transition to Parenthood Among…

driven by distance course supply in specific educational fields. Among part-time dis-
tance enrolees in education and teaching, the risk of making the transition to par-
enthood is not significantly different from that of individuals who are not enrolled 
in education, but these estimates also have fairly wide confidence intervals. How-
ever, the risk of making the transition to parenthood also approaches that of the 
non-enrolled population for those in full-time distance enrolment in teaching and 
education (CI 0.80–0.96). These findings could be driven by unknown qualitative 
aspects of distance education in certain fields. It might, for example, be that distance 
skills-upgrade courses are more commonly offered within teaching and education, 
and are being taken by students who are already rooted in a profession, and who are 
at higher risk of becoming parents. However, the findings may also reflect a double 
selection effect whereby individuals who are looking to have children are selecting 
into both family-friendly fields and, as I have argued, family-friendly educational 
platforms. In this case, one interpretation would be that students of teaching are 
using distance education as one part of their strategy to achieve their fertility inten-
tions during their period of study.

5.4  Sensitivity Analyses and Alternative Specifications

As discussed in the methods section, the separation of enrolment terms into cam-
pus and distance categories is based on a specific definition. In the absence of a 
gold-standard, I have reasoned that above half a term worth of credits constitutes a 
plausible threshold for a substantial usage of online platforms. To examine the valid-
ity of this threshold, I modelled increasing categorical levels of the amount of dis-
tance study. I expect there to be a certain substantive amount of ODE usage needed 
to make a difference for demographic behaviour. A greater proportion of distance 
enrolment should have a more salient effect than smaller proportions. If there is an 
effect of some usage of online distance platforms, but this is similar across different 
amounts of distance education during a given term, then it is likely that the results 
are being driven by forces with little relevance to my argument. Model 1 in Table 5 
presents the main effects of tertiary enrolment categories on the risk of first birth 
conception, by differing amounts of distance usage. Non-enrolment is the reference 
category. Students taking for example 7.5 ETCS (one standard course) online during 
a term show no or only minor differences by comparison with students enrolled in 
campus only (0.29 vs. 0.30). Students taking 8–15 distance credits show only a mar-
ginal difference (0.35 vs. 0.30) with overlapping confidence intervals. Noticeable 
higher estimates are found for higher amounts (above 15 ETCS) of online education 
(0.52 vs. 0.30 and 0.62 vs. 0.30). This suggests an association between distance edu-
cation and student fertility, and also strengthens the argument for the use of a thresh-
old (of around at least half a term worth of credits) for substantial online usage. To 
provide an alternative perspective, Model 2 instead specifies full-time enrolment (in 
any platform) as the reference category and includes a continuous variable for online 
ETCS credits to produce a linear estimation (capped at 30 ETCS, mean = 13.1, 
SD = 8.3). This estimate suggests that the risk of becoming a parent increases by 2.6 



812 L. Andersson 

1 3

Table 5  Full-time tertiary enrolment effects on first birth conception across amount of online education 
in full-time enrolment (hazard ratio estimates and 95% CI)

Including controls for period, age, age squared, social background, region of residence, migrant status, 
civil status and educational level
***p < 0.001; **p < 0.01; *p < 0.05

Model 1 Model 2

Not in education 1.00 3.34
(3.29–3.42)

Full-time campus 0.30***
(0.29–0.31)

1.00

Full-time distance (1–7 distance ETCS) 0.29***
(0.26–0.33)

–

Full-time distance (8–14 distance ETCS) 0.35***
(0.27–0.44)

–

Full-time distance (15–22 distance ETCS) 0.52***
(0.49–0.56)

–

Full-time distance (> 22 distance ETCS) 0.62***
(0.58–0.67)

–

Distance ECTS (continuous) – 1.02***
(1.02–1.02)

N 938,768 938,768

Table 6  Enrolment effects on first birth conception and first birth (hazard ratio estimates and 95% CI). 
Alternative specifications

a Main model
b Conditional on enrolment resulting in degree
c Controlling for isolated study spells
d Date of birth instead of date of conception. Controlled for period, age, age squared, social background, 
region of residence, migrant status, civil status and educational level
e Latest year of studies treated as non-enrolment
***p < 0.001; **p < 0.01; *p < 0.05

Model  1a Model  2b Model  3c Model  4d Model  5e

Not in education Ref. Ref. Ref. Ref.

Upper secondary 0.56***
(0.53–0.58)

0.55***
(0.52–0.57)

0.54***
(0.52–0.56)

0.20***
(0.19–0.22)

0.57***
(0.55–0.60)

Post-upp. sec. non-ter. 0.67***
(0.66–0.68)

0.71***
(0.70–0.72)

0.67***
(0.65–0.67)

0.31***
(0.30–0.32)

0.68***
(0.67–0.69)

Campus full-time 0.30***
(0.29–0.31)

0.18***
(0.17–0.19)

0.25***
(0.24–0.25)

0.13***
(0.13–0.13)

0.31***
(0.31–0.32)

Distance full-time 0.57***
(0.29–0.31)

0.41***
(0.38–0.46)

0.44***
(0.42–0.46)

0.32***
(0.30–0.34)

0.58***
(0.54–0.61)

Campus part-time 0.50***
(0.49–0.51)

0.34***
(0.32–0.35)

0.36***
(0.35–0.37)

0.34***
(0.34–0.35)

0.52***
(0.51–0.53)

Distance part-time 0.79***
(0.75–0.84)

0.68***
(0.60–0.77)

0.47***
(0.45–0.50)

0.52***
(0.48–0.55)

0.86***
(0.80–0.92)

N 938,768 651,831 938,768 927,159 938,768



813

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Online Distance Education and Transition to Parenthood Among…

percentage points for each additional online credit point acquired within a term of 
full-time education, relative to a full-time exclusively on-campus term.

Several alternative sensitivity tests to the main findings presented in Table 2 are 
displayed in Table 6. For reference, the results of Table 2 are shown again in Model 
1. The interpretations following Model 1 have presumed that distance and campus 
students have somewhat similar study trajectories. Even if studies constitute the 
main activity during a given term, it might be speculated that online distance educa-
tion might be disproportionately used by students with no intention of pursuing a 
complete programme of formal higher education. Studying with a more leisurely 
orientation could in itself reduce the effect of enrolment on childbearing behaviours, 
which would make comparisons with campus studies moot. In Model 2, individuals 
who did not receive a degree are excluded from the student population. Compared 
to Model 1, the risk of first birth conception during enrolment becomes lower, but 
the gap between distance and campus enrolment persists. Another way in which dis-
tance and campus studies may be functionally different would be if ODE is overrep-
resented in the context of sporadic non-continuous studies. Anticipatory behaviour 
might also lead individuals who are opting out of the labour market in expectation 
of becoming pregnant to resort to short-term enrolment spells as a temporary activ-
ity. In Model 3, I include a dummy for single-spell terms, defined as an enrolment 
term that is not sequentially preceded by a previous enrolment term. We again see 
a reduction in the risk of first birth conception in tertiary enrolment. It is therefore 
plausible that the effects of platform type can in part be attributed to specific types 
of study strategies. However, the estimates presented in Models 2 and 3 still repro-
duce the overall patterns of the substantive differences between platforms found in 
Model 1. This result hints that differences between online and campus enrolment in 
the transition to adulthood are not a direct artefact of platform-specific educational 
trajectories.2

I have used date of conception to ameliorate state/date issues since childbirth 
might increase the likelihood of anticipatory changes in educational status (Lief-
broer and Corijn 1999). However, if most conceptions occur near the completion 
of tertiary studies, birth will occur following the termination of enrolment and does 
not, arguably, constitute student fertility. If such behaviour is overrepresented among 
the users of online platforms (i.e. if distance studies are disproportionately used dur-
ing the very final stages of university studies) using the date of conception will pro-
duce artificial differences. Model 4 presents estimates of first birth risk using date 
of birth rather than conception. Across all enrolment types, the hazard of student 
parenthood is consistently lower compared to the estimates in Model 1, indicating 
that among students, the transition to parenthood is skewed towards later periods 
of the enrolment period. However, the pattern of differences between platforms 
remains, both for full- and part-time studies. To further tap into this issue, Model 
5 uses date of conception but treats the last two terms of studies as non-enrolment. 
This specification counts only events occurring within study spells “mid-term” as 

2 These estimates must be interpreted with some caution due to the problems associated with anticipa-
tory analysis.



814 L. Andersson 

1 3

student childbearing. Again, campus distance differences are smaller compared to 
Model 1 but a substantive gradient remains. This suggests that online platforms are 
compatible with the student transition to parenthood throughout the period of ter-
tiary studies, and are not solely utilized to ease the transition towards the very end of 
the study period.

As argued in the theoretical section, I have assumed that the relationship between 
distance education and childbirth could go both ways. Thus far, the survival models 
censor on the event of childbirth, and they hold non-enrolment rather than campus 
enrolment as the comparison. I include complementary analyses of how childbear-
ing and conception predict distance enrolment, holding campus enrolment as the 
reference category. “Appendix” Table 8 predicts platform type in a cross section of 
the entire female student population in 2004 and 2011. Compared to campus stud-
ies, distance studies are slightly favoured among those who already are parents, but 
clearly favoured during first conception periods. This reflects the reasonable conclu-
sion that ODE may be preferred by parents in general, and that its effect is not only 
confined to impacting choices regarding transition to parenthood.

Finally, in “Appendix” Tables 9 and 10, I look at second-order parity. If distance 
education impacts on higher parity student childbearing, it is again support for 
the practicality of ODE. However, we see in Table  9 that platform differences are 
smaller here than in first-parity models. This may indicate that higher-order student 
parents are highly select, but runs counter to the intuitive explanation of mothers 
using ODE to combine multiple roles and activities. Estimating second parity rather 
than transition into parenthood has the advantage of identifying partners via biologi-
cal ties to firstborns. I use this information to show differences in distance enrolment 
over partner’s income quartiles. “Appendix” Table  10 shows that higher partner 
income is associated with a higher likelihood of student childbearing, and that this 
pattern is quite similar for campus and distance students.

6  Discussion and Conclusion

Educational enrolment is pivotal to understanding fertility postponement. Further, 
large student stocks and increasing ages at enrolment and at the completion of edu-
cation give cause to explore the antecedents of student fertility. The present study 
has extended the literature on the heterogeneous effects of education on fertility by 
considering the difference between online and on-campus education. Using register 
data on all Swedish women born from 1968 to 1991, I have assessed whether the 
risk of transition to parenthood during university studies is related to the usage of 
online distance education (ODE).

The results show that when all or a high proportion of a period of enrolment is 
conducted at distance, the negative association between educational enrolment 
and the risk of transition to parenthood is considerably smaller. Descriptive find-
ings show that online studies are disproportionately utilized by individuals with a 
high transition risk, such as older and married students. At the same time, a higher 
likelihood of first birth is still found among distance students across age and cohort 
groups, in so-called family-friendly educational fields and among students within 



815

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Online Distance Education and Transition to Parenthood Among…

different income brackets even when controls are included for sociodemographic 
characteristics. I have shown that while study patterns—the way individuals use 
ODE and brick-and-mortar education, respectively—probably explain part of the 
effect, the impact of ODE on fertility is found for full-time and part-time students, 
for students who do and do not graduate and for students with both adjacent study 
spells and with no contiguous study spells.

I have suggested a few reasons for the observed association. Some of the funda-
mental attributes of online distance learning, such as flexibility, mobility and inde-
pendence from campus, are consistent with the needs of parent students. Distance 
education may enable fertility by promoting double-status positions (Spéder and 
Bartus 2017) and by transforming studies into a domestic activity that is compat-
ible with work and parenthood. Such an interpretation is supported by the fact that 
effects were particularly prominent among part-time students, students with higher 
yearly incomes, student earners and students aiming at family-oriented occupations 
such as teaching. The property of enabling fertility need not imply a causal relation-
ship, but it does provide an intuitive explanation for why distance education would 
be a preferred option in connection with transitioning into parenthood. The central 
take-home message from the present study is that the educational platform may be 
considered an important factor, with differentiated effects on fertility. This finding is 
of particular importance in light of the rapid expansion of distance education.

Will the diffusion of online platforms causally increase student fertility or the 
fertility tempo among those with a tertiary education? The present paper does not 
employ the type of design that would be necessary to answer this question. Many of 
the students who become parents during distance studies are probably a select group 
who would have become parents regardless of the available study platforms. In this 
case, the diffusion of online platforms produces a dividend, based on educational 
platform, for an existing demographic behaviour, but would not impact on student 
fertility as such. Indeed, fertility intentions may govern the choice into or type of 
tertiary education (Cohen et  al. 2011). Yet another counterfactual is that individu-
als observed to be taking online courses, and who experience childbirth during their 
studies, might have opted out of tertiary education altogether if ODE had not been 
available. However, studies in family planning (Hammerslough 1992), for example, 
have shown that fertility and family behaviour are impacted by access to resources 
and innovations that provide practical assistance to intended behaviours. To the 
extent that distance education provides enabling practical assistance to student par-
enthood, it is conceivable that at least a part of the student population are using 
online platforms as a tool to help them realize their childbearing intentions. This 
group might be responsive to the increasing supply of distance online courses. The 
results in the present paper can thus be seen as providing a tentative indication of the 
possibility that online distance education reduces the postponement of childbearing 
for subgroups of university-educated individuals, increasing their chances of real-
izing their fertility intentions.

Online distance studies can be conceptualized as a technology that enables 
particular fertility behaviours. The different rates of transition to parenthood dur-
ing enrolment hint that campus and distance education may be qualitatively dif-
ferent experiences. One possible interpretation is that as online distance education 



816 L. Andersson 

1 3

becomes more ubiquitous within tertiary educational institutions, the university 
experience changes; campus life becomes increasingly optional, flexibility increases 
and distance and commuting become less of a problem, providing a leeway for stu-
dent parenthood. This is a plausible scenario that constitutes a clear illustration of 
how the life course is regulated by concrete structuring environments such as uni-
versity campuses, and of how technological innovations can alter these structuring 
conditions. This illuminates the need for further study of ODE as a means by which 
information communication technologies (ICT) are affecting the life course (Ches-
ley and Johnson 2014).

Finally, the awareness of a relationship between the transition to parenthood and 
distance education might be informative for policy makers. Caution is needed on 
this point. This is the case in part because the present study is not based on a causal 
design, but also because education functions within broader complex systems whose 
effects are difficult to forecast. Nonetheless, actors with an interest in childbearing or 
lifelong learning policies might benefit from a careful consideration of the findings 
from this study.

Several limitations should be noted. While I distinguish study intensity, this study 
cannot address the issue that the nature of online studies may be different from that 
of campus studies. This also includes the issue of the financial returns to education, 
which is fundamentally tied to fertility. Better data on the content of online and cam-
pus education, including a comparison of complete programmes of tertiary studies, 
would have been of benefit here. Furthermore, individuals were observed during a 
limited 8-year period and no data have been included from the period after 2012. 
This is a period in which new technology has powerfully expanded the use of online 
learning platforms. The latest enrolment cohorts on which this study is based, and 
which contain the highest proportions of distance students, completed their educa-
tion subsequent to the conclusion of the observation period. A longer time frame 
would be beneficial, but this is of course a shortcoming that affects most studies 
of current phenomena. Finally, while the population level coverage is advantageous 
with respect to external validity, Sweden may also be a problematic case to general-
ize from, since higher education and parenthood occur in a context of subsidized 
students loans and parental leave schemes that are not representative of all devel-
oped countries.

Despite these limitations, the present study has made several contributions. 
It is the first paper to investigate the role of online distance tertiary education in 
the transition to parenthood. I draw on standard theories of transition to parent-
hood to elaborate on the function of distance education for childbearing post-
ponement via student parenthood. I provide novel population-based empirical 
findings that provide support for the existence of a link between distance educa-
tion and the transition to parenthood across several relevant subgroups. The pre-
sent paper has taken a first step that will provide a basis for future inquiries into 
the possible role of distance education for childbearing behaviour. Addressing 
selectivity and reverse causality is important, and should be an aim for future 



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Online Distance Education and Transition to Parenthood Among…

studies. Identifying a random components in regional Internet access, recent 
studies use broadband rollout to tease out exogenous variation in ICT usage (see 
Bellou 2015; Billari, Giuntella and Stella 2017). In the present case, broadband 
rollout is highly diffused during the observed period, and is linked to distances 
to university and other predictors of enrolment, which complicates its function 
as an instrument. However, for other contexts and periods, this strategy, as a 
means of estimating outcomes of ODE net of selection, holds great promise. 
Furthermore, despite the extensive coverage of the data in the present study, 
turning to limited but more detailed sources is likely to be fruitful. Having in-
depth information on ODE and brick-and-mortar versions of similar educational 
programs, or on particular tertiary institutions that implement online learning 
platforms at different periods in time, may allow for different designs that might 
aid inference. On this note, one important question is whether or not the spread 
of online education enables non-traditional students to enrol and thus causally 
empowers underprivileged groups. The flow into online education among those 
who are already parents, and its impact on higher-order births, is also a topic 
for future research. Much can be done to develop and model mechanisms. For 
example, do distance students’ patterns of social interaction, partnering and 
labour market trajectories differ from those of their peers on campus, and does 
this affect fertility? Also, given the well-documented role of the university as 
a marriage market, what are the implications of online distance enrolment for 
assortative partnership formation? Examining large educational institutions that 
offer full programs on both online and campus platforms might provide a means 
of addressing these issues.

Acknowledgements This research is supported by a Grant from the Swedish Research Council for 
Health, Working Life and Welfare (FORTE, dnr 2012-1741). I thank Michael Gähler, Juho Härkönen, 
Frida Rudolphi, Margarita Chudnovskaya, Roujman shahbazian and participants of the SUDA Demo-
graphic Colloquium Series and the SOFI Level of Living Group Seminars for valuable comments on 
earlier versions of this paper.

Compliance with Ethical Standards 

Conflict of interest I have no conflicts of interest to disclose.

Ethical Statement This research is conducted in compliance with the ethical standards of the Swedish 
Research Council.

Open Access This article is distributed under the terms of the Creative Commons Attribution 4.0 Interna-
tional License (http://creat iveco mmons .org/licen ses/by/4.0/), which permits unrestricted use, distribution, 
and reproduction in any medium, provided you give appropriate credit to the original author(s) and the 
source, provide a link to the Creative Commons license, and indicate if changes were made.

Appendix

See Tables 7, 8, 9 and 10.   

http://creativecommons.org/licenses/by/4.0/


818 L. Andersson 

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Table 7  Effects of all covariates 
included in the model from 
Table 2 on first birth conception 
(hazard ratio estimates and 95% 
CI)

Enrolment status
Not in education (ref) 1.00 –
Upper secondary 0.56*** (0.53–0.58)
Post-upper secondary non-tertiary 0.67*** (0.66–0.68)
Campus full-time 0.30*** (0.29–0.31)
Distance full-time 0.57*** (0.54–0.60)
Campus part-time 0.50*** (0.49–0.51)
Distance part-time 0.79*** (0.75–0.84)
Period
2004 (ref) 1.00 –
2005 1.00 (0.99–1.02)
2006 0.99 (0.98–1.00)
2007 1.00 (0.99–1.01)
2008 1.01 (0.99–1.02)
2009 1.02** (1.01–1.04)
2010 0.98** (0.97–0.99)
2011 0.97*** (0.96–0.99)
2012 0.69*** (0.67–0.70)
Social background
Manual labour (ref) 1.00 –
Non-manual labour 0.94*** (0.93–0.95)
Professional 0.85*** (0.84–0.86)
Self-employed or farmer 0.90*** (0.89–0.92)
Unknown 0.94*** (0.93–0.96)
Region of residence
Metropolitan (ref) 1.00 –
Urban 1.13*** (1.12–1.13)
Small town and rural areas 1.27*** (1.26–1.28)
Unknown 0.66*** (0.62–0.70)
Migration status
Born in Sweden (ref) 1.00 –
Born Abroad 0.82*** (0.81–0.83)
Civil status
Not married (ref) 1.00 –
Married 4.12*** (4.08–4.15)
Unknown 1.00 (1.00–1.00)
Attained education
Compulsory (ref) 1.00 –
Upper secondary 0.85*** (0.84–0.87)
Post-upper secondary non-tertiary 0.81*** (0.79–0.82)
University graduate degree or at least 2 years 

of studies
1.10*** (1.08–1.11)

University postgraduate degree 1.13*** (1.12–1.15)
Unknown 0.53*** (0.51–0.55)
Age 2.24*** (2.22–2.26)
Age squared 0.99*** (0.99–0.99)
N 938,768

***p < 0.001; **p < 0.01; *p < 0.05



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Table 8  Odds of enrolment in distance education compared to campus education, by parity, conception 
and control variables. Cross section of student population in 2004 and 2011 (odds ratios and 95% CI)

a Birth occurred during 2005/2012

2004 2011

Parity
0 (ref) 1.00 – 1.00 –
1 1.32*** (1.25–1.38) 1.11*** (1.05–1.18)
2 1.19*** (1.14–1.25) 1.06* (1.01–1.12)
3 or more 1.13*** (1.06–1.19) 0.98 (0.92–1.04)
Conceptiona

No birth 1.00 – 1.00 –
1st birth 1.17*** (1.07–1.29) 1.62*** (1.47–1.80)
2nd birth 1.43*** (1.28–1.59) 1.54*** (1.35–1.76)
3rf birth 1.07 (0.89–1.28) 1.16 (0.95–1.42)
Social background
Manual labour (ref) 1.00 – 1.00 –
Non-manual labour 1.60*** (1.48–1.73) 1.29*** (1.16–1.44)
Professional 1.52*** (1.40–1.65) 1.33*** (1.19–1.48)
Self-employed or farmer 1.37*** (1.26–1.49) 1.37*** (1.22–1.53)
Unknown 1.57*** (1.43–1.72) 1.30*** (1.15–1.46)
Region of residence
Metropolitan (ref) 1.00 – 1.00 –
Urban 1.29*** (1.25–1.33) 1.38*** (1.33–1.43)
Small town and rural areas 2.49*** (2.40–2.58) 3.00*** (2.89–3.13)
Unknown 2.29** (1.25–4.22) 9.34*** (5.31–16.43)
Migration status
Born Abroad 0.83*** (0.78–0.88) 0.82*** (0.75–0.89)
Civil status
Married 1.20*** (1.16–1.25) 1.18*** (1.14–1.23)
Attained education
Compulsory (ref) 1.00 – 1.00 –
Upper secondary 1.49 (0.95–2.33) 0.80 (0.61–1.05)
Post-upper secondary non-tertiary 0.80 (0.51–1.25) 0.56*** (0.43–0.74)
University graduate degree 0.71 (0.45–1.11) 0.80 (0.61–1.05)
University postgraduate degree 1.08 (0.51–2.29) 0.54* (0.29–0.98)
Age 1.37*** (1.35–1.39) 1.35*** (1.33–1.37)
Age square 1.00*** (1.00–1.00) 1.00*** (1.00–1.00)
N 186,708 178,311



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Table 9  Tertiary enrolment 
effects on second birth 
conception (hazard ratio 
estimates and 95% CI)

Controlled for period, age, age squared, social background, region of 
residence, migrant status, civil status and educational level
***p < 0.001; **p < 0.01; *p < 0.05

Not in education 1.00
Upper secondary 0.56***

(0.49–0.63)
Post-upp. sec. non-ter. 0.76***

(0.75–0.77)
Campus full-time 0.62***

(0.60–0.63)
Distance full-time 0.70***

(0.65–0.74)
Campus part-time 0.76***

(0.74–0.78)
Distance part-time 0.86***

(0.80–0.92)
N 938,768

Table 10  Tertiary enrolment effects on second birth conception by partners’ income quartiles (hazard 
ratio estimates and 95% CI)

Controlled for period, age, age squared, social background, region of residence, migrant status, civil sta-
tus and educational level and income rank. Second-birth with first-birth parents: Censoring at divorce
***p < 0.001; **p < 0.01; *p < 0.05

Not in education 1.00 –
Campus full-time, p lowest income quartile 0.46*** (0.43–0.50)
Distance full-time, p lowest income quartile 0.53*** (0.44–0.64)
Campus full-time, p medium–low income quartile 0.59*** (0.56–0.62)
Distance full-time, p medium–low income quartile 0.69*** (0.61–0.77)
Campus full-time, p medium–high income quartile 0.71*** (0.67–0.74)
Distance full-time, p medium–high income quartile 0.74*** (0.66–0.83)
Campus full-time, p highest income quartile 0.79*** (0.74–0.83)
Distance full-time, p highest income quartile 0.83** (0.73–0.95)
Campus part-time, p lowest income quartile 0.57*** (0.54–0.61)
Distance part-time, p lowest income quartile 0.81* (0.67–0.98)
Campus part-time, p medium–low income quartile 0.72*** (0.68–0.75)
Distance part-time, p medium–low income quartile 0.81** (0.72–0.93)
Campus part-time, p medium–high income quartile 0.83*** (0.80–0.87)
Distance part-time, p medium–high income quartile 0.92 (0.81–1.04)
Campus part-time, p highest income quartile 0.94** (0.90–0.98)
Distance part-time, p highest income quartile 0.90 (0.78–1.04)
N 477,323



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	Online Distance Education and Transition to Parenthood Among Female University Students in Sweden
	Abstract
	1 Introduction
	2 Theoretical Framework and Previous Research
	2.1 University Enrolment and Fertility
	2.2 Online Distance Enrolment and Fertility

	3 The Swedish Context
	4 Method
	4.1 Data and Sample
	4.2 Educational Measures
	4.3 Other Measures
	4.4 Analytical Strategy

	5 Results
	5.1 Descriptive Results
	5.2 Survival Model Results
	5.3 Subgroup Analysis
	5.4 Sensitivity Analyses and Alternative Specifications

	6 Discussion and Conclusion
	Acknowledgements 
	References